Affiliations
Massachusetts General Hospital, Boston, Massachusetts
Given name(s)
Robert L.
Family name
Fogerty
Degrees
MD, MPH

Hospitalist Sign‐out

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Effectiveness of written hospitalist sign‐outs in answering overnight inquiries

Hospital medicine is a main component of healthcare in the United States and is growing.[1] In 1995, 9% of inpatient care performed by general internists to Medicare patients was provided by hospitalists; by 2006, this had increased to 37%.[2] The estimated 30,000 practicing hospitalists account for 19% of all practicing general internists[2, 3, 4] and have had a major impact on the treatment of inpatients at US hospitals.[5] Other specialties are adopting the hospital‐based physician model.[6, 7] The hospitalist model does have unique challenges. One notable aspect of hospitalist care, which is frequently shift based, is the transfer of care among providers at shift change.

The Society of Hospital Medicine recognizes patient handoffs/sign‐outs as a core competency for hospitalists,[8] but there is little literature evaluating hospitalist sign‐out quality.[9] A systematic review in 2009 found no studies of hospitalist handoffs.[8] Furthermore, early work suggests that hospitalist handoffs are not consistently effective.[10] In a recent survey, 13% of hospitalists reported they had received an incomplete handoff, and 16% of hospitalists reported at least 1 near‐miss attributed to incomplete communication.[11] Last, hospitalists perform no better than housestaff on evaluations of sign‐out quality.[12]

Cross‐coverage situations, in which sign‐out is key, have been shown to place patients at risk.[13, 14] One study showed 7.1 problems related to sign‐out per 100 patient‐days.[15] Failure during sign‐out can ultimately threaten patient safety.[16] Therefore, evaluating the quality of hospitalist sign‐outs by assessing how well the sign‐out prepares the night team for overnight events is necessary to improve hospitalist sign‐outs and ultimately increase patient safety.

METHODS

Study Setting

The study took place at YaleNew Haven Hospital (YNHH), the primary teaching affiliate for the Yale School of Medicine, in New Haven, Connecticut. YNHH is a 966‐bed, urban, academic medical center. The Hospitalist Service is a nonteaching service composed of 56.1 full‐time‐equivalent (FTE) attending physicians and 26.8 FTE midlevel providers. In fiscal year 2012, the YNHH Hospitalist Service cared for 13,764 discharges, or approximately 70% of general medical discharges. Similar patients are cared for by both hospitalists and housestaff. Patients on the hospitalist service are assigned an attending physician as well as a midlevel provider during the daytime. Between the departure of the day team and the arrival of the night team, typically a 2‐hour window, a skeleton crew covers the entire service and admits patients. The same skeleton crew coverage plan exists in the approximately 2.5‐hour morning gap between the departure of the night team and arrival of the day team. Overnight, care is generally provided by attending hospitalist physicians alone. Clinical fellows and internal medicine residents occasionally fill the night hospitalist role.

Sign‐out Procedure

The YNHH Hospitalist Service uses a written sign‐out[17] created via template built into the electronic health record (EHR), Sunrise Clinical Manager (version 5.5; Allscripts, Chicago, IL) and is the major mechanism for shift‐to‐shift information transfer. A free text summary of the patient's medical course and condition is created by the provider preparing the sign‐out, as is a separate list of to do items. The free text box is titled History (general hospital course, new events of the day, overall clinical condition). A representative narrative example is, 87 y/o gentleman PMHx AF on coumadin, diastolic CHF (EF 40%), NIDDM2, first degree AV block, GIB in setting of supratherapeutic INR, depression, COPD p/w worsening low back pain in setting of L1 compression frx of? age. HD stable. An option exists to include a medication list pulled from the active orders in the EHR when the sign‐out report is printed. The sign‐out is typically created by the hospitalist attending on the day of admission and then updated daily by the mid‐level provider under the supervision of the attending physician, in accordance with internal standards set by the service. Formal sign‐out training is included as part of orientation for new hires, and ongoing sign‐out education is provided, as needed, by a physician assistant charged with continuous quality improvement for the entire service. The service maintains an expectation for the entire team to provide accurate and updated sign‐out at every shift change. Attending hospitalists or mid‐level providers update the sign‐out on weekends. Because the day team has generally left the hospital prior to the arrival of the night team, verbal sign‐out occurs rarely. Should a verbal sign‐out be given to the night team, it will be provided by the daytime team directly to the night team either via telephone or the day team member staying in the hospital until arrival of the night team.

Participants

All full‐time and regularly scheduled part‐time attending physicians on the YNHH hospitalist night team were eligible to participate. We excluded temporary physicians on service, including clinical fellows and resident moonlighters. Hospitalists could not participate more than once. Written informed consent was obtained of all hospitalists at the start of their shift.

Data Collection

Hospitalists who consented were provided a single pocket card during their shift. For every inquiry that involved a patient that the hospitalist was covering, the hospitalist recorded who originated the inquiry, the clinical significance, the sufficiency of written sign‐out, which information was used other than the written sign‐out, and information regarding the anticipation of the event by the daytime team (Figure 1).

Figure 1
Data collection instrument. Abbreviations: MD, medical doctor; LPN, licensed practical nurse; RN, registered nurse; MRN, medical record number.

Data were collected on 6 days and distributed from April 30, 2012 through June 12, 2012. Dates were chosen based on staffing to maximize the number of eligible physicians each night and included both weekdays and weekend days. The written sign‐out for the entire service was printed for each night data collection took place.

Main Predictors

Our main predictor variables were characteristics of the inquiry (topic area, clinical importance of the inquiry as assessed by the hospitalist), characteristics of the patient (days since admission), and characteristics of the written sign‐out (whether it included any anticipatory guidance and a composite quality score). We identified elements of the composite quality score based on prior research and expert recommendations.[8, 18, 19, 20] To create the composite quality score, we gave 1 point for each of the following elements: diagnosis or presenting symptoms, general hospital course (a description of any event occurring during hospitalization but prior to date of data collection), current clinical condition (a description of objective data, symptoms, or stability/trajectory in the last 24 hours), and whether the sign‐out had been updated within the last 24 hours. The composite score could range from 0 to 4.

Main Outcome Measures

Our primary outcome measure was the quality and utility of the written‐only sign‐out as defined via a subjective assessment of sufficiency by the covering physician (ie, whether the written sign‐out was adequate to answer the query without seeking any supplemental information). For this outcome, we excluded inquiries for which hospitalists had determined a sign‐out was not necessary to address the inquiry or event.

Statistical Analysis

Data analysis was conducted using SAS 9.2 (SAS Institute, Cary, NC). We used a cutoff of P<0.05 for statistical significance; all tests were 2‐tailed. We assessed characteristics of overnight inquiries using descriptive statistics and determined the association of the main predictors with sufficient sign‐out using 2 tests. We constructed a multivariate logistic regression model using a priori‐determined clinically relevant predictors to test predictors of sign‐out sufficiency. The study was approved by the Human Investigation Committee of Yale University.

RESULTS

Hospitalists recorded 124 inquiries about 96 patients. Altogether, 15 of 19 (79%) eligible hospitalists returned surveys. Of the 96 patients, we obtained the written sign‐out for 68 (71%). The remainder were new patients for whom the sign‐out had not yet been prepared, or patients who had not yet been assigned to the hospitalist service at the time the sign‐out report was printed.

Hospitalists referenced the sign‐out for 89 (74%) inquiries, and the sign‐out was considered sufficient to respond to 27 (30%) of these inquiries (ie, the sign‐out was adequate to answer the inquiry without any supplemental information). Hospitalists physically saw the patient for 14 (12%) inquiries. Nurses were the originator for most inquiries (102 [82%]). The most common inquiry topics were medications (55 [45%]), plan of care (26 [21%]) and clinical changes (26 [21%]). Ninety‐five (77%) inquiries were considered to be somewhat or very clinically important by the hospitalist (Table 1).

Characteristics of Overnight Inquiries and Written Sign‐out
Inquiry originator, No. (% of 124) 
Nurse102 (82)
Patient13 (10)
Consultant6 (5)
Respiratory therapy3 (2)
Inquiry subject, No. (% of 122) 
Medication55 (45)
Plan of care26 (21)
Clinical change26 (21)
Order reconciliation15 (12)
Missing2
Clinical importance of inquiry, No. (% of 123) 
Very33 (27)
Somewhat62 (50)
Not at all28 (23)
Missing1
Sufficiency of sign‐out alone in answering inquiry, No. (% of 121) 
Yes27 (22)
No62 (51)
Sign‐out not necessary for inquiry32 (26)
Missing3
Days since admission, No. (% of 124) 
Less than 269 (44.4)
2 or more55 (55.6)
Reference(s) used when sign‐out insufficient, No. (% of 62) 
Physician notes37 (60)
Nurse11 (18)
Labs/studies10 (16)
Orders9 (15)
Patient7 (11)
Other7 (11)
Was the event predicted by the primary team? No. (% of 119) 
Yes17 (14)
No102 (86)
Missing5
If no, could this event have been predicted, No. (% of 102) 
Yes47 (46)
No55 (54)
Of all events that could have been predicted, how many were predicted? No. (% of 64) 
Predicted17 (27)
Not predicted47 (73)
Did you physically see the patient? No. (% of 117) 
Yes14 (12)
No103 (88)
Missing7
Composite score, No. (% of 68) 
0 or 10 (0)
23 (4)
331 (46)
434 (50)
Anticipatory guidance/to‐do tasks, No. (% of 96) 
069(72)
121 (22)
2 or more6 (6)

No written sign‐outs had a composite score of 0 or 1; 3 (4%) had a composite score of 2; 31 (46%) had a composite score of 3; and 34 (50%) had a composite score of 4. Seventy‐two percent of written sign‐outs included neither anticipatory guidance nor tasks, 21% had 1 anticipatory guidance item or task, and 6% had 2 or more anticipatory guidance items and/or tasks.

The primary team caring for a patient did not predict 102 (86%) inquiries, and hospitalists rated 47 (46%) of those unpredicted events as possible for the primary team to predict. Five responses to this question were incomplete and excluded. Of the 64 events predicted by the primary team or rated as predictable by the night hospitalists, 17 (27%) were predicted by the primary team (Table 1).

Sign‐out was considered sufficient in isolation to answer the majority of order reconciliation inquiries (5 [71%]), but was less effective at helping to answer inquiries about clinical change (7 [29%]), medications (10 [28%]), and plan of care (5 [24%]) (P=0.001). (Table 2) Ninety‐five events were rated as either very or somewhat clinically important, but this did not affect the likelihood of sign‐out being sufficient in isolation relative to the not at all clinically important group. Specifically, 33% of sign‐outs were rated sufficient in the very important group, 19% in the somewhat important group, and 50% in the not at all group (P=0.059).

Predictors of Sufficient Sign‐Out
Predictor Number of inquiries (%) for which sign‐out was sufficient in isolationbp value
  • Medication inquiries were inquiries regarding medications with a clinical component. Verification of an order or clarification of an order (i.e. dosing, route, timing) was considered an order reconciliation inquiry.

  • The sign‐out was adequate to answer the query without seeking out any supplemental information

Question topic  0.001
 Order reconciliation (oxygen/telemetry)5/7 (71) 
 Clinical change (vitals, symptoms, labs)7/24 (29) 
 Medicationa (with clinical question)10/36 (28) 
 Plan of care (discharge, goals of care, procedure)5/21 (24) 
Clinically important  0.059
 Not at all8 (50) 
 Somewhat8 (19) 
 Very10 (33) 
    
Days since admission  0.015
 Less than 2 days21 (40) 
 2 or more days6 (16) 
Anticipatory guidance and tasks  0.006
 2 or more3 (60) 
 13 (14) 
 021 (34) 
Composite score  0.144
 <45 (15) 
 410 (29) 

Sign‐out was considered sufficient in isolation more frequently for inquiries about patients admitted <2 days prior to data collection than for inquiries about patients admitted more than 2 days prior to data collection (21 [40%] vs 6 [16%], respectively) (P=0.015) (Table 2).

Sign‐outs with 2 or more anticipatory guidance items were considered sufficient in isolation more often than sign‐outs with 1 or fewer anticipatory guidance item (60% for 2 or more, 14% for 1, 34% for 0; P=0.006) (Table 2). The composite score was grouped into 2 categoriesscore <4 and score=4with no statistical difference in sign‐out sufficiency between the 2 groups (P=0.22) (Table 2).

In multivariable analysis, no predictor variable was significantly associated with sufficient sign‐out (Table 3).

Multivariate Analysis of Sufficient Sign‐Out Predictors
  Adjusted OR (95% CI)p value
Question topic  0.58
 Order reconciliation (oxygen/telemetry)Reference 
 Clinical change (vitals, symptoms, labs)0.29 (0.01 6.70) 
 Medication (+/‐ vitals or symptoms)0.17 (0.01 3.83) 
 Plan of care (discharge, goals of care, IV, CPAP, procedure)0.15 (0.01 3.37) 
Clinically important  0.85
 Not at AllReference 
 Somewhat0.69 (0.12 4.04) 
 Very0.57 (0.08 3.88) 
Days since admission 0.332 (0.09 1.19)0.074
Anticipatory guidance and tasks  0.26
 2 or moreReference 
 10.13 (0.01 1.51) 
 00.21 (0.02 2.11) 
Composite Score  0.22
 <4Reference 
 42.2 (0.62 7.77) 

DISCUSSION

In this study of written sign‐out among hospitalists and physician‐extenders on a hospitalist service, we found that the sign‐out was used to answer three‐quarters of overnight inquiries, despite the advanced level of training (completion of all postgraduate medical education) of the covering clinicians and the presence of a robust EHR. The effectiveness of the written sign‐out, however, was not as consistently high as its use. Overall, the sign‐out was sufficient to answer less than a third of inquiries in which it was referenced. Thus, although most studies of sign‐out quality have focused on trainees, our results make it clear that hospitalists also rely on sign‐out, and its effectiveness can be improved.

There are few studies of attending‐level sign‐outs. Hinami et al. found that nearly 1 in 5 hospitalists was uncertain of the care plan after assuming care of a new set of patients, despite having received a handoff from the departing hospitalist.[11] Handoffs between emergency physicians and hospitalists have repeatedly been noted to have content omissions and to contribute to adverse events.[7, 12, 21, 22] Ilan et al. videotaped attending handoffs in the intensive care unit and found that they did not follow any of 3 commonly recommended structures; however, this study did not assess the effectiveness of the handoffs.[23] Williams et al. found that the transfer of patient information among surgical team members, including attending surgeons, was suboptimal, and these problems were commonly related to decreased surgeon familiarity with a particular patient, a theme common to hospital medicine, and a contributor to adverse events and decreased efficiency.[24]

This study extends the literature in several ways. By studying overnight events, we generate a comprehensive view of the information sources hospitalists use to care for patients overnight. Interestingly, our results were similar to the overnight information‐gathering habits of trainees in a study of pediatric trainees.[25] Furthermore, by linking each inquiry to the accompanying written sign‐out, we are able to analyze which characteristics of a written sign‐out are associated with sign‐out effectiveness, and we are able to describe the utility of written sign‐out to answer different types of clinical scenarios.

Our data show that hospitalists rely heavily on written sign‐out to care for patients overnight, with the physician note being the most‐utilized secondary reference used by covering physicians. The written sign‐out was most useful for order clarification compared to other topics, and the patient was only seen for 12% of inquiries. Most notable, however, was the suggestion that sign‐outs with more anticipatory guidance were more likely to be effective for overnight care, as were sign‐outs created earlier in the hospital course. Future efforts to improve the utility of the written sign‐out might focus on these items, whether through training or audit/feedback.

The use of electronic handoff tools has been shown to increase the ease of use, efficiency, and perceptions of patient safety and quality in several studies.[3, 26, 27] This study relied on an electronic tool as the only means of information transfer during sign‐out. Without the confounding effect of verbal information transfer, we are better able to understand the efficacy of the written component alone. Nonetheless, most expert opinion statements as well as The Joint Commission include a recommendation for verbal and written components to handoff communication.[8, 20, 28, 29, 30] It is possible that sign‐outs would more often have been rated sufficient if the handoff process had reliably included verbal handoff. Future studies are warranted to compare written‐only to written‐plus‐verbal sign‐out, to determine the added benefit of verbal communication. With a robust EHR, it is also an open question whether sign‐out needs to be sufficient to answer overnight inquiries or whether it would be acceptable or even preferable to have overnight staff consistently review the EHR directly, especially as the physician notes are the most common nonsign‐out reference used. Nonetheless, the fact that hospitalists rely heavily on written sign‐out despite the availability of other information sources suggests that hospitalists find specific benefit in written sign‐out.

Limitations of this study include the relatively small sample size, the limited collection time period, and the single‐site nature. The YNHH Hospitalist Service uses only written documents to sign out, so the external validity to programs that use verbal sign‐out is limited. The written‐only nature, however, removes the variable of the discussion at time of sign‐out, improving the purity of the written sign‐out assessment. We did not assess workload, which might have affected sign‐out quality. The interpretation of the composite score is limited, due to little variation in scoring in our sample, as well as lack of validation in other studies. An additional limitation is that sign‐outs are not entirely drafted by the hospitalist attendings. Hospitalists draft the initial sign‐out document, but it is updated on subsequent days by the mid‐level provider under the direction of the hospitalist attending. It is therefore possible that sign‐outs maintained directly by hospitalists would have been of different quality. In this regard it is interesting to note that in a different study of verbal sign‐out we were not able to detect a difference in quality among hospitalists, trainees, and midlevels.[12] Last, hindsight bias may be present, as the covering physician's perspective of the event includes more information than available to the provider creating the sign‐out document.

Overall, we found that attending hospitalists rely heavily on written sign‐out documents to address overnight inquiries, but those sign‐outs are not reliably effective. Future work to better understand the roles of written and verbal components in sign‐out is needed to help improve the safety of overnight care.

Disclosures

Disclosures: Dr. Horwitz is supported by the National Institute on Aging (K08 AG038336) and by the American Federation for Aging Research through the Paul B. Beeson Career Development Award Program. Dr. Horwitz is also a Pepper Scholar with support from the Claude D. Pepper Older Americans Independence Center at Yale University School of Medicine (#P30AG021342 NIH/NIA). Dr. Fogerty had full access to all of the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. The authors do not have conflicts of interest to report. Dr. Schoenfeld was a medical student at the Yale University School of Medicine, New Haven, Connecticut at the time of the study. She is now a resident at Massachusetts General Hospital in Boston, Massachusetts.

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References
  1. Kralovec PD, Miller JA, Wellikson L, Huddleston JM. The status of hospital medicine groups in the United States. J Hosp Med. 2006;1(2):7580.
  2. Kuo YF, Sharma G, Freeman JL, Goodwin JS. Growth in the care of older patients by hospitalists in the United States. N Engl J Med. 2009;360(11):11021112.
  3. Anderson J, Shroff D, Curtis A, et al. The Veterans Affairs shift change physician‐to‐physician handoff project. Jt Comm J Qual Patient Saf. 2010;36(2):6271.
  4. O'Leary KJ, Williams MV. The evolution and future of hospital medicine. Mt Sinai J Med. 2008;75(5):418423.
  5. McMahon LF. The hospitalist movement—time to move on. N Engl J Med. 2007;357(25):26272629.
  6. Freeman WD, Gronseth G, Eidelman BH. Invited article: is it time for neurohospitalists? Neurology. 2008;70(15):12821288.
  7. Funk C, Anderson BL, Schulkin J, Weinstein L. Survey of obstetric and gynecologic hospitalists and laborists. Am J Obstet Gynecol. 2010;203(2):177.e171–e174.
  8. Arora VM, Manjarrez E, Dressler DD, Basaviah P, Halasyamani L, Kripalani S. Hospitalist handoffs: a systematic review and task force recommendations. J Hosp Med. 2009;4(7):433440.
  9. Dressler DD, Pistoria MJ, Budnitz TL, McKean SC, Amin AN. Core competencies in hospital medicine: development and methodology. J Hosp Med. 2006;1(1):4856.
  10. Burton MC, Kashiwagi DT, Kirkland LL, Manning D, Varkey P. Gaining efficiency and satisfaction in the handoff process. J Hosp Med. 2010;5(9):547552.
  11. Hinami K, Farnan JM, Meltzer DO, Arora VM. Understanding communication during hospitalist service changes: a mixed methods study. J Hosp Med. 2009;4(9):535540.
  12. Horwitz LI, Rand D, Staisiunas P, et al. Development of a handoff evaluation tool for shift‐to‐shift physician handoffs: the handoff CEX. J Hosp Med. 2013;8(4):191200.
  13. Petersen LA, Brennan TA, O'Neil AC, Cook EF, Lee TH. Does housestaff discontinuity of care increase the risk for preventable adverse events? Ann Intern Med. 1994;121(11):866872.
  14. Schuberth JL, Elasy TA, Butler J, et al. Effect of short call admission on length of stay and quality of care for acute decompensated heart failure. Circulation. 2008;117(20):26372644.
  15. Horwitz LI, Moin T, Krumholz HM, Wang L, Bradley EH. Consequences of inadequate sign‐out for patient care. Arch Intern Med. 2008;168(16):17551760.
  16. Arora V, Johnson J, Lovinger D, Humphrey HJ, Meltzer DO. Communication failures in patient sign‐out and suggestions for improvement: a critical incident analysis. Qual Saf Health Care. 2005;14(6):401407.
  17. Horwitz LI, Schuster KM, Thung SF, et al. An institution‐wide handoff task force to standardise and improve physician handoffs. BMJ Qual Saf. 2012;21(10):863871.
  18. Horwitz LI, Moin T, Krumholz HM, Wang L, Bradley EH. What are covering doctors told about their patients? Analysis of sign‐out among internal medicine house staff. Qual Saf Health Care. 2009;18(4):248255.
  19. Horwitz LI, Krumholz HM, Green ML, Huot SJ. Transfers of patient care between house staff on internal medicine wards: a national survey. Arch Intern Med. 2006;166(11):11731177.
  20. Arora VM, Johnson JK, Meltzer DO, Humphrey HJ. A theoretical framework and competency‐based approach to improving handoffs. Qual Saf Health Care. 2008;17(1):1114.
  21. Apker J, Mallak LA, Gibson SC. Communicating in the “gray zone”: perceptions about emergency physician hospitalist handoffs and patient safety. Acad Emerg Med. 2007;14(10):884894.
  22. Horwitz LI, Meredith T, Schuur JD, Shah NR, Kulkarni RG, Jenq GY. Dropping the baton: a qualitative analysis of failures during the transition from emergency department to inpatient care. Ann Emerg Med. 2009;53(6):701710.e704.
  23. Ilan R, LeBaron CD, Christianson MK, Heyland DK, Day A, Cohen MD. Handover patterns: an observational study of critical care physicians. BMC Health Serv Res. 2012;12:11.
  24. Williams RG, Silverman R, Schwind C, et al. Surgeon information transfer and communication: factors affecting quality and efficiency of inpatient care. Ann Surg. 2007;245(2):159169.
  25. McSweeney M, Landrigan C, Jiang H, Starmer A, Lightdale J. Answering questions on call: Pediatric resident physicians' use of handoffs and other resources. J Hosp Med. 2013;8:328333.
  26. Eaton EG, Horvath KD, Lober WB, Rossini AJ, Pellegrini CA. A randomized, controlled trial evaluating the impact of a computerized rounding and sign‐out system on continuity of care and resident work hours. J Am Coll Surg. 2005;200(4):538545.
  27. Bump GM, Jovin F, Destefano L, et al. Resident sign‐out and patient hand‐offs: opportunities for improvement. Teach Learn Med. 2011;23(2):105111.
  28. Arora V, Johnson J. A model for building a standardized hand‐off protocol. Jt Comm J Qual Patient Saf. 2006;32(11):646655.
  29. Wohlauer MV, Arora VM, Horwitz LI, et al. The patient handoff: a comprehensive curricular blueprint for resident education to improve continuity of care. Acad Med. 2012;87(4):411418.
  30. The Joint Commission. 2013 Comprehensive Accreditation Manuals. Oak Brook, IL: The Joint Commission; 2012.
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Hospital medicine is a main component of healthcare in the United States and is growing.[1] In 1995, 9% of inpatient care performed by general internists to Medicare patients was provided by hospitalists; by 2006, this had increased to 37%.[2] The estimated 30,000 practicing hospitalists account for 19% of all practicing general internists[2, 3, 4] and have had a major impact on the treatment of inpatients at US hospitals.[5] Other specialties are adopting the hospital‐based physician model.[6, 7] The hospitalist model does have unique challenges. One notable aspect of hospitalist care, which is frequently shift based, is the transfer of care among providers at shift change.

The Society of Hospital Medicine recognizes patient handoffs/sign‐outs as a core competency for hospitalists,[8] but there is little literature evaluating hospitalist sign‐out quality.[9] A systematic review in 2009 found no studies of hospitalist handoffs.[8] Furthermore, early work suggests that hospitalist handoffs are not consistently effective.[10] In a recent survey, 13% of hospitalists reported they had received an incomplete handoff, and 16% of hospitalists reported at least 1 near‐miss attributed to incomplete communication.[11] Last, hospitalists perform no better than housestaff on evaluations of sign‐out quality.[12]

Cross‐coverage situations, in which sign‐out is key, have been shown to place patients at risk.[13, 14] One study showed 7.1 problems related to sign‐out per 100 patient‐days.[15] Failure during sign‐out can ultimately threaten patient safety.[16] Therefore, evaluating the quality of hospitalist sign‐outs by assessing how well the sign‐out prepares the night team for overnight events is necessary to improve hospitalist sign‐outs and ultimately increase patient safety.

METHODS

Study Setting

The study took place at YaleNew Haven Hospital (YNHH), the primary teaching affiliate for the Yale School of Medicine, in New Haven, Connecticut. YNHH is a 966‐bed, urban, academic medical center. The Hospitalist Service is a nonteaching service composed of 56.1 full‐time‐equivalent (FTE) attending physicians and 26.8 FTE midlevel providers. In fiscal year 2012, the YNHH Hospitalist Service cared for 13,764 discharges, or approximately 70% of general medical discharges. Similar patients are cared for by both hospitalists and housestaff. Patients on the hospitalist service are assigned an attending physician as well as a midlevel provider during the daytime. Between the departure of the day team and the arrival of the night team, typically a 2‐hour window, a skeleton crew covers the entire service and admits patients. The same skeleton crew coverage plan exists in the approximately 2.5‐hour morning gap between the departure of the night team and arrival of the day team. Overnight, care is generally provided by attending hospitalist physicians alone. Clinical fellows and internal medicine residents occasionally fill the night hospitalist role.

Sign‐out Procedure

The YNHH Hospitalist Service uses a written sign‐out[17] created via template built into the electronic health record (EHR), Sunrise Clinical Manager (version 5.5; Allscripts, Chicago, IL) and is the major mechanism for shift‐to‐shift information transfer. A free text summary of the patient's medical course and condition is created by the provider preparing the sign‐out, as is a separate list of to do items. The free text box is titled History (general hospital course, new events of the day, overall clinical condition). A representative narrative example is, 87 y/o gentleman PMHx AF on coumadin, diastolic CHF (EF 40%), NIDDM2, first degree AV block, GIB in setting of supratherapeutic INR, depression, COPD p/w worsening low back pain in setting of L1 compression frx of? age. HD stable. An option exists to include a medication list pulled from the active orders in the EHR when the sign‐out report is printed. The sign‐out is typically created by the hospitalist attending on the day of admission and then updated daily by the mid‐level provider under the supervision of the attending physician, in accordance with internal standards set by the service. Formal sign‐out training is included as part of orientation for new hires, and ongoing sign‐out education is provided, as needed, by a physician assistant charged with continuous quality improvement for the entire service. The service maintains an expectation for the entire team to provide accurate and updated sign‐out at every shift change. Attending hospitalists or mid‐level providers update the sign‐out on weekends. Because the day team has generally left the hospital prior to the arrival of the night team, verbal sign‐out occurs rarely. Should a verbal sign‐out be given to the night team, it will be provided by the daytime team directly to the night team either via telephone or the day team member staying in the hospital until arrival of the night team.

Participants

All full‐time and regularly scheduled part‐time attending physicians on the YNHH hospitalist night team were eligible to participate. We excluded temporary physicians on service, including clinical fellows and resident moonlighters. Hospitalists could not participate more than once. Written informed consent was obtained of all hospitalists at the start of their shift.

Data Collection

Hospitalists who consented were provided a single pocket card during their shift. For every inquiry that involved a patient that the hospitalist was covering, the hospitalist recorded who originated the inquiry, the clinical significance, the sufficiency of written sign‐out, which information was used other than the written sign‐out, and information regarding the anticipation of the event by the daytime team (Figure 1).

Figure 1
Data collection instrument. Abbreviations: MD, medical doctor; LPN, licensed practical nurse; RN, registered nurse; MRN, medical record number.

Data were collected on 6 days and distributed from April 30, 2012 through June 12, 2012. Dates were chosen based on staffing to maximize the number of eligible physicians each night and included both weekdays and weekend days. The written sign‐out for the entire service was printed for each night data collection took place.

Main Predictors

Our main predictor variables were characteristics of the inquiry (topic area, clinical importance of the inquiry as assessed by the hospitalist), characteristics of the patient (days since admission), and characteristics of the written sign‐out (whether it included any anticipatory guidance and a composite quality score). We identified elements of the composite quality score based on prior research and expert recommendations.[8, 18, 19, 20] To create the composite quality score, we gave 1 point for each of the following elements: diagnosis or presenting symptoms, general hospital course (a description of any event occurring during hospitalization but prior to date of data collection), current clinical condition (a description of objective data, symptoms, or stability/trajectory in the last 24 hours), and whether the sign‐out had been updated within the last 24 hours. The composite score could range from 0 to 4.

Main Outcome Measures

Our primary outcome measure was the quality and utility of the written‐only sign‐out as defined via a subjective assessment of sufficiency by the covering physician (ie, whether the written sign‐out was adequate to answer the query without seeking any supplemental information). For this outcome, we excluded inquiries for which hospitalists had determined a sign‐out was not necessary to address the inquiry or event.

Statistical Analysis

Data analysis was conducted using SAS 9.2 (SAS Institute, Cary, NC). We used a cutoff of P<0.05 for statistical significance; all tests were 2‐tailed. We assessed characteristics of overnight inquiries using descriptive statistics and determined the association of the main predictors with sufficient sign‐out using 2 tests. We constructed a multivariate logistic regression model using a priori‐determined clinically relevant predictors to test predictors of sign‐out sufficiency. The study was approved by the Human Investigation Committee of Yale University.

RESULTS

Hospitalists recorded 124 inquiries about 96 patients. Altogether, 15 of 19 (79%) eligible hospitalists returned surveys. Of the 96 patients, we obtained the written sign‐out for 68 (71%). The remainder were new patients for whom the sign‐out had not yet been prepared, or patients who had not yet been assigned to the hospitalist service at the time the sign‐out report was printed.

Hospitalists referenced the sign‐out for 89 (74%) inquiries, and the sign‐out was considered sufficient to respond to 27 (30%) of these inquiries (ie, the sign‐out was adequate to answer the inquiry without any supplemental information). Hospitalists physically saw the patient for 14 (12%) inquiries. Nurses were the originator for most inquiries (102 [82%]). The most common inquiry topics were medications (55 [45%]), plan of care (26 [21%]) and clinical changes (26 [21%]). Ninety‐five (77%) inquiries were considered to be somewhat or very clinically important by the hospitalist (Table 1).

Characteristics of Overnight Inquiries and Written Sign‐out
Inquiry originator, No. (% of 124) 
Nurse102 (82)
Patient13 (10)
Consultant6 (5)
Respiratory therapy3 (2)
Inquiry subject, No. (% of 122) 
Medication55 (45)
Plan of care26 (21)
Clinical change26 (21)
Order reconciliation15 (12)
Missing2
Clinical importance of inquiry, No. (% of 123) 
Very33 (27)
Somewhat62 (50)
Not at all28 (23)
Missing1
Sufficiency of sign‐out alone in answering inquiry, No. (% of 121) 
Yes27 (22)
No62 (51)
Sign‐out not necessary for inquiry32 (26)
Missing3
Days since admission, No. (% of 124) 
Less than 269 (44.4)
2 or more55 (55.6)
Reference(s) used when sign‐out insufficient, No. (% of 62) 
Physician notes37 (60)
Nurse11 (18)
Labs/studies10 (16)
Orders9 (15)
Patient7 (11)
Other7 (11)
Was the event predicted by the primary team? No. (% of 119) 
Yes17 (14)
No102 (86)
Missing5
If no, could this event have been predicted, No. (% of 102) 
Yes47 (46)
No55 (54)
Of all events that could have been predicted, how many were predicted? No. (% of 64) 
Predicted17 (27)
Not predicted47 (73)
Did you physically see the patient? No. (% of 117) 
Yes14 (12)
No103 (88)
Missing7
Composite score, No. (% of 68) 
0 or 10 (0)
23 (4)
331 (46)
434 (50)
Anticipatory guidance/to‐do tasks, No. (% of 96) 
069(72)
121 (22)
2 or more6 (6)

No written sign‐outs had a composite score of 0 or 1; 3 (4%) had a composite score of 2; 31 (46%) had a composite score of 3; and 34 (50%) had a composite score of 4. Seventy‐two percent of written sign‐outs included neither anticipatory guidance nor tasks, 21% had 1 anticipatory guidance item or task, and 6% had 2 or more anticipatory guidance items and/or tasks.

The primary team caring for a patient did not predict 102 (86%) inquiries, and hospitalists rated 47 (46%) of those unpredicted events as possible for the primary team to predict. Five responses to this question were incomplete and excluded. Of the 64 events predicted by the primary team or rated as predictable by the night hospitalists, 17 (27%) were predicted by the primary team (Table 1).

Sign‐out was considered sufficient in isolation to answer the majority of order reconciliation inquiries (5 [71%]), but was less effective at helping to answer inquiries about clinical change (7 [29%]), medications (10 [28%]), and plan of care (5 [24%]) (P=0.001). (Table 2) Ninety‐five events were rated as either very or somewhat clinically important, but this did not affect the likelihood of sign‐out being sufficient in isolation relative to the not at all clinically important group. Specifically, 33% of sign‐outs were rated sufficient in the very important group, 19% in the somewhat important group, and 50% in the not at all group (P=0.059).

Predictors of Sufficient Sign‐Out
Predictor Number of inquiries (%) for which sign‐out was sufficient in isolationbp value
  • Medication inquiries were inquiries regarding medications with a clinical component. Verification of an order or clarification of an order (i.e. dosing, route, timing) was considered an order reconciliation inquiry.

  • The sign‐out was adequate to answer the query without seeking out any supplemental information

Question topic  0.001
 Order reconciliation (oxygen/telemetry)5/7 (71) 
 Clinical change (vitals, symptoms, labs)7/24 (29) 
 Medicationa (with clinical question)10/36 (28) 
 Plan of care (discharge, goals of care, procedure)5/21 (24) 
Clinically important  0.059
 Not at all8 (50) 
 Somewhat8 (19) 
 Very10 (33) 
    
Days since admission  0.015
 Less than 2 days21 (40) 
 2 or more days6 (16) 
Anticipatory guidance and tasks  0.006
 2 or more3 (60) 
 13 (14) 
 021 (34) 
Composite score  0.144
 <45 (15) 
 410 (29) 

Sign‐out was considered sufficient in isolation more frequently for inquiries about patients admitted <2 days prior to data collection than for inquiries about patients admitted more than 2 days prior to data collection (21 [40%] vs 6 [16%], respectively) (P=0.015) (Table 2).

Sign‐outs with 2 or more anticipatory guidance items were considered sufficient in isolation more often than sign‐outs with 1 or fewer anticipatory guidance item (60% for 2 or more, 14% for 1, 34% for 0; P=0.006) (Table 2). The composite score was grouped into 2 categoriesscore <4 and score=4with no statistical difference in sign‐out sufficiency between the 2 groups (P=0.22) (Table 2).

In multivariable analysis, no predictor variable was significantly associated with sufficient sign‐out (Table 3).

Multivariate Analysis of Sufficient Sign‐Out Predictors
  Adjusted OR (95% CI)p value
Question topic  0.58
 Order reconciliation (oxygen/telemetry)Reference 
 Clinical change (vitals, symptoms, labs)0.29 (0.01 6.70) 
 Medication (+/‐ vitals or symptoms)0.17 (0.01 3.83) 
 Plan of care (discharge, goals of care, IV, CPAP, procedure)0.15 (0.01 3.37) 
Clinically important  0.85
 Not at AllReference 
 Somewhat0.69 (0.12 4.04) 
 Very0.57 (0.08 3.88) 
Days since admission 0.332 (0.09 1.19)0.074
Anticipatory guidance and tasks  0.26
 2 or moreReference 
 10.13 (0.01 1.51) 
 00.21 (0.02 2.11) 
Composite Score  0.22
 <4Reference 
 42.2 (0.62 7.77) 

DISCUSSION

In this study of written sign‐out among hospitalists and physician‐extenders on a hospitalist service, we found that the sign‐out was used to answer three‐quarters of overnight inquiries, despite the advanced level of training (completion of all postgraduate medical education) of the covering clinicians and the presence of a robust EHR. The effectiveness of the written sign‐out, however, was not as consistently high as its use. Overall, the sign‐out was sufficient to answer less than a third of inquiries in which it was referenced. Thus, although most studies of sign‐out quality have focused on trainees, our results make it clear that hospitalists also rely on sign‐out, and its effectiveness can be improved.

There are few studies of attending‐level sign‐outs. Hinami et al. found that nearly 1 in 5 hospitalists was uncertain of the care plan after assuming care of a new set of patients, despite having received a handoff from the departing hospitalist.[11] Handoffs between emergency physicians and hospitalists have repeatedly been noted to have content omissions and to contribute to adverse events.[7, 12, 21, 22] Ilan et al. videotaped attending handoffs in the intensive care unit and found that they did not follow any of 3 commonly recommended structures; however, this study did not assess the effectiveness of the handoffs.[23] Williams et al. found that the transfer of patient information among surgical team members, including attending surgeons, was suboptimal, and these problems were commonly related to decreased surgeon familiarity with a particular patient, a theme common to hospital medicine, and a contributor to adverse events and decreased efficiency.[24]

This study extends the literature in several ways. By studying overnight events, we generate a comprehensive view of the information sources hospitalists use to care for patients overnight. Interestingly, our results were similar to the overnight information‐gathering habits of trainees in a study of pediatric trainees.[25] Furthermore, by linking each inquiry to the accompanying written sign‐out, we are able to analyze which characteristics of a written sign‐out are associated with sign‐out effectiveness, and we are able to describe the utility of written sign‐out to answer different types of clinical scenarios.

Our data show that hospitalists rely heavily on written sign‐out to care for patients overnight, with the physician note being the most‐utilized secondary reference used by covering physicians. The written sign‐out was most useful for order clarification compared to other topics, and the patient was only seen for 12% of inquiries. Most notable, however, was the suggestion that sign‐outs with more anticipatory guidance were more likely to be effective for overnight care, as were sign‐outs created earlier in the hospital course. Future efforts to improve the utility of the written sign‐out might focus on these items, whether through training or audit/feedback.

The use of electronic handoff tools has been shown to increase the ease of use, efficiency, and perceptions of patient safety and quality in several studies.[3, 26, 27] This study relied on an electronic tool as the only means of information transfer during sign‐out. Without the confounding effect of verbal information transfer, we are better able to understand the efficacy of the written component alone. Nonetheless, most expert opinion statements as well as The Joint Commission include a recommendation for verbal and written components to handoff communication.[8, 20, 28, 29, 30] It is possible that sign‐outs would more often have been rated sufficient if the handoff process had reliably included verbal handoff. Future studies are warranted to compare written‐only to written‐plus‐verbal sign‐out, to determine the added benefit of verbal communication. With a robust EHR, it is also an open question whether sign‐out needs to be sufficient to answer overnight inquiries or whether it would be acceptable or even preferable to have overnight staff consistently review the EHR directly, especially as the physician notes are the most common nonsign‐out reference used. Nonetheless, the fact that hospitalists rely heavily on written sign‐out despite the availability of other information sources suggests that hospitalists find specific benefit in written sign‐out.

Limitations of this study include the relatively small sample size, the limited collection time period, and the single‐site nature. The YNHH Hospitalist Service uses only written documents to sign out, so the external validity to programs that use verbal sign‐out is limited. The written‐only nature, however, removes the variable of the discussion at time of sign‐out, improving the purity of the written sign‐out assessment. We did not assess workload, which might have affected sign‐out quality. The interpretation of the composite score is limited, due to little variation in scoring in our sample, as well as lack of validation in other studies. An additional limitation is that sign‐outs are not entirely drafted by the hospitalist attendings. Hospitalists draft the initial sign‐out document, but it is updated on subsequent days by the mid‐level provider under the direction of the hospitalist attending. It is therefore possible that sign‐outs maintained directly by hospitalists would have been of different quality. In this regard it is interesting to note that in a different study of verbal sign‐out we were not able to detect a difference in quality among hospitalists, trainees, and midlevels.[12] Last, hindsight bias may be present, as the covering physician's perspective of the event includes more information than available to the provider creating the sign‐out document.

Overall, we found that attending hospitalists rely heavily on written sign‐out documents to address overnight inquiries, but those sign‐outs are not reliably effective. Future work to better understand the roles of written and verbal components in sign‐out is needed to help improve the safety of overnight care.

Disclosures

Disclosures: Dr. Horwitz is supported by the National Institute on Aging (K08 AG038336) and by the American Federation for Aging Research through the Paul B. Beeson Career Development Award Program. Dr. Horwitz is also a Pepper Scholar with support from the Claude D. Pepper Older Americans Independence Center at Yale University School of Medicine (#P30AG021342 NIH/NIA). Dr. Fogerty had full access to all of the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. The authors do not have conflicts of interest to report. Dr. Schoenfeld was a medical student at the Yale University School of Medicine, New Haven, Connecticut at the time of the study. She is now a resident at Massachusetts General Hospital in Boston, Massachusetts.

Hospital medicine is a main component of healthcare in the United States and is growing.[1] In 1995, 9% of inpatient care performed by general internists to Medicare patients was provided by hospitalists; by 2006, this had increased to 37%.[2] The estimated 30,000 practicing hospitalists account for 19% of all practicing general internists[2, 3, 4] and have had a major impact on the treatment of inpatients at US hospitals.[5] Other specialties are adopting the hospital‐based physician model.[6, 7] The hospitalist model does have unique challenges. One notable aspect of hospitalist care, which is frequently shift based, is the transfer of care among providers at shift change.

The Society of Hospital Medicine recognizes patient handoffs/sign‐outs as a core competency for hospitalists,[8] but there is little literature evaluating hospitalist sign‐out quality.[9] A systematic review in 2009 found no studies of hospitalist handoffs.[8] Furthermore, early work suggests that hospitalist handoffs are not consistently effective.[10] In a recent survey, 13% of hospitalists reported they had received an incomplete handoff, and 16% of hospitalists reported at least 1 near‐miss attributed to incomplete communication.[11] Last, hospitalists perform no better than housestaff on evaluations of sign‐out quality.[12]

Cross‐coverage situations, in which sign‐out is key, have been shown to place patients at risk.[13, 14] One study showed 7.1 problems related to sign‐out per 100 patient‐days.[15] Failure during sign‐out can ultimately threaten patient safety.[16] Therefore, evaluating the quality of hospitalist sign‐outs by assessing how well the sign‐out prepares the night team for overnight events is necessary to improve hospitalist sign‐outs and ultimately increase patient safety.

METHODS

Study Setting

The study took place at YaleNew Haven Hospital (YNHH), the primary teaching affiliate for the Yale School of Medicine, in New Haven, Connecticut. YNHH is a 966‐bed, urban, academic medical center. The Hospitalist Service is a nonteaching service composed of 56.1 full‐time‐equivalent (FTE) attending physicians and 26.8 FTE midlevel providers. In fiscal year 2012, the YNHH Hospitalist Service cared for 13,764 discharges, or approximately 70% of general medical discharges. Similar patients are cared for by both hospitalists and housestaff. Patients on the hospitalist service are assigned an attending physician as well as a midlevel provider during the daytime. Between the departure of the day team and the arrival of the night team, typically a 2‐hour window, a skeleton crew covers the entire service and admits patients. The same skeleton crew coverage plan exists in the approximately 2.5‐hour morning gap between the departure of the night team and arrival of the day team. Overnight, care is generally provided by attending hospitalist physicians alone. Clinical fellows and internal medicine residents occasionally fill the night hospitalist role.

Sign‐out Procedure

The YNHH Hospitalist Service uses a written sign‐out[17] created via template built into the electronic health record (EHR), Sunrise Clinical Manager (version 5.5; Allscripts, Chicago, IL) and is the major mechanism for shift‐to‐shift information transfer. A free text summary of the patient's medical course and condition is created by the provider preparing the sign‐out, as is a separate list of to do items. The free text box is titled History (general hospital course, new events of the day, overall clinical condition). A representative narrative example is, 87 y/o gentleman PMHx AF on coumadin, diastolic CHF (EF 40%), NIDDM2, first degree AV block, GIB in setting of supratherapeutic INR, depression, COPD p/w worsening low back pain in setting of L1 compression frx of? age. HD stable. An option exists to include a medication list pulled from the active orders in the EHR when the sign‐out report is printed. The sign‐out is typically created by the hospitalist attending on the day of admission and then updated daily by the mid‐level provider under the supervision of the attending physician, in accordance with internal standards set by the service. Formal sign‐out training is included as part of orientation for new hires, and ongoing sign‐out education is provided, as needed, by a physician assistant charged with continuous quality improvement for the entire service. The service maintains an expectation for the entire team to provide accurate and updated sign‐out at every shift change. Attending hospitalists or mid‐level providers update the sign‐out on weekends. Because the day team has generally left the hospital prior to the arrival of the night team, verbal sign‐out occurs rarely. Should a verbal sign‐out be given to the night team, it will be provided by the daytime team directly to the night team either via telephone or the day team member staying in the hospital until arrival of the night team.

Participants

All full‐time and regularly scheduled part‐time attending physicians on the YNHH hospitalist night team were eligible to participate. We excluded temporary physicians on service, including clinical fellows and resident moonlighters. Hospitalists could not participate more than once. Written informed consent was obtained of all hospitalists at the start of their shift.

Data Collection

Hospitalists who consented were provided a single pocket card during their shift. For every inquiry that involved a patient that the hospitalist was covering, the hospitalist recorded who originated the inquiry, the clinical significance, the sufficiency of written sign‐out, which information was used other than the written sign‐out, and information regarding the anticipation of the event by the daytime team (Figure 1).

Figure 1
Data collection instrument. Abbreviations: MD, medical doctor; LPN, licensed practical nurse; RN, registered nurse; MRN, medical record number.

Data were collected on 6 days and distributed from April 30, 2012 through June 12, 2012. Dates were chosen based on staffing to maximize the number of eligible physicians each night and included both weekdays and weekend days. The written sign‐out for the entire service was printed for each night data collection took place.

Main Predictors

Our main predictor variables were characteristics of the inquiry (topic area, clinical importance of the inquiry as assessed by the hospitalist), characteristics of the patient (days since admission), and characteristics of the written sign‐out (whether it included any anticipatory guidance and a composite quality score). We identified elements of the composite quality score based on prior research and expert recommendations.[8, 18, 19, 20] To create the composite quality score, we gave 1 point for each of the following elements: diagnosis or presenting symptoms, general hospital course (a description of any event occurring during hospitalization but prior to date of data collection), current clinical condition (a description of objective data, symptoms, or stability/trajectory in the last 24 hours), and whether the sign‐out had been updated within the last 24 hours. The composite score could range from 0 to 4.

Main Outcome Measures

Our primary outcome measure was the quality and utility of the written‐only sign‐out as defined via a subjective assessment of sufficiency by the covering physician (ie, whether the written sign‐out was adequate to answer the query without seeking any supplemental information). For this outcome, we excluded inquiries for which hospitalists had determined a sign‐out was not necessary to address the inquiry or event.

Statistical Analysis

Data analysis was conducted using SAS 9.2 (SAS Institute, Cary, NC). We used a cutoff of P<0.05 for statistical significance; all tests were 2‐tailed. We assessed characteristics of overnight inquiries using descriptive statistics and determined the association of the main predictors with sufficient sign‐out using 2 tests. We constructed a multivariate logistic regression model using a priori‐determined clinically relevant predictors to test predictors of sign‐out sufficiency. The study was approved by the Human Investigation Committee of Yale University.

RESULTS

Hospitalists recorded 124 inquiries about 96 patients. Altogether, 15 of 19 (79%) eligible hospitalists returned surveys. Of the 96 patients, we obtained the written sign‐out for 68 (71%). The remainder were new patients for whom the sign‐out had not yet been prepared, or patients who had not yet been assigned to the hospitalist service at the time the sign‐out report was printed.

Hospitalists referenced the sign‐out for 89 (74%) inquiries, and the sign‐out was considered sufficient to respond to 27 (30%) of these inquiries (ie, the sign‐out was adequate to answer the inquiry without any supplemental information). Hospitalists physically saw the patient for 14 (12%) inquiries. Nurses were the originator for most inquiries (102 [82%]). The most common inquiry topics were medications (55 [45%]), plan of care (26 [21%]) and clinical changes (26 [21%]). Ninety‐five (77%) inquiries were considered to be somewhat or very clinically important by the hospitalist (Table 1).

Characteristics of Overnight Inquiries and Written Sign‐out
Inquiry originator, No. (% of 124) 
Nurse102 (82)
Patient13 (10)
Consultant6 (5)
Respiratory therapy3 (2)
Inquiry subject, No. (% of 122) 
Medication55 (45)
Plan of care26 (21)
Clinical change26 (21)
Order reconciliation15 (12)
Missing2
Clinical importance of inquiry, No. (% of 123) 
Very33 (27)
Somewhat62 (50)
Not at all28 (23)
Missing1
Sufficiency of sign‐out alone in answering inquiry, No. (% of 121) 
Yes27 (22)
No62 (51)
Sign‐out not necessary for inquiry32 (26)
Missing3
Days since admission, No. (% of 124) 
Less than 269 (44.4)
2 or more55 (55.6)
Reference(s) used when sign‐out insufficient, No. (% of 62) 
Physician notes37 (60)
Nurse11 (18)
Labs/studies10 (16)
Orders9 (15)
Patient7 (11)
Other7 (11)
Was the event predicted by the primary team? No. (% of 119) 
Yes17 (14)
No102 (86)
Missing5
If no, could this event have been predicted, No. (% of 102) 
Yes47 (46)
No55 (54)
Of all events that could have been predicted, how many were predicted? No. (% of 64) 
Predicted17 (27)
Not predicted47 (73)
Did you physically see the patient? No. (% of 117) 
Yes14 (12)
No103 (88)
Missing7
Composite score, No. (% of 68) 
0 or 10 (0)
23 (4)
331 (46)
434 (50)
Anticipatory guidance/to‐do tasks, No. (% of 96) 
069(72)
121 (22)
2 or more6 (6)

No written sign‐outs had a composite score of 0 or 1; 3 (4%) had a composite score of 2; 31 (46%) had a composite score of 3; and 34 (50%) had a composite score of 4. Seventy‐two percent of written sign‐outs included neither anticipatory guidance nor tasks, 21% had 1 anticipatory guidance item or task, and 6% had 2 or more anticipatory guidance items and/or tasks.

The primary team caring for a patient did not predict 102 (86%) inquiries, and hospitalists rated 47 (46%) of those unpredicted events as possible for the primary team to predict. Five responses to this question were incomplete and excluded. Of the 64 events predicted by the primary team or rated as predictable by the night hospitalists, 17 (27%) were predicted by the primary team (Table 1).

Sign‐out was considered sufficient in isolation to answer the majority of order reconciliation inquiries (5 [71%]), but was less effective at helping to answer inquiries about clinical change (7 [29%]), medications (10 [28%]), and plan of care (5 [24%]) (P=0.001). (Table 2) Ninety‐five events were rated as either very or somewhat clinically important, but this did not affect the likelihood of sign‐out being sufficient in isolation relative to the not at all clinically important group. Specifically, 33% of sign‐outs were rated sufficient in the very important group, 19% in the somewhat important group, and 50% in the not at all group (P=0.059).

Predictors of Sufficient Sign‐Out
Predictor Number of inquiries (%) for which sign‐out was sufficient in isolationbp value
  • Medication inquiries were inquiries regarding medications with a clinical component. Verification of an order or clarification of an order (i.e. dosing, route, timing) was considered an order reconciliation inquiry.

  • The sign‐out was adequate to answer the query without seeking out any supplemental information

Question topic  0.001
 Order reconciliation (oxygen/telemetry)5/7 (71) 
 Clinical change (vitals, symptoms, labs)7/24 (29) 
 Medicationa (with clinical question)10/36 (28) 
 Plan of care (discharge, goals of care, procedure)5/21 (24) 
Clinically important  0.059
 Not at all8 (50) 
 Somewhat8 (19) 
 Very10 (33) 
    
Days since admission  0.015
 Less than 2 days21 (40) 
 2 or more days6 (16) 
Anticipatory guidance and tasks  0.006
 2 or more3 (60) 
 13 (14) 
 021 (34) 
Composite score  0.144
 <45 (15) 
 410 (29) 

Sign‐out was considered sufficient in isolation more frequently for inquiries about patients admitted <2 days prior to data collection than for inquiries about patients admitted more than 2 days prior to data collection (21 [40%] vs 6 [16%], respectively) (P=0.015) (Table 2).

Sign‐outs with 2 or more anticipatory guidance items were considered sufficient in isolation more often than sign‐outs with 1 or fewer anticipatory guidance item (60% for 2 or more, 14% for 1, 34% for 0; P=0.006) (Table 2). The composite score was grouped into 2 categoriesscore <4 and score=4with no statistical difference in sign‐out sufficiency between the 2 groups (P=0.22) (Table 2).

In multivariable analysis, no predictor variable was significantly associated with sufficient sign‐out (Table 3).

Multivariate Analysis of Sufficient Sign‐Out Predictors
  Adjusted OR (95% CI)p value
Question topic  0.58
 Order reconciliation (oxygen/telemetry)Reference 
 Clinical change (vitals, symptoms, labs)0.29 (0.01 6.70) 
 Medication (+/‐ vitals or symptoms)0.17 (0.01 3.83) 
 Plan of care (discharge, goals of care, IV, CPAP, procedure)0.15 (0.01 3.37) 
Clinically important  0.85
 Not at AllReference 
 Somewhat0.69 (0.12 4.04) 
 Very0.57 (0.08 3.88) 
Days since admission 0.332 (0.09 1.19)0.074
Anticipatory guidance and tasks  0.26
 2 or moreReference 
 10.13 (0.01 1.51) 
 00.21 (0.02 2.11) 
Composite Score  0.22
 <4Reference 
 42.2 (0.62 7.77) 

DISCUSSION

In this study of written sign‐out among hospitalists and physician‐extenders on a hospitalist service, we found that the sign‐out was used to answer three‐quarters of overnight inquiries, despite the advanced level of training (completion of all postgraduate medical education) of the covering clinicians and the presence of a robust EHR. The effectiveness of the written sign‐out, however, was not as consistently high as its use. Overall, the sign‐out was sufficient to answer less than a third of inquiries in which it was referenced. Thus, although most studies of sign‐out quality have focused on trainees, our results make it clear that hospitalists also rely on sign‐out, and its effectiveness can be improved.

There are few studies of attending‐level sign‐outs. Hinami et al. found that nearly 1 in 5 hospitalists was uncertain of the care plan after assuming care of a new set of patients, despite having received a handoff from the departing hospitalist.[11] Handoffs between emergency physicians and hospitalists have repeatedly been noted to have content omissions and to contribute to adverse events.[7, 12, 21, 22] Ilan et al. videotaped attending handoffs in the intensive care unit and found that they did not follow any of 3 commonly recommended structures; however, this study did not assess the effectiveness of the handoffs.[23] Williams et al. found that the transfer of patient information among surgical team members, including attending surgeons, was suboptimal, and these problems were commonly related to decreased surgeon familiarity with a particular patient, a theme common to hospital medicine, and a contributor to adverse events and decreased efficiency.[24]

This study extends the literature in several ways. By studying overnight events, we generate a comprehensive view of the information sources hospitalists use to care for patients overnight. Interestingly, our results were similar to the overnight information‐gathering habits of trainees in a study of pediatric trainees.[25] Furthermore, by linking each inquiry to the accompanying written sign‐out, we are able to analyze which characteristics of a written sign‐out are associated with sign‐out effectiveness, and we are able to describe the utility of written sign‐out to answer different types of clinical scenarios.

Our data show that hospitalists rely heavily on written sign‐out to care for patients overnight, with the physician note being the most‐utilized secondary reference used by covering physicians. The written sign‐out was most useful for order clarification compared to other topics, and the patient was only seen for 12% of inquiries. Most notable, however, was the suggestion that sign‐outs with more anticipatory guidance were more likely to be effective for overnight care, as were sign‐outs created earlier in the hospital course. Future efforts to improve the utility of the written sign‐out might focus on these items, whether through training or audit/feedback.

The use of electronic handoff tools has been shown to increase the ease of use, efficiency, and perceptions of patient safety and quality in several studies.[3, 26, 27] This study relied on an electronic tool as the only means of information transfer during sign‐out. Without the confounding effect of verbal information transfer, we are better able to understand the efficacy of the written component alone. Nonetheless, most expert opinion statements as well as The Joint Commission include a recommendation for verbal and written components to handoff communication.[8, 20, 28, 29, 30] It is possible that sign‐outs would more often have been rated sufficient if the handoff process had reliably included verbal handoff. Future studies are warranted to compare written‐only to written‐plus‐verbal sign‐out, to determine the added benefit of verbal communication. With a robust EHR, it is also an open question whether sign‐out needs to be sufficient to answer overnight inquiries or whether it would be acceptable or even preferable to have overnight staff consistently review the EHR directly, especially as the physician notes are the most common nonsign‐out reference used. Nonetheless, the fact that hospitalists rely heavily on written sign‐out despite the availability of other information sources suggests that hospitalists find specific benefit in written sign‐out.

Limitations of this study include the relatively small sample size, the limited collection time period, and the single‐site nature. The YNHH Hospitalist Service uses only written documents to sign out, so the external validity to programs that use verbal sign‐out is limited. The written‐only nature, however, removes the variable of the discussion at time of sign‐out, improving the purity of the written sign‐out assessment. We did not assess workload, which might have affected sign‐out quality. The interpretation of the composite score is limited, due to little variation in scoring in our sample, as well as lack of validation in other studies. An additional limitation is that sign‐outs are not entirely drafted by the hospitalist attendings. Hospitalists draft the initial sign‐out document, but it is updated on subsequent days by the mid‐level provider under the direction of the hospitalist attending. It is therefore possible that sign‐outs maintained directly by hospitalists would have been of different quality. In this regard it is interesting to note that in a different study of verbal sign‐out we were not able to detect a difference in quality among hospitalists, trainees, and midlevels.[12] Last, hindsight bias may be present, as the covering physician's perspective of the event includes more information than available to the provider creating the sign‐out document.

Overall, we found that attending hospitalists rely heavily on written sign‐out documents to address overnight inquiries, but those sign‐outs are not reliably effective. Future work to better understand the roles of written and verbal components in sign‐out is needed to help improve the safety of overnight care.

Disclosures

Disclosures: Dr. Horwitz is supported by the National Institute on Aging (K08 AG038336) and by the American Federation for Aging Research through the Paul B. Beeson Career Development Award Program. Dr. Horwitz is also a Pepper Scholar with support from the Claude D. Pepper Older Americans Independence Center at Yale University School of Medicine (#P30AG021342 NIH/NIA). Dr. Fogerty had full access to all of the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. The authors do not have conflicts of interest to report. Dr. Schoenfeld was a medical student at the Yale University School of Medicine, New Haven, Connecticut at the time of the study. She is now a resident at Massachusetts General Hospital in Boston, Massachusetts.

References
  1. Kralovec PD, Miller JA, Wellikson L, Huddleston JM. The status of hospital medicine groups in the United States. J Hosp Med. 2006;1(2):7580.
  2. Kuo YF, Sharma G, Freeman JL, Goodwin JS. Growth in the care of older patients by hospitalists in the United States. N Engl J Med. 2009;360(11):11021112.
  3. Anderson J, Shroff D, Curtis A, et al. The Veterans Affairs shift change physician‐to‐physician handoff project. Jt Comm J Qual Patient Saf. 2010;36(2):6271.
  4. O'Leary KJ, Williams MV. The evolution and future of hospital medicine. Mt Sinai J Med. 2008;75(5):418423.
  5. McMahon LF. The hospitalist movement—time to move on. N Engl J Med. 2007;357(25):26272629.
  6. Freeman WD, Gronseth G, Eidelman BH. Invited article: is it time for neurohospitalists? Neurology. 2008;70(15):12821288.
  7. Funk C, Anderson BL, Schulkin J, Weinstein L. Survey of obstetric and gynecologic hospitalists and laborists. Am J Obstet Gynecol. 2010;203(2):177.e171–e174.
  8. Arora VM, Manjarrez E, Dressler DD, Basaviah P, Halasyamani L, Kripalani S. Hospitalist handoffs: a systematic review and task force recommendations. J Hosp Med. 2009;4(7):433440.
  9. Dressler DD, Pistoria MJ, Budnitz TL, McKean SC, Amin AN. Core competencies in hospital medicine: development and methodology. J Hosp Med. 2006;1(1):4856.
  10. Burton MC, Kashiwagi DT, Kirkland LL, Manning D, Varkey P. Gaining efficiency and satisfaction in the handoff process. J Hosp Med. 2010;5(9):547552.
  11. Hinami K, Farnan JM, Meltzer DO, Arora VM. Understanding communication during hospitalist service changes: a mixed methods study. J Hosp Med. 2009;4(9):535540.
  12. Horwitz LI, Rand D, Staisiunas P, et al. Development of a handoff evaluation tool for shift‐to‐shift physician handoffs: the handoff CEX. J Hosp Med. 2013;8(4):191200.
  13. Petersen LA, Brennan TA, O'Neil AC, Cook EF, Lee TH. Does housestaff discontinuity of care increase the risk for preventable adverse events? Ann Intern Med. 1994;121(11):866872.
  14. Schuberth JL, Elasy TA, Butler J, et al. Effect of short call admission on length of stay and quality of care for acute decompensated heart failure. Circulation. 2008;117(20):26372644.
  15. Horwitz LI, Moin T, Krumholz HM, Wang L, Bradley EH. Consequences of inadequate sign‐out for patient care. Arch Intern Med. 2008;168(16):17551760.
  16. Arora V, Johnson J, Lovinger D, Humphrey HJ, Meltzer DO. Communication failures in patient sign‐out and suggestions for improvement: a critical incident analysis. Qual Saf Health Care. 2005;14(6):401407.
  17. Horwitz LI, Schuster KM, Thung SF, et al. An institution‐wide handoff task force to standardise and improve physician handoffs. BMJ Qual Saf. 2012;21(10):863871.
  18. Horwitz LI, Moin T, Krumholz HM, Wang L, Bradley EH. What are covering doctors told about their patients? Analysis of sign‐out among internal medicine house staff. Qual Saf Health Care. 2009;18(4):248255.
  19. Horwitz LI, Krumholz HM, Green ML, Huot SJ. Transfers of patient care between house staff on internal medicine wards: a national survey. Arch Intern Med. 2006;166(11):11731177.
  20. Arora VM, Johnson JK, Meltzer DO, Humphrey HJ. A theoretical framework and competency‐based approach to improving handoffs. Qual Saf Health Care. 2008;17(1):1114.
  21. Apker J, Mallak LA, Gibson SC. Communicating in the “gray zone”: perceptions about emergency physician hospitalist handoffs and patient safety. Acad Emerg Med. 2007;14(10):884894.
  22. Horwitz LI, Meredith T, Schuur JD, Shah NR, Kulkarni RG, Jenq GY. Dropping the baton: a qualitative analysis of failures during the transition from emergency department to inpatient care. Ann Emerg Med. 2009;53(6):701710.e704.
  23. Ilan R, LeBaron CD, Christianson MK, Heyland DK, Day A, Cohen MD. Handover patterns: an observational study of critical care physicians. BMC Health Serv Res. 2012;12:11.
  24. Williams RG, Silverman R, Schwind C, et al. Surgeon information transfer and communication: factors affecting quality and efficiency of inpatient care. Ann Surg. 2007;245(2):159169.
  25. McSweeney M, Landrigan C, Jiang H, Starmer A, Lightdale J. Answering questions on call: Pediatric resident physicians' use of handoffs and other resources. J Hosp Med. 2013;8:328333.
  26. Eaton EG, Horvath KD, Lober WB, Rossini AJ, Pellegrini CA. A randomized, controlled trial evaluating the impact of a computerized rounding and sign‐out system on continuity of care and resident work hours. J Am Coll Surg. 2005;200(4):538545.
  27. Bump GM, Jovin F, Destefano L, et al. Resident sign‐out and patient hand‐offs: opportunities for improvement. Teach Learn Med. 2011;23(2):105111.
  28. Arora V, Johnson J. A model for building a standardized hand‐off protocol. Jt Comm J Qual Patient Saf. 2006;32(11):646655.
  29. Wohlauer MV, Arora VM, Horwitz LI, et al. The patient handoff: a comprehensive curricular blueprint for resident education to improve continuity of care. Acad Med. 2012;87(4):411418.
  30. The Joint Commission. 2013 Comprehensive Accreditation Manuals. Oak Brook, IL: The Joint Commission; 2012.
References
  1. Kralovec PD, Miller JA, Wellikson L, Huddleston JM. The status of hospital medicine groups in the United States. J Hosp Med. 2006;1(2):7580.
  2. Kuo YF, Sharma G, Freeman JL, Goodwin JS. Growth in the care of older patients by hospitalists in the United States. N Engl J Med. 2009;360(11):11021112.
  3. Anderson J, Shroff D, Curtis A, et al. The Veterans Affairs shift change physician‐to‐physician handoff project. Jt Comm J Qual Patient Saf. 2010;36(2):6271.
  4. O'Leary KJ, Williams MV. The evolution and future of hospital medicine. Mt Sinai J Med. 2008;75(5):418423.
  5. McMahon LF. The hospitalist movement—time to move on. N Engl J Med. 2007;357(25):26272629.
  6. Freeman WD, Gronseth G, Eidelman BH. Invited article: is it time for neurohospitalists? Neurology. 2008;70(15):12821288.
  7. Funk C, Anderson BL, Schulkin J, Weinstein L. Survey of obstetric and gynecologic hospitalists and laborists. Am J Obstet Gynecol. 2010;203(2):177.e171–e174.
  8. Arora VM, Manjarrez E, Dressler DD, Basaviah P, Halasyamani L, Kripalani S. Hospitalist handoffs: a systematic review and task force recommendations. J Hosp Med. 2009;4(7):433440.
  9. Dressler DD, Pistoria MJ, Budnitz TL, McKean SC, Amin AN. Core competencies in hospital medicine: development and methodology. J Hosp Med. 2006;1(1):4856.
  10. Burton MC, Kashiwagi DT, Kirkland LL, Manning D, Varkey P. Gaining efficiency and satisfaction in the handoff process. J Hosp Med. 2010;5(9):547552.
  11. Hinami K, Farnan JM, Meltzer DO, Arora VM. Understanding communication during hospitalist service changes: a mixed methods study. J Hosp Med. 2009;4(9):535540.
  12. Horwitz LI, Rand D, Staisiunas P, et al. Development of a handoff evaluation tool for shift‐to‐shift physician handoffs: the handoff CEX. J Hosp Med. 2013;8(4):191200.
  13. Petersen LA, Brennan TA, O'Neil AC, Cook EF, Lee TH. Does housestaff discontinuity of care increase the risk for preventable adverse events? Ann Intern Med. 1994;121(11):866872.
  14. Schuberth JL, Elasy TA, Butler J, et al. Effect of short call admission on length of stay and quality of care for acute decompensated heart failure. Circulation. 2008;117(20):26372644.
  15. Horwitz LI, Moin T, Krumholz HM, Wang L, Bradley EH. Consequences of inadequate sign‐out for patient care. Arch Intern Med. 2008;168(16):17551760.
  16. Arora V, Johnson J, Lovinger D, Humphrey HJ, Meltzer DO. Communication failures in patient sign‐out and suggestions for improvement: a critical incident analysis. Qual Saf Health Care. 2005;14(6):401407.
  17. Horwitz LI, Schuster KM, Thung SF, et al. An institution‐wide handoff task force to standardise and improve physician handoffs. BMJ Qual Saf. 2012;21(10):863871.
  18. Horwitz LI, Moin T, Krumholz HM, Wang L, Bradley EH. What are covering doctors told about their patients? Analysis of sign‐out among internal medicine house staff. Qual Saf Health Care. 2009;18(4):248255.
  19. Horwitz LI, Krumholz HM, Green ML, Huot SJ. Transfers of patient care between house staff on internal medicine wards: a national survey. Arch Intern Med. 2006;166(11):11731177.
  20. Arora VM, Johnson JK, Meltzer DO, Humphrey HJ. A theoretical framework and competency‐based approach to improving handoffs. Qual Saf Health Care. 2008;17(1):1114.
  21. Apker J, Mallak LA, Gibson SC. Communicating in the “gray zone”: perceptions about emergency physician hospitalist handoffs and patient safety. Acad Emerg Med. 2007;14(10):884894.
  22. Horwitz LI, Meredith T, Schuur JD, Shah NR, Kulkarni RG, Jenq GY. Dropping the baton: a qualitative analysis of failures during the transition from emergency department to inpatient care. Ann Emerg Med. 2009;53(6):701710.e704.
  23. Ilan R, LeBaron CD, Christianson MK, Heyland DK, Day A, Cohen MD. Handover patterns: an observational study of critical care physicians. BMC Health Serv Res. 2012;12:11.
  24. Williams RG, Silverman R, Schwind C, et al. Surgeon information transfer and communication: factors affecting quality and efficiency of inpatient care. Ann Surg. 2007;245(2):159169.
  25. McSweeney M, Landrigan C, Jiang H, Starmer A, Lightdale J. Answering questions on call: Pediatric resident physicians' use of handoffs and other resources. J Hosp Med. 2013;8:328333.
  26. Eaton EG, Horvath KD, Lober WB, Rossini AJ, Pellegrini CA. A randomized, controlled trial evaluating the impact of a computerized rounding and sign‐out system on continuity of care and resident work hours. J Am Coll Surg. 2005;200(4):538545.
  27. Bump GM, Jovin F, Destefano L, et al. Resident sign‐out and patient hand‐offs: opportunities for improvement. Teach Learn Med. 2011;23(2):105111.
  28. Arora V, Johnson J. A model for building a standardized hand‐off protocol. Jt Comm J Qual Patient Saf. 2006;32(11):646655.
  29. Wohlauer MV, Arora VM, Horwitz LI, et al. The patient handoff: a comprehensive curricular blueprint for resident education to improve continuity of care. Acad Med. 2012;87(4):411418.
  30. The Joint Commission. 2013 Comprehensive Accreditation Manuals. Oak Brook, IL: The Joint Commission; 2012.
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Address for correspondence and reprint requests: Robert L. Fogerty, MD, Yale University School of Medicine, P.O. Box 208093, New Haven, CT 06520–8093; Telephone: 203‐688‐4748; Fax: 203–737‐3306; E‐mail: [email protected]
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Discharge Summary Quality

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Comprehensive quality of discharge summaries at an academic medical center

Hospitalized patients are often cared for by physicians who do not follow them in the community, creating a discontinuity of care that must be bridged through communication. This communication between inpatient and outpatient physicians occurs, in part via a discharge summary, which is intended to summarize events during hospitalization and prepare the outpatient physician to resume care of the patient. Yet, this form of communication has long been problematic.[1, 2, 3] In a 1960 study, only 30% of discharge letters were received by the primary care physician within 48 hours of discharge.[1]

More recent studies have shown little improvement. Direct communication between hospital and outpatient physicians is rare, and discharge summaries are still largely unavailable at the time of follow‐up.[4] In 1 study, primary care physicians were unaware of 62% of laboratory tests or study results that were pending on discharge,[5] in part because this information is missing from most discharge summaries.[6] Deficits such as these persist despite the fact that the rate of postdischarge completion of recommended tests, referrals, or procedures is significantly increased when the recommendation is included in the discharge summary.[7]

Regulatory mandates for discharge summaries from the Centers for Medicare and Medicaid Services[8] and from The Joint Commission[9] appear to be generally met[10, 11]; however, these mandates have no requirements for timeliness stricter than 30 days, do not require that summaries be transmitted to outpatient physicians, and do not require several content elements that might be useful to outside physicians such as condition of the patient at discharge, cognitive and functional status, goals of care, or pending studies. Expert opinion guidelines have more comprehensive recommendations,[12, 13] but it is uncertain how widely they are followed.

The existence of a discharge summary does not necessarily mean it serves a patient well in the transitional period.[11, 14, 15] Discharge summaries are a complex intervention, and we do not yet understand the best ways discharge summaries may fulfill needs specific to transitional care. Furthermore, it is uncertain what factors improve aspects of discharge summary quality as defined by timeliness, transmission, and content.[6, 16]

The goal of the DIagnosing Systemic failures, Complexities and HARm in GEriatric discharges study (DISCHARGE) was to comprehensively assess the discharge process for older patients discharged to the community. In this article we examine discharge summaries of patients enrolled in the study to determine the timeliness, transmission to outside physicians, and content of the summaries. We further examine the effect of provider training level and timeliness of dictation on discharge summary quality.

METHODS

Study Cohort

The DISCHARGE study was a prospective, observational cohort study of patients 65 years or older discharged to home from YaleNew Haven Hospital (YNHH) who were admitted with acute coronary syndrome (ACS), community‐acquired pneumonia, or heart failure (HF). Patients were screened by physicians for eligibility within 24 hours of admission using specialty society guidelines[17, 18, 19, 20] and were enrolled by telephone within 1 week of discharge. Additional inclusion criteria included speaking English or Spanish, and ability of the patient or caregiver to participate in a telephone interview. Patients enrolled in hospice were excluded, as were patients who failed the Mini‐Cog mental status screen (3‐item recall and a clock draw)[21] while in the hospital or appeared confused or delirious during the telephone interview. Caregivers of cognitively impaired patients were eligible for enrollment instead if the patient provided permission.

Study Setting

YNHH is a 966‐bed urban tertiary care hospital with statistically lower than the national average mortality for acute myocardial infarction, HF, and pneumonia but statistically higher than the national average for 30‐day readmission rates for HF and pneumonia at the time this study was conducted. Advanced practice registered nurses (APRNs) working under the supervision of private or university cardiologists provided care for cardiology service patients. Housestaff under the supervision of university or hospitalist attending physicians, or physician assistants or APRNs under the supervision of hospitalist attending physicians provided care for patients on medical services. Discharge summaries were typically dictated by APRNs for cardiology patients, by 2nd‐ or 3rd‐year residents for housestaff patients, and by hospitalists for hospitalist patients. A dictation guideline was provided to housestaff and hospitalists (see Supporting Information, Appendix 1, in the online version of this article); this guideline suggested including basic demographic information, disposition and diagnoses, the admission history and physical, hospital course, discharge medications, and follow‐up appointments. Additionally, housestaff received a lecture about discharge summaries at the start of their 2nd year. Discharge instructions including medications and follow‐up appointment information were automatically appended to the discharge summaries. Summaries were sent by the medical records department only to physicians in the system who were listed by the dictating physician as needing to receive a copy of the summary; no summary was automatically sent (ie, to the primary care physician) if not requested by the dictating physician.

Data Collection

Experienced registered nurses trained in chart abstraction conducted explicit reviews of medical charts using a standardized review tool. The tool included 24 questions about the discharge summary applicable to all 3 conditions, with 7 additional questions for patients with HF and 1 additional question for patients with ACS. These questions included the 6 elements required by The Joint Commission for all discharge summaries (reason for hospitalization, significant findings, procedures and treatment provided, patient's discharge condition, patient and family instructions, and attending physician's signature)[9] as well as the 7 elements (principal diagnosis and problem list, medication list, transferring physician name and contact information, cognitive status of the patient, test results, and pending test results) recommended by the Transitions of Care Consensus Conference (TOCCC), a recent consensus statement produced by 6 major medical societies.[13] Each content element is shown in (see Supporting Information, Appendix 2, in the online version of this article), which also indicates the elements included in the 2 guidelines.

Main Measures

We assessed quality in 3 main domains: timeliness, transmission, and content. We defined timeliness as days between discharge date and dictation date (not final signature date, which may occur later), and measured both median timeliness and proportion of discharge summaries completed on the day of discharge. We defined transmission as successful fax or mail of the discharge summary to an outside physician as reported by the medical records department, and measured the proportion of discharge summaries sent to any outside physician as well as the median number of physicians per discharge summary who were scheduled to follow‐up with the patient postdischarge but who did not receive a copy of the summary. We defined 21 individual content items and assessed the frequency of each individual content item. We also measured compliance with The Joint Commission mandates and TOCCC recommendations, which included several of the individual content items.

To measure compliance with The Joint Commission requirements, we created a composite score in which 1 point was provided for the presence of each of the 6 required elements (maximum score=6). Every discharge summary received 1 point for attending physician signature, because all discharge summaries were electronically signed. Discharge instructions to family/patients were automatically appended to every discharge summary; however, we gave credit for patient and family instructions only to those that included any information about signs and symptoms to monitor for at home. We defined discharge condition as any information about functional status, cognitive status, physical exam, or laboratory findings at discharge.

To measure compliance with specialty society recommendations for discharge summaries, we created a composite score in which 1 point was provided for the presence of each of the 7 recommended elements (maximum score=7). Every discharge summary received 1 point for discharge medications, because these are automatically appended.

We obtained data on age, race, gender, and length of stay from hospital administrative databases. The study was approved by the Yale Human Investigation Committee, and verbal informed consent was obtained from all study participants.

Statistical Analysis

Characteristics of the sample are described with counts and percentages or means and standard deviations. Medians and interquartile ranges (IQRs) or counts and percentages were calculated for summary measures of timeliness, transmission, and content. We assessed differences in quality measures between APRNs, housestaff, and hospitalists using 2 tests. We conducted multivariable logistic regression analyses for timeliness and for transmission to any outside physician. All discharge summaries included at least 4 of The Joint Commission elements; consequently, we coded this content outcome as an ordinal variable with 3 levels indicating inclusion of 4, 5, or 6 of The Joint Commission elements. We coded the TOCCC content outcome as a 3‐level variable indicating <4, 4, or >4 elements satisfied. Accordingly, proportional odds models were used, in which the reported odds ratios (ORs) can be interpreted as the average effect of the explanatory variable on the odds of having more recommendations, for any dichotomization of the outcome. Residual analysis and goodness‐of‐fit statistics were used to assess model fit; the proportional odds assumption was tested. Statistical analyses were conducted with SAS 9.2 (SAS Institute, Cary, NC). P values <0.05 were interpreted as statistically significant for 2‐sided tests.

RESULTS

Enrollment and Study Sample

A total of 3743 patients over 64 years old were discharged home from the medical service at YNHH during the study period; 3028 patients were screened for eligibility within 24 hours of admission. We identified 635 eligible admissions and enrolled 395 patients (62.2%) in the study. Of these, 377 granted permission for chart review and were included in this analysis (Figure 1).

Figure 1
Flow diagram of enrolled participants.

The study sample had a mean age of 77.1 years (standard deviation: 7.8); 205 (54.4%) were male and 310 (82.5%) were non‐Hispanic white. A total of 195 (51.7%) had ACS, 91 (24.1%) had pneumonia, and 146 (38.7%) had HF; 54 (14.3%) patients had more than 1 qualifying condition. There were similar numbers of patients on the cardiology, medicine housestaff, and medicine hospitalist teams (Table 1).

Study Sample Characteristics (N=377)
CharacteristicN (%) or Mean (SD)
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; N=number of study participants; GED, general educational development; SD=standard deviation.

Condition 
Acute coronary syndrome195 (51.7)
Community‐acquired pneumonia91 (24.1)
Heart failure146 (38.7)
Training level of summary dictator 
APRN140 (37.1)
House staff123 (32.6)
Hospitalist114 (30.2)
Length of stay, mean, d3.5 (2.5)
Total number of medications8.9 (3.3)
Identify a usual source of care360 (96.0)
Age, mean, y77.1 (7.8)
Male205 (54.4)
English‐speaking366 (98.1)
Race/ethnicity 
Non‐Hispanic white310 (82.5)
Non‐Hispanic black44 (11.7)
Hispanic15 (4.0)
Other7 (1.9)
High school graduate or GED Admission source268 (73.4)
Emergency department248 (66.0)
Direct transfer from hospital or nursing facility94 (25.0)
Direct admission from office34 (9.0)

Timeliness

Discharge summaries were completed for 376/377 patients, of which 174 (46.3%) were dictated on the day of discharge. However, 122 (32.4%) summaries were dictated more than 48 hours after discharge, including 93 (24.7%) that were dictated more than 1 week after discharge (see Supporting Information, Appendix 3, in the online version of this article).

Summaries dictated by hospitalists were most likely to be done on the day of discharge (35.3% APRNs, 38.2% housestaff, 68.4% hospitalists, P<0.001). After adjustment for diagnosis and length of stay, hospitalists were still significantly more likely to produce a timely discharge summary than APRNs (OR: 2.82; 95% confidence interval [CI]: 1.56‐5.09), whereas housestaff were no different than APRNs (OR: 0.84; 95% CI: 0.48‐1.46).

Transmission

A total of 144 (38.3%) discharge summaries were not sent to any physician besides the inpatient attending, and 209/374 (55.9%) were not sent to at least 1 physician listed as having a follow‐up appointment planned with the patient. Each discharge summary was sent to a median of 1 physician besides the dictating physician (IQR: 01). However, for each summary, a median of 1 physician (IQR: 01) who had a scheduled follow‐up with the patient did not receive the summary. Summaries dictated by hospitalists were most likely to be sent to at least 1 outside physician (54.7% APRNs, 58.5% housestaff, 73.7% hospitalists, P=0.006). Summaries dictated on the day of discharge were more likely than delayed summaries to be sent to at least 1 outside physician (75.9% vs 49.5%, P<0.001). After adjustment for diagnosis and length of stay, there was no longer a difference in likelihood of transmitting a discharge summary to any outpatient physician according to training level; however, dictations completed on the day of discharge remained significantly more likely to be transmitted to an outside physician (OR: 3.05; 95% CI: 1.88‐4.93) (Table 2).

Logistic Regression Model of Associations With Discharge Summary Transmission (N=376)
Explanatory VariableProportion Transmitted to at Least 1 Outside PhysicianOR for Transmission to Any Outside Physician (95% CI)Adjusted P Value
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; CI, confidence interval; OR, odds ratio.

  • Patients could be categorized as having more than 1 eligible diagnosis.

Training level  0.52
APRN54.7%REF 
Housestaff58.5%1.17 (0.66‐2.06) 
Hospitalist73.7%1.46 (0.76‐2.79) 
Timeliness   
Dictated after discharge49.5%REF<0.001
Dictated day of discharge75.9%3.05 (1.88‐4.93) 
Acute coronary syndrome vs nota52.1 %1.05 (0.49‐2.26)0.89
Pneumonia vs nota69.2 %1.59 (0.66‐3.79)0.30
Heart failure vs nota74.7 %3.32 (1.61‐6.84)0.001
Length of stay, d 0.91 (0.83‐1.00)0.06

Content

Rate of inclusion of each content element is shown in Table 3, overall and by training level. Nearly every discharge summary included information about admitting diagnosis, hospital course, and procedures or tests performed during the hospitalization. However, few summaries included information about the patient's condition at discharge. Less than half included discharge laboratory results; less than one‐third included functional capacity, cognitive capacity, or discharge physical exam. Only 4.1% overall of discharge summaries for patients with HF included the patient's weight at discharge; best were hospitalists who still included this information in only 7.7% of summaries. Information about postdischarge care, including home social support, pending tests, or recommended follow‐up tests/procedures was also rarely specified. Last, only 6.2% of discharge summaries included the name and contact number of the inpatient physician; this information was least likely to be provided by housestaff (1.6%) and most likely to be provided by hospitalists (15.2%) (P<0.001).

Content of Discharge SummariesOverall and by Training Level
Discharge Summary ComponentOverall, n=377, n (%)APRN, n=140, n (%)Housestaff, n=123, n (%)Hospitalist, n=114, n (%)P Value
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; GFR, glomerular filtration rate.

  • Included in Joint Commission composite.

  • Included in Transitions of Care Consensus Conference composite.

  • Patients with heart failure only (n=146).

  • Patients with stents placed only (n=109).

Diagnosisab368 (97.9)136 (97.8)120 (97.6)112 (98.3)1.00
Discharge second diagnosisb289 (76.9)100 (71.9)89 (72.4)100 (87.7)<0.001
Hospital coursea375 (100.0)138 (100)123 (100)114 (100)N/A
Procedures/tests performed during admissionab374 (99.7)138 (99.3)123 (100)113 (100)N/A
Patient and family instructionsa371 (98.4)136 (97.1)122 (99.2)113 (99.1).43
Social support or living situation of patient148 (39.5)18 (12.9)62 (50.4)68 (60.2)<0.001
Functional capacity at dischargea99 (26.4)37 (26.6)32 (26.0)30 (26.6)0.99
Cognitive capacity at dischargeab30 (8.0)6 (4.4)11 (8.9)13 (11.5)0.10
Physical exam at dischargea62 (16.7)19 (13.8)16 (13.1)27 (24.1)0.04
Laboratory results at time of dischargea164 (43.9)63 (45.3)50 (40.7)51 (45.5)0.68
Back to baseline or other nonspecific remark about discharge statusa71 (19.0)30 (21.6)18 (14.8)23 (20.4)0.34
Any test or result still pending or specific comment that nothing is pendingb46 (12.2)9 (6.4)20 (16.3)17 (14.9)0.03
Recommendation for follow‐up tests/procedures157 (41.9)43 (30.9)54 (43.9)60 (53.1)0.002
Call‐back number of responsible in‐house physicianb23 (6.2)4 (2.9)2 (1.6)17 (15.2)<0.001
Resuscitation status27 (7.7)2 (1.5)18 (15.4)7 (6.7)<0.001
Etiology of heart failurec120 (82.8)44 (81.5)34 (87.2)42 (80.8)0.69
Reason/trigger for exacerbationc86 (58.9)30 (55.6)27 (67.5)29 (55.8)0.43
Ejection fractionc107 (73.3)40 (74.1)32 (80.0)35 (67.3)0.39
Discharge weightc6 (4.1)1 (1.9)1 (2.5)4 (7.7)0.33
Target weight rangec5 (3.4)0 (0)2 (5.0)3 (5.8)0.22
Discharge creatinine or GFRc34 (23.3)14 (25.9)10 (25.0)10 (19.2)0.69
If stent placed, whether drug‐eluting or notd89 (81.7)58 (87.9)27 (81.8)4 (40.0)0.001

On average, summaries included 5.6 of the 6 Joint Commission elements and 4.0 of the 7 TOCCC elements. A total of 63.0% of discharge summaries included all 6 elements required by The Joint Commission, whereas no discharge summary included all 7 TOCCC elements.

APRNs, housestaff and hospitalists included the same average number of The Joint Commission elements (5.6 each), but hospitalists on average included slightly more TOCCC elements (4.3) than did housestaff (4.0) or APRNs (3.8) (P<0.001). Summaries dictated on the day of discharge included an average of 4.2 TOCCC elements, compared to 3.9 TOCCC elements in delayed discharge. In multivariable analyses adjusted for diagnosis and length of stay, there was still no difference by training level in presence of The Joint Commission elements, but hospitalists were significantly more likely to include more TOCCC elements than APRNs (OR: 2.70; 95% CI: 1.49‐4.90) (Table 4). Summaries dictated on the day of discharge were significantly more likely to include more TOCCC elements (OR: 1.92; 95% CI: 1.23‐2.99).

Proportional Odds Model of Associations With Including More Elements Recommended by Specialty Societies (N=376)
Explanatory VariableAverage Number of TOCCC Elements IncludedOR (95% CI)Adjusted P Value
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; CI, confidence interval; OR, odds ratio; TOCCC, Transitions of Care Consensus Conference (defined by Snow et al.[13]).

  • Patients could be categorized as having more than 1 eligible diagnosis.

Training level  0.004
APRN3.8REF 
Housestaff4.01.54 (0.90‐2.62) 
Hospitalist4.32.70 (1.49‐4.90) 
Timeliness   
Dictated after discharge3.9REF 
Dictated day of discharge4.21.92 (1.23‐2.99)0.004
Acute coronary syndrome vs nota3.90.72 (0.37‐1.39)0.33
Pneumonia vs nota4.21.02 (0.49‐2.14)0.95
Heart failure vs nota4.11.49 (0.80‐2.78)0.21
Length of stay, d 0.99 (0.90‐1.07)0.73

No discharge summary included all 7 TOCCC‐endorsed content elements, was dictated on the day of discharge, and was sent to an outside physician.

DISCUSSION

In this prospective single‐site study of medical patients with 3 common conditions, we found that discharge summaries were completed relatively promptly, but were often not sent to the appropriate outpatient physicians. We also found that summaries were uniformly excellent at providing details of the hospitalization, but less reliable at providing details relevant to transitional care such as the patient's condition on discharge or existence of pending tests. On average, summaries included 57% of the elements included in consensus guidelines by 6 major medical societies. The content of discharge summaries dictated by hospitalists was slightly more comprehensive than that of APRNs and trainees, but no group exhibited high performance. In fact, not one discharge summary fully met all 3 quality criteria of timeliness, transmission, and content.

Our study, unlike most in the field, focused on multiple dimensions of discharge summary quality simultaneously. For instance, previous studies have found that timely receipt of a discharge summary does not reduce readmission rates.[11, 14, 15] Yet, if the content of the discharge summary is inadequate for postdischarge care, the summary may not be useful even if it is received by the follow‐up visit. Conversely, high‐quality content is ineffective if the summary is not sent to the outpatient physician.

This study suggests several avenues for improving summary quality. Timely discharge summaries in this study were more likely to include key content and to be transmitted to the appropriate physician. Strategies to improve discharge summary quality should therefore prioritize timely summaries, which can be expected to have downstream benefits for other aspects of quality. Some studies have found that templates improve discharge summary content.[22] In our institution, a template exists, but it favors a hospitalization‐focused rather than transition‐focused approach to the discharge summary. For instance, it includes instructions to dictate the admission exam, but not the discharge exam. Thus, designing templates specifically for transitional care is key. Maximizing capabilities of electronic records may help; many content elements that were commonly missing (e.g., pending results, discharge vitals, discharge weight) could be automatically inserted from electronic records. Likewise, automatic transmission of the summary to care providers listed in the electronic record might ameliorate many transmission failures. Some efforts have been made to convert existing electronic data into discharge summaries.[23, 24, 25] However, these activities are very preliminary, and some studies have found the quality of electronic summaries to be lower than dictated or handwritten summaries.[26] As with all automated or electronic applications, it will be essential to consider workflow, readability, and ability to synthesize information prior to adoption.

Hospitalists consistently produced highest‐quality summaries, even though they did not receive explicit training, suggesting experience may be beneficial,[27, 28, 29] or that the hospitalist community focus on transitional care has been effective. In addition, hospitalists at our institution explicitly prioritize timely and comprehensive discharge dictations, because their business relies on maintaining good relationships with outpatient physicians who contract for their services. Housestaff and APRNs have no such incentives or policies; rather, they typically consider discharge summaries to be a useful source of patient history at the time of an admission or readmission. Other academic centers have found similar results.[6, 16] Nonetheless, even though hospitalists had slightly better performance in our study, large gaps in the quality of summaries remained for all groups including hospitalists.

This study has several limitations. First, as a single‐site study at an academic hospital, it may not be generalizable to other hospitals or other settings. It is noteworthy, however, that the average time to dictation in this study was much lower than that of other studies,[4, 14, 30, 31, 32] suggesting that practices at this institution are at least no worse and possibly better than elsewhere. Second, although there are some mandates and expert opinion‐based guidelines for discharge summary content, there is no validated evidence base to confirm what content ought to be present in discharge summaries to improve patient outcomes. Third, we had too few readmissions in the dataset to have enough power to determine whether discharge summary content, timeliness, or transmission predicts readmission. Fourth, we did not determine whether the information in discharge summaries was accurate or complete; we merely assessed whether it was present. For example, we gave every discharge summary full credit for including discharge medications because they are automatically appended. Yet medication reconciliation errors at discharge are common.[33, 34] In fact, in the DISCHARGE study cohort, more than a quarter of discharge medication lists contained a suspected error.[35]

In summary, this study demonstrated the inadequacy of the contemporary discharge summary for conveying information that is critical to the transition from hospital to home. It may be that hospital culture treats hospitalizations as discrete and self‐contained events rather than as components of a larger episode of care. As interest in reducing readmissions rises, reframing the discharge summary to serve as a transitional tool and targeting it for quality assessment will likely be necessary.

Acknowledgments

The authors would like to acknowledge Amy Browning and the staff of the Center for Outcomes Research and Evaluation Follow‐Up Center for conducting patient interviews, Mark Abroms and Katherine Herman for patient recruitment and screening, and Peter Charpentier for Web site development.

Disclosures

At the time this study was conducted, Dr. Horwitz was supported by the CTSA Grant UL1 RR024139 and KL2 RR024138 from the National Center for Advancing Translational Sciences (NCATS), a component of the National Institutes of Health (NIH), and NIH roadmap for Medical Research, and was a Centers of Excellence Scholar in Geriatric Medicine by the John A. Hartford Foundation and the American Federation for Aging Research. Dr. Horwitz is now supported by the National Institute on Aging (K08 AG038336) and by the American Federation for Aging Research through the Paul B. Beeson Career Development Award Program. This work was also supported by a grant from the Claude D. Pepper Older Americans Independence Center at Yale University School of Medicine (P30AG021342 NIH/NIA). Dr. Krumholz is supported by grant U01 HL105270‐01 (Center for Cardiovascular Outcomes Research at Yale University) from the National Heart, Lung, and Blood Institute. No funding source had any role in the study design; in the collection, analysis, and interpretation of data; in the writing of the report; or in the decision to submit the article for publication. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute on Aging, the National Center for Advancing Translational Sciences, the National Institutes of Health, The John A. Hartford Foundation, the National Heart, Lung, and Blood Institute, or the American Federation for Aging Research. Dr. Horwitz had full access to all of the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. An earlier version of this work was presented as an oral presentation at the Society of General Internal Medicine Annual Meeting in Orlando, Florida on May 12, 2012. Dr. Krumholz chairs a cardiac scientific advisory board for UnitedHealth. Dr. Krumholz receives support from the Centers of Medicare and Medicaid Services (CMS) to develop and maintain performance measures that are used for public reporting, including readmission measures.

APPENDIX

A

Dictation guidelines provided to house staff and hospitalists

DICTATION GUIDELINES

FORMAT OF DISCHARGE SUMMARY

 

  • Your name(spell it out), andPatient name(spell it out as well)
  • Medical record number, date of admission, date of discharge
  • Attending physician
  • Disposition
  • Principal and other diagnoses, Principal and other operations/procedures
  • Copies to be sent to other physicians
  • Begin narrative: CC, HPI, PMHx, Medications on admit, Social, Family Hx, Physical exam on admission, Data (labs on admission, plus labs relevant to workup, significant changes at discharge, admission EKG, radiologic and other data),Hospital course by problem, discharge meds, follow‐up appointments

 

APPENDIX

B

 

Content Items Abstracted
Diagnosis
Discharge Second Diagnosis
Hospital course
Procedures/tests performed during admission
Patient and Family Instructions
Social support or living situation of patient
Functional capacity at discharge
Cognitive capacity at discharge
Physical exam at discharge
Laboratory results at time of discharge
Back to baseline or other nonspecific remark about discharge status
Any test or result still pending
Specific comment that nothing is pending
Recommendation for follow up tests/procedures
Call back number of responsible in‐house physician
Resuscitation status
Etiology of heart failure
Reason/trigger for exacerbation
Ejection fraction
Discharge weight
Target weight range
Discharge creatinine or GFR
If stent placed, whether drug‐eluting or not
Joint Commission Composite Elements
Composite elementData elements abstracted that qualify as meeting measure
Reason for hospitalizationDiagnosis
Significant findingsHospital course
Procedures and treatment providedProcedures/tests performed during admission
Patient's discharge conditionFunctional capacity at discharge, Cognitive capacity at discharge, Physical exam at discharge, Laboratory results at time of discharge, Back to baseline or other nonspecific remark about discharge status
Patient and family instructionsSigns and symptoms to monitor at home
Attending physician's signatureAttending signature
Transitions of Care Consensus Conference Composite Elements
Composite elementData elements abstracted that qualify as meeting measure
Principal diagnosisDiagnosis
Problem listDischarge second diagnosis
Medication list[Automatically appended; full credit to every summary]
Transferring physician name and contact informationCall back number of responsible in‐house physician
Cognitive status of the patientCognitive capacity at discharge
Test resultsProcedures/tests performed during admission
Pending test resultsAny test or result still pending or specific comment that nothing is pending

APPENDIX

C

Histogram of days between discharge and dictation

 

 

 

Files
References
  1. Alarcon R, Glanville H, Hodson JM. Value of the specialist's report. Br Med J. 1960;2(5213):16631664.
  2. Long A, Atkins JB. Communications between general practitioners and consultants. Br Med J. 1974;4(5942):456459.
  3. Swender PT, Schneider AJ, Oski FA. A functional hospital discharge summary. J Pediatr. 1975;86(1):9798.
  4. Kripalani S, LeFevre F, Phillips CO, Williams MV, Basaviah P, Baker DW. Deficits in communication and information transfer between hospital‐based and primary care physicians: implications for patient safety and continuity of care. JAMA. 2007;297(8):831841.
  5. Roy CL, Poon EG, Karson AS, et al. Patient safety concerns arising from test results that return after hospital discharge. Ann Intern Med. 2005;143(2):121128.
  6. Were MC, Li X, Kesterson J, et al. Adequacy of hospital discharge summaries in documenting tests with pending results and outpatient follow‐up providers. J Gen Intern Med. 2009;24(9):10021006.
  7. Moore C, McGinn T, Halm E. Tying up loose ends: discharging patients with unresolved medical issues. Arch Intern Med. 2007;167(12):13051311.
  8. Centers for Medicare and Medicaid Services. Condition of participation: medical record services. 42. Vol 482.C.F.R. § 482.24 (2012).
  9. Joint Commission on Accreditation of Healthcare Organizations. Hospital Accreditation Standards. Standard IM 6.10 EP 7–9. Oakbrook Terrace, IL: The Joint Commission; 2008.
  10. Kind AJH, Smith MA. Documentation of mandated discharge summary components in transitions from acute to subacute care. In: Agency for Healthcare Research and Quality, ed. Advances in Patient Safety: New Directions and Alternative Approaches. Vol 2: Culture and Redesign. AHRQ Publication No. 08-0034‐2. Rockville, MD: Agency for Healthcare Research and Quality; 2008:179–188.
  11. Hansen LO, Strater A, Smith L, et al. Hospital discharge documentation and risk of rehospitalisation. BMJ Qual Saf. 2011;20(9):773778.
  12. Halasyamani L, Kripalani S, Coleman E, et al. Transition of care for hospitalized elderly patients‐development of a discharge checklist for hospitalists. J Hosp Med. 2006;1(6):354360.
  13. Snow V, Beck D, Budnitz T, et al. Transitions of Care Consensus Policy Statement American College of Physicians‐Society of General Internal Medicine‐Society of Hospital Medicine‐American Geriatrics Society‐American College of Emergency Physicians‐Society of Academic Emergency Medicine. J Gen Intern Med. 2009;24(8):971976.
  14. Bell CM, Schnipper JL, Auerbach AD, et al. Association of communication between hospital‐based physicians and primary care providers with patient outcomes. J Gen Intern Med. 2009;24(3):381386.
  15. Walraven C, Seth R, Austin PC, Laupacis A. Effect of discharge summary availability during post‐discharge visits on hospital readmission. J Gen Intern Med. 2002;17(3):186192.
  16. Kind AJ, Thorpe CT, Sattin JA, Walz SE, Smith MA. Provider characteristics, clinical‐work processes and their relationship to discharge summary quality for sub‐acute care patients. J Gen Intern Med. 2012;27(1):7884.
  17. Anderson JL, Adams CD, Antman EM, et al. ACC/AHA 2007 guidelines for the management of patients with unstable angina/non‐ST‐elevation myocardial infarction: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the 2002 Guidelines for the Management of Patients With Unstable Angina/Non‐ST‐Elevation Myocardial Infarction) developed in collaboration with the American College of Emergency Physicians, the Society for Cardiovascular Angiography and Interventions, and the Society of Thoracic Surgeons endorsed by the American Association of Cardiovascular and Pulmonary Rehabilitation and the Society for Academic Emergency Medicine. J Am Coll Cardiol. 2007;50(7):e1e157.
  18. Thygesen K, Alpert JS, White HD. Universal definition of myocardial infarction. Eur Heart J. 2007;28(20):25252538.
  19. Dickstein K, Cohen‐Solal A, Filippatos G, et al. ESC guidelines for the diagnosis and treatment of acute and chronic heart failure 2008: the Task Force for the diagnosis and treatment of acute and chronic heart failure 2008 of the European Society of Cardiology. Developed in collaboration with the Heart Failure Association of the ESC (HFA) and endorsed by the European Society of Intensive Care Medicine (ESICM). Eur J Heart Fail. 2008;10(10):933989.
  20. Mandell LA, Wunderink RG, Anzueto A, et al. Infectious Diseases Society of America/American Thoracic Society consensus guidelines on the management of community‐acquired pneumonia in adults. Clin Infect Dis. 2007;44(suppl 2):S27S72.
  21. Sunderland T, Hill JL, Mellow AM, et al. Clock drawing in Alzheimer's disease. A novel measure of dementia severity. J Am Geriatr Soc. 1989;37(8):725729.
  22. Rao P, Andrei A, Fried A, Gonzalez D, Shine D. Assessing quality and efficiency of discharge summaries. Am J Med Qual. 2005;20(6):337343.
  23. Maslove DM, Leiter RE, Griesman J, et al. Electronic versus dictated hospital discharge summaries: a randomized controlled trial. J Gen Intern Med. 2009;24(9):9951001.
  24. Walraven C, Laupacis A, Seth R, Wells G. Dictated versus database‐generated discharge summaries: a randomized clinical trial. CMAJ. 1999;160(3):319326.
  25. Llewelyn DE, Ewins DL, Horn J, Evans TG, McGregor AM. Computerised updating of clinical summaries: new opportunities for clinical practice and research? BMJ. 1988;297(6662):15041506.
  26. Callen JL, Alderton M, McIntosh J. Evaluation of electronic discharge summaries: a comparison of documentation in electronic and handwritten discharge summaries. Int J Med Inform. 2008;77(9):613620.
  27. Davis MM, Devoe M, Kansagara D, Nicolaidis C, Englander H. Did I do as best as the system would let me? Healthcare professional views on hospital to home care transitions. J Gen Intern Med. 2012;27(12):16491656.
  28. Greysen SR, Schiliro D, Curry L, Bradley EH, Horwitz LI. Learning by doing—resident perspectives on developing competency in high‐quality discharge care. J Gen Intern Med. 2012;27(9):11881194.
  29. Greysen SR, Schiliro D, Horwitz LI, Curry L, Bradley EH. Out of sight, out of mind: housestaff perceptions of quality‐limiting factors in discharge care at teaching hospitals. J Hosp Med. 2012;7(5):376381.
  30. Walraven C, Seth R, Laupacis A. Dissemination of discharge summaries. Not reaching follow‐up physicians. Can Fam Physician. 2002;48:737742.
  31. Pantilat SZ, Lindenauer PK, Katz PP, Wachter RM. Primary care physician attitudes regarding communication with hospitalists. Am J Med. 2001;111(9B):15S20S.
  32. Wilson S, Ruscoe W, Chapman M, Miller R. General practitioner‐hospital communications: a review of discharge summaries. J Qual Clin Pract. 2001;21(4):104108.
  33. McMillan TE, Allan W, Black PN. Accuracy of information on medicines in hospital discharge summaries. Intern Med J. 2006;36(4):221225.
  34. Callen J, McIntosh J, Li J. Accuracy of medication documentation in hospital discharge summaries: A retrospective analysis of medication transcription errors in manual and electronic discharge summaries. Int J Med Inform. 2010;79(1):5864.
  35. Ziaeian B, Araujo KL, Ness PH, Horwitz LI. Medication reconciliation accuracy and patient understanding of intended medication changes on hospital discharge. J Gen Intern Med. 2012;27(11):15131520.
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Hospitalized patients are often cared for by physicians who do not follow them in the community, creating a discontinuity of care that must be bridged through communication. This communication between inpatient and outpatient physicians occurs, in part via a discharge summary, which is intended to summarize events during hospitalization and prepare the outpatient physician to resume care of the patient. Yet, this form of communication has long been problematic.[1, 2, 3] In a 1960 study, only 30% of discharge letters were received by the primary care physician within 48 hours of discharge.[1]

More recent studies have shown little improvement. Direct communication between hospital and outpatient physicians is rare, and discharge summaries are still largely unavailable at the time of follow‐up.[4] In 1 study, primary care physicians were unaware of 62% of laboratory tests or study results that were pending on discharge,[5] in part because this information is missing from most discharge summaries.[6] Deficits such as these persist despite the fact that the rate of postdischarge completion of recommended tests, referrals, or procedures is significantly increased when the recommendation is included in the discharge summary.[7]

Regulatory mandates for discharge summaries from the Centers for Medicare and Medicaid Services[8] and from The Joint Commission[9] appear to be generally met[10, 11]; however, these mandates have no requirements for timeliness stricter than 30 days, do not require that summaries be transmitted to outpatient physicians, and do not require several content elements that might be useful to outside physicians such as condition of the patient at discharge, cognitive and functional status, goals of care, or pending studies. Expert opinion guidelines have more comprehensive recommendations,[12, 13] but it is uncertain how widely they are followed.

The existence of a discharge summary does not necessarily mean it serves a patient well in the transitional period.[11, 14, 15] Discharge summaries are a complex intervention, and we do not yet understand the best ways discharge summaries may fulfill needs specific to transitional care. Furthermore, it is uncertain what factors improve aspects of discharge summary quality as defined by timeliness, transmission, and content.[6, 16]

The goal of the DIagnosing Systemic failures, Complexities and HARm in GEriatric discharges study (DISCHARGE) was to comprehensively assess the discharge process for older patients discharged to the community. In this article we examine discharge summaries of patients enrolled in the study to determine the timeliness, transmission to outside physicians, and content of the summaries. We further examine the effect of provider training level and timeliness of dictation on discharge summary quality.

METHODS

Study Cohort

The DISCHARGE study was a prospective, observational cohort study of patients 65 years or older discharged to home from YaleNew Haven Hospital (YNHH) who were admitted with acute coronary syndrome (ACS), community‐acquired pneumonia, or heart failure (HF). Patients were screened by physicians for eligibility within 24 hours of admission using specialty society guidelines[17, 18, 19, 20] and were enrolled by telephone within 1 week of discharge. Additional inclusion criteria included speaking English or Spanish, and ability of the patient or caregiver to participate in a telephone interview. Patients enrolled in hospice were excluded, as were patients who failed the Mini‐Cog mental status screen (3‐item recall and a clock draw)[21] while in the hospital or appeared confused or delirious during the telephone interview. Caregivers of cognitively impaired patients were eligible for enrollment instead if the patient provided permission.

Study Setting

YNHH is a 966‐bed urban tertiary care hospital with statistically lower than the national average mortality for acute myocardial infarction, HF, and pneumonia but statistically higher than the national average for 30‐day readmission rates for HF and pneumonia at the time this study was conducted. Advanced practice registered nurses (APRNs) working under the supervision of private or university cardiologists provided care for cardiology service patients. Housestaff under the supervision of university or hospitalist attending physicians, or physician assistants or APRNs under the supervision of hospitalist attending physicians provided care for patients on medical services. Discharge summaries were typically dictated by APRNs for cardiology patients, by 2nd‐ or 3rd‐year residents for housestaff patients, and by hospitalists for hospitalist patients. A dictation guideline was provided to housestaff and hospitalists (see Supporting Information, Appendix 1, in the online version of this article); this guideline suggested including basic demographic information, disposition and diagnoses, the admission history and physical, hospital course, discharge medications, and follow‐up appointments. Additionally, housestaff received a lecture about discharge summaries at the start of their 2nd year. Discharge instructions including medications and follow‐up appointment information were automatically appended to the discharge summaries. Summaries were sent by the medical records department only to physicians in the system who were listed by the dictating physician as needing to receive a copy of the summary; no summary was automatically sent (ie, to the primary care physician) if not requested by the dictating physician.

Data Collection

Experienced registered nurses trained in chart abstraction conducted explicit reviews of medical charts using a standardized review tool. The tool included 24 questions about the discharge summary applicable to all 3 conditions, with 7 additional questions for patients with HF and 1 additional question for patients with ACS. These questions included the 6 elements required by The Joint Commission for all discharge summaries (reason for hospitalization, significant findings, procedures and treatment provided, patient's discharge condition, patient and family instructions, and attending physician's signature)[9] as well as the 7 elements (principal diagnosis and problem list, medication list, transferring physician name and contact information, cognitive status of the patient, test results, and pending test results) recommended by the Transitions of Care Consensus Conference (TOCCC), a recent consensus statement produced by 6 major medical societies.[13] Each content element is shown in (see Supporting Information, Appendix 2, in the online version of this article), which also indicates the elements included in the 2 guidelines.

Main Measures

We assessed quality in 3 main domains: timeliness, transmission, and content. We defined timeliness as days between discharge date and dictation date (not final signature date, which may occur later), and measured both median timeliness and proportion of discharge summaries completed on the day of discharge. We defined transmission as successful fax or mail of the discharge summary to an outside physician as reported by the medical records department, and measured the proportion of discharge summaries sent to any outside physician as well as the median number of physicians per discharge summary who were scheduled to follow‐up with the patient postdischarge but who did not receive a copy of the summary. We defined 21 individual content items and assessed the frequency of each individual content item. We also measured compliance with The Joint Commission mandates and TOCCC recommendations, which included several of the individual content items.

To measure compliance with The Joint Commission requirements, we created a composite score in which 1 point was provided for the presence of each of the 6 required elements (maximum score=6). Every discharge summary received 1 point for attending physician signature, because all discharge summaries were electronically signed. Discharge instructions to family/patients were automatically appended to every discharge summary; however, we gave credit for patient and family instructions only to those that included any information about signs and symptoms to monitor for at home. We defined discharge condition as any information about functional status, cognitive status, physical exam, or laboratory findings at discharge.

To measure compliance with specialty society recommendations for discharge summaries, we created a composite score in which 1 point was provided for the presence of each of the 7 recommended elements (maximum score=7). Every discharge summary received 1 point for discharge medications, because these are automatically appended.

We obtained data on age, race, gender, and length of stay from hospital administrative databases. The study was approved by the Yale Human Investigation Committee, and verbal informed consent was obtained from all study participants.

Statistical Analysis

Characteristics of the sample are described with counts and percentages or means and standard deviations. Medians and interquartile ranges (IQRs) or counts and percentages were calculated for summary measures of timeliness, transmission, and content. We assessed differences in quality measures between APRNs, housestaff, and hospitalists using 2 tests. We conducted multivariable logistic regression analyses for timeliness and for transmission to any outside physician. All discharge summaries included at least 4 of The Joint Commission elements; consequently, we coded this content outcome as an ordinal variable with 3 levels indicating inclusion of 4, 5, or 6 of The Joint Commission elements. We coded the TOCCC content outcome as a 3‐level variable indicating <4, 4, or >4 elements satisfied. Accordingly, proportional odds models were used, in which the reported odds ratios (ORs) can be interpreted as the average effect of the explanatory variable on the odds of having more recommendations, for any dichotomization of the outcome. Residual analysis and goodness‐of‐fit statistics were used to assess model fit; the proportional odds assumption was tested. Statistical analyses were conducted with SAS 9.2 (SAS Institute, Cary, NC). P values <0.05 were interpreted as statistically significant for 2‐sided tests.

RESULTS

Enrollment and Study Sample

A total of 3743 patients over 64 years old were discharged home from the medical service at YNHH during the study period; 3028 patients were screened for eligibility within 24 hours of admission. We identified 635 eligible admissions and enrolled 395 patients (62.2%) in the study. Of these, 377 granted permission for chart review and were included in this analysis (Figure 1).

Figure 1
Flow diagram of enrolled participants.

The study sample had a mean age of 77.1 years (standard deviation: 7.8); 205 (54.4%) were male and 310 (82.5%) were non‐Hispanic white. A total of 195 (51.7%) had ACS, 91 (24.1%) had pneumonia, and 146 (38.7%) had HF; 54 (14.3%) patients had more than 1 qualifying condition. There were similar numbers of patients on the cardiology, medicine housestaff, and medicine hospitalist teams (Table 1).

Study Sample Characteristics (N=377)
CharacteristicN (%) or Mean (SD)
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; N=number of study participants; GED, general educational development; SD=standard deviation.

Condition 
Acute coronary syndrome195 (51.7)
Community‐acquired pneumonia91 (24.1)
Heart failure146 (38.7)
Training level of summary dictator 
APRN140 (37.1)
House staff123 (32.6)
Hospitalist114 (30.2)
Length of stay, mean, d3.5 (2.5)
Total number of medications8.9 (3.3)
Identify a usual source of care360 (96.0)
Age, mean, y77.1 (7.8)
Male205 (54.4)
English‐speaking366 (98.1)
Race/ethnicity 
Non‐Hispanic white310 (82.5)
Non‐Hispanic black44 (11.7)
Hispanic15 (4.0)
Other7 (1.9)
High school graduate or GED Admission source268 (73.4)
Emergency department248 (66.0)
Direct transfer from hospital or nursing facility94 (25.0)
Direct admission from office34 (9.0)

Timeliness

Discharge summaries were completed for 376/377 patients, of which 174 (46.3%) were dictated on the day of discharge. However, 122 (32.4%) summaries were dictated more than 48 hours after discharge, including 93 (24.7%) that were dictated more than 1 week after discharge (see Supporting Information, Appendix 3, in the online version of this article).

Summaries dictated by hospitalists were most likely to be done on the day of discharge (35.3% APRNs, 38.2% housestaff, 68.4% hospitalists, P<0.001). After adjustment for diagnosis and length of stay, hospitalists were still significantly more likely to produce a timely discharge summary than APRNs (OR: 2.82; 95% confidence interval [CI]: 1.56‐5.09), whereas housestaff were no different than APRNs (OR: 0.84; 95% CI: 0.48‐1.46).

Transmission

A total of 144 (38.3%) discharge summaries were not sent to any physician besides the inpatient attending, and 209/374 (55.9%) were not sent to at least 1 physician listed as having a follow‐up appointment planned with the patient. Each discharge summary was sent to a median of 1 physician besides the dictating physician (IQR: 01). However, for each summary, a median of 1 physician (IQR: 01) who had a scheduled follow‐up with the patient did not receive the summary. Summaries dictated by hospitalists were most likely to be sent to at least 1 outside physician (54.7% APRNs, 58.5% housestaff, 73.7% hospitalists, P=0.006). Summaries dictated on the day of discharge were more likely than delayed summaries to be sent to at least 1 outside physician (75.9% vs 49.5%, P<0.001). After adjustment for diagnosis and length of stay, there was no longer a difference in likelihood of transmitting a discharge summary to any outpatient physician according to training level; however, dictations completed on the day of discharge remained significantly more likely to be transmitted to an outside physician (OR: 3.05; 95% CI: 1.88‐4.93) (Table 2).

Logistic Regression Model of Associations With Discharge Summary Transmission (N=376)
Explanatory VariableProportion Transmitted to at Least 1 Outside PhysicianOR for Transmission to Any Outside Physician (95% CI)Adjusted P Value
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; CI, confidence interval; OR, odds ratio.

  • Patients could be categorized as having more than 1 eligible diagnosis.

Training level  0.52
APRN54.7%REF 
Housestaff58.5%1.17 (0.66‐2.06) 
Hospitalist73.7%1.46 (0.76‐2.79) 
Timeliness   
Dictated after discharge49.5%REF<0.001
Dictated day of discharge75.9%3.05 (1.88‐4.93) 
Acute coronary syndrome vs nota52.1 %1.05 (0.49‐2.26)0.89
Pneumonia vs nota69.2 %1.59 (0.66‐3.79)0.30
Heart failure vs nota74.7 %3.32 (1.61‐6.84)0.001
Length of stay, d 0.91 (0.83‐1.00)0.06

Content

Rate of inclusion of each content element is shown in Table 3, overall and by training level. Nearly every discharge summary included information about admitting diagnosis, hospital course, and procedures or tests performed during the hospitalization. However, few summaries included information about the patient's condition at discharge. Less than half included discharge laboratory results; less than one‐third included functional capacity, cognitive capacity, or discharge physical exam. Only 4.1% overall of discharge summaries for patients with HF included the patient's weight at discharge; best were hospitalists who still included this information in only 7.7% of summaries. Information about postdischarge care, including home social support, pending tests, or recommended follow‐up tests/procedures was also rarely specified. Last, only 6.2% of discharge summaries included the name and contact number of the inpatient physician; this information was least likely to be provided by housestaff (1.6%) and most likely to be provided by hospitalists (15.2%) (P<0.001).

Content of Discharge SummariesOverall and by Training Level
Discharge Summary ComponentOverall, n=377, n (%)APRN, n=140, n (%)Housestaff, n=123, n (%)Hospitalist, n=114, n (%)P Value
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; GFR, glomerular filtration rate.

  • Included in Joint Commission composite.

  • Included in Transitions of Care Consensus Conference composite.

  • Patients with heart failure only (n=146).

  • Patients with stents placed only (n=109).

Diagnosisab368 (97.9)136 (97.8)120 (97.6)112 (98.3)1.00
Discharge second diagnosisb289 (76.9)100 (71.9)89 (72.4)100 (87.7)<0.001
Hospital coursea375 (100.0)138 (100)123 (100)114 (100)N/A
Procedures/tests performed during admissionab374 (99.7)138 (99.3)123 (100)113 (100)N/A
Patient and family instructionsa371 (98.4)136 (97.1)122 (99.2)113 (99.1).43
Social support or living situation of patient148 (39.5)18 (12.9)62 (50.4)68 (60.2)<0.001
Functional capacity at dischargea99 (26.4)37 (26.6)32 (26.0)30 (26.6)0.99
Cognitive capacity at dischargeab30 (8.0)6 (4.4)11 (8.9)13 (11.5)0.10
Physical exam at dischargea62 (16.7)19 (13.8)16 (13.1)27 (24.1)0.04
Laboratory results at time of dischargea164 (43.9)63 (45.3)50 (40.7)51 (45.5)0.68
Back to baseline or other nonspecific remark about discharge statusa71 (19.0)30 (21.6)18 (14.8)23 (20.4)0.34
Any test or result still pending or specific comment that nothing is pendingb46 (12.2)9 (6.4)20 (16.3)17 (14.9)0.03
Recommendation for follow‐up tests/procedures157 (41.9)43 (30.9)54 (43.9)60 (53.1)0.002
Call‐back number of responsible in‐house physicianb23 (6.2)4 (2.9)2 (1.6)17 (15.2)<0.001
Resuscitation status27 (7.7)2 (1.5)18 (15.4)7 (6.7)<0.001
Etiology of heart failurec120 (82.8)44 (81.5)34 (87.2)42 (80.8)0.69
Reason/trigger for exacerbationc86 (58.9)30 (55.6)27 (67.5)29 (55.8)0.43
Ejection fractionc107 (73.3)40 (74.1)32 (80.0)35 (67.3)0.39
Discharge weightc6 (4.1)1 (1.9)1 (2.5)4 (7.7)0.33
Target weight rangec5 (3.4)0 (0)2 (5.0)3 (5.8)0.22
Discharge creatinine or GFRc34 (23.3)14 (25.9)10 (25.0)10 (19.2)0.69
If stent placed, whether drug‐eluting or notd89 (81.7)58 (87.9)27 (81.8)4 (40.0)0.001

On average, summaries included 5.6 of the 6 Joint Commission elements and 4.0 of the 7 TOCCC elements. A total of 63.0% of discharge summaries included all 6 elements required by The Joint Commission, whereas no discharge summary included all 7 TOCCC elements.

APRNs, housestaff and hospitalists included the same average number of The Joint Commission elements (5.6 each), but hospitalists on average included slightly more TOCCC elements (4.3) than did housestaff (4.0) or APRNs (3.8) (P<0.001). Summaries dictated on the day of discharge included an average of 4.2 TOCCC elements, compared to 3.9 TOCCC elements in delayed discharge. In multivariable analyses adjusted for diagnosis and length of stay, there was still no difference by training level in presence of The Joint Commission elements, but hospitalists were significantly more likely to include more TOCCC elements than APRNs (OR: 2.70; 95% CI: 1.49‐4.90) (Table 4). Summaries dictated on the day of discharge were significantly more likely to include more TOCCC elements (OR: 1.92; 95% CI: 1.23‐2.99).

Proportional Odds Model of Associations With Including More Elements Recommended by Specialty Societies (N=376)
Explanatory VariableAverage Number of TOCCC Elements IncludedOR (95% CI)Adjusted P Value
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; CI, confidence interval; OR, odds ratio; TOCCC, Transitions of Care Consensus Conference (defined by Snow et al.[13]).

  • Patients could be categorized as having more than 1 eligible diagnosis.

Training level  0.004
APRN3.8REF 
Housestaff4.01.54 (0.90‐2.62) 
Hospitalist4.32.70 (1.49‐4.90) 
Timeliness   
Dictated after discharge3.9REF 
Dictated day of discharge4.21.92 (1.23‐2.99)0.004
Acute coronary syndrome vs nota3.90.72 (0.37‐1.39)0.33
Pneumonia vs nota4.21.02 (0.49‐2.14)0.95
Heart failure vs nota4.11.49 (0.80‐2.78)0.21
Length of stay, d 0.99 (0.90‐1.07)0.73

No discharge summary included all 7 TOCCC‐endorsed content elements, was dictated on the day of discharge, and was sent to an outside physician.

DISCUSSION

In this prospective single‐site study of medical patients with 3 common conditions, we found that discharge summaries were completed relatively promptly, but were often not sent to the appropriate outpatient physicians. We also found that summaries were uniformly excellent at providing details of the hospitalization, but less reliable at providing details relevant to transitional care such as the patient's condition on discharge or existence of pending tests. On average, summaries included 57% of the elements included in consensus guidelines by 6 major medical societies. The content of discharge summaries dictated by hospitalists was slightly more comprehensive than that of APRNs and trainees, but no group exhibited high performance. In fact, not one discharge summary fully met all 3 quality criteria of timeliness, transmission, and content.

Our study, unlike most in the field, focused on multiple dimensions of discharge summary quality simultaneously. For instance, previous studies have found that timely receipt of a discharge summary does not reduce readmission rates.[11, 14, 15] Yet, if the content of the discharge summary is inadequate for postdischarge care, the summary may not be useful even if it is received by the follow‐up visit. Conversely, high‐quality content is ineffective if the summary is not sent to the outpatient physician.

This study suggests several avenues for improving summary quality. Timely discharge summaries in this study were more likely to include key content and to be transmitted to the appropriate physician. Strategies to improve discharge summary quality should therefore prioritize timely summaries, which can be expected to have downstream benefits for other aspects of quality. Some studies have found that templates improve discharge summary content.[22] In our institution, a template exists, but it favors a hospitalization‐focused rather than transition‐focused approach to the discharge summary. For instance, it includes instructions to dictate the admission exam, but not the discharge exam. Thus, designing templates specifically for transitional care is key. Maximizing capabilities of electronic records may help; many content elements that were commonly missing (e.g., pending results, discharge vitals, discharge weight) could be automatically inserted from electronic records. Likewise, automatic transmission of the summary to care providers listed in the electronic record might ameliorate many transmission failures. Some efforts have been made to convert existing electronic data into discharge summaries.[23, 24, 25] However, these activities are very preliminary, and some studies have found the quality of electronic summaries to be lower than dictated or handwritten summaries.[26] As with all automated or electronic applications, it will be essential to consider workflow, readability, and ability to synthesize information prior to adoption.

Hospitalists consistently produced highest‐quality summaries, even though they did not receive explicit training, suggesting experience may be beneficial,[27, 28, 29] or that the hospitalist community focus on transitional care has been effective. In addition, hospitalists at our institution explicitly prioritize timely and comprehensive discharge dictations, because their business relies on maintaining good relationships with outpatient physicians who contract for their services. Housestaff and APRNs have no such incentives or policies; rather, they typically consider discharge summaries to be a useful source of patient history at the time of an admission or readmission. Other academic centers have found similar results.[6, 16] Nonetheless, even though hospitalists had slightly better performance in our study, large gaps in the quality of summaries remained for all groups including hospitalists.

This study has several limitations. First, as a single‐site study at an academic hospital, it may not be generalizable to other hospitals or other settings. It is noteworthy, however, that the average time to dictation in this study was much lower than that of other studies,[4, 14, 30, 31, 32] suggesting that practices at this institution are at least no worse and possibly better than elsewhere. Second, although there are some mandates and expert opinion‐based guidelines for discharge summary content, there is no validated evidence base to confirm what content ought to be present in discharge summaries to improve patient outcomes. Third, we had too few readmissions in the dataset to have enough power to determine whether discharge summary content, timeliness, or transmission predicts readmission. Fourth, we did not determine whether the information in discharge summaries was accurate or complete; we merely assessed whether it was present. For example, we gave every discharge summary full credit for including discharge medications because they are automatically appended. Yet medication reconciliation errors at discharge are common.[33, 34] In fact, in the DISCHARGE study cohort, more than a quarter of discharge medication lists contained a suspected error.[35]

In summary, this study demonstrated the inadequacy of the contemporary discharge summary for conveying information that is critical to the transition from hospital to home. It may be that hospital culture treats hospitalizations as discrete and self‐contained events rather than as components of a larger episode of care. As interest in reducing readmissions rises, reframing the discharge summary to serve as a transitional tool and targeting it for quality assessment will likely be necessary.

Acknowledgments

The authors would like to acknowledge Amy Browning and the staff of the Center for Outcomes Research and Evaluation Follow‐Up Center for conducting patient interviews, Mark Abroms and Katherine Herman for patient recruitment and screening, and Peter Charpentier for Web site development.

Disclosures

At the time this study was conducted, Dr. Horwitz was supported by the CTSA Grant UL1 RR024139 and KL2 RR024138 from the National Center for Advancing Translational Sciences (NCATS), a component of the National Institutes of Health (NIH), and NIH roadmap for Medical Research, and was a Centers of Excellence Scholar in Geriatric Medicine by the John A. Hartford Foundation and the American Federation for Aging Research. Dr. Horwitz is now supported by the National Institute on Aging (K08 AG038336) and by the American Federation for Aging Research through the Paul B. Beeson Career Development Award Program. This work was also supported by a grant from the Claude D. Pepper Older Americans Independence Center at Yale University School of Medicine (P30AG021342 NIH/NIA). Dr. Krumholz is supported by grant U01 HL105270‐01 (Center for Cardiovascular Outcomes Research at Yale University) from the National Heart, Lung, and Blood Institute. No funding source had any role in the study design; in the collection, analysis, and interpretation of data; in the writing of the report; or in the decision to submit the article for publication. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute on Aging, the National Center for Advancing Translational Sciences, the National Institutes of Health, The John A. Hartford Foundation, the National Heart, Lung, and Blood Institute, or the American Federation for Aging Research. Dr. Horwitz had full access to all of the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. An earlier version of this work was presented as an oral presentation at the Society of General Internal Medicine Annual Meeting in Orlando, Florida on May 12, 2012. Dr. Krumholz chairs a cardiac scientific advisory board for UnitedHealth. Dr. Krumholz receives support from the Centers of Medicare and Medicaid Services (CMS) to develop and maintain performance measures that are used for public reporting, including readmission measures.

APPENDIX

A

Dictation guidelines provided to house staff and hospitalists

DICTATION GUIDELINES

FORMAT OF DISCHARGE SUMMARY

 

  • Your name(spell it out), andPatient name(spell it out as well)
  • Medical record number, date of admission, date of discharge
  • Attending physician
  • Disposition
  • Principal and other diagnoses, Principal and other operations/procedures
  • Copies to be sent to other physicians
  • Begin narrative: CC, HPI, PMHx, Medications on admit, Social, Family Hx, Physical exam on admission, Data (labs on admission, plus labs relevant to workup, significant changes at discharge, admission EKG, radiologic and other data),Hospital course by problem, discharge meds, follow‐up appointments

 

APPENDIX

B

 

Content Items Abstracted
Diagnosis
Discharge Second Diagnosis
Hospital course
Procedures/tests performed during admission
Patient and Family Instructions
Social support or living situation of patient
Functional capacity at discharge
Cognitive capacity at discharge
Physical exam at discharge
Laboratory results at time of discharge
Back to baseline or other nonspecific remark about discharge status
Any test or result still pending
Specific comment that nothing is pending
Recommendation for follow up tests/procedures
Call back number of responsible in‐house physician
Resuscitation status
Etiology of heart failure
Reason/trigger for exacerbation
Ejection fraction
Discharge weight
Target weight range
Discharge creatinine or GFR
If stent placed, whether drug‐eluting or not
Joint Commission Composite Elements
Composite elementData elements abstracted that qualify as meeting measure
Reason for hospitalizationDiagnosis
Significant findingsHospital course
Procedures and treatment providedProcedures/tests performed during admission
Patient's discharge conditionFunctional capacity at discharge, Cognitive capacity at discharge, Physical exam at discharge, Laboratory results at time of discharge, Back to baseline or other nonspecific remark about discharge status
Patient and family instructionsSigns and symptoms to monitor at home
Attending physician's signatureAttending signature
Transitions of Care Consensus Conference Composite Elements
Composite elementData elements abstracted that qualify as meeting measure
Principal diagnosisDiagnosis
Problem listDischarge second diagnosis
Medication list[Automatically appended; full credit to every summary]
Transferring physician name and contact informationCall back number of responsible in‐house physician
Cognitive status of the patientCognitive capacity at discharge
Test resultsProcedures/tests performed during admission
Pending test resultsAny test or result still pending or specific comment that nothing is pending

APPENDIX

C

Histogram of days between discharge and dictation

 

 

 

Hospitalized patients are often cared for by physicians who do not follow them in the community, creating a discontinuity of care that must be bridged through communication. This communication between inpatient and outpatient physicians occurs, in part via a discharge summary, which is intended to summarize events during hospitalization and prepare the outpatient physician to resume care of the patient. Yet, this form of communication has long been problematic.[1, 2, 3] In a 1960 study, only 30% of discharge letters were received by the primary care physician within 48 hours of discharge.[1]

More recent studies have shown little improvement. Direct communication between hospital and outpatient physicians is rare, and discharge summaries are still largely unavailable at the time of follow‐up.[4] In 1 study, primary care physicians were unaware of 62% of laboratory tests or study results that were pending on discharge,[5] in part because this information is missing from most discharge summaries.[6] Deficits such as these persist despite the fact that the rate of postdischarge completion of recommended tests, referrals, or procedures is significantly increased when the recommendation is included in the discharge summary.[7]

Regulatory mandates for discharge summaries from the Centers for Medicare and Medicaid Services[8] and from The Joint Commission[9] appear to be generally met[10, 11]; however, these mandates have no requirements for timeliness stricter than 30 days, do not require that summaries be transmitted to outpatient physicians, and do not require several content elements that might be useful to outside physicians such as condition of the patient at discharge, cognitive and functional status, goals of care, or pending studies. Expert opinion guidelines have more comprehensive recommendations,[12, 13] but it is uncertain how widely they are followed.

The existence of a discharge summary does not necessarily mean it serves a patient well in the transitional period.[11, 14, 15] Discharge summaries are a complex intervention, and we do not yet understand the best ways discharge summaries may fulfill needs specific to transitional care. Furthermore, it is uncertain what factors improve aspects of discharge summary quality as defined by timeliness, transmission, and content.[6, 16]

The goal of the DIagnosing Systemic failures, Complexities and HARm in GEriatric discharges study (DISCHARGE) was to comprehensively assess the discharge process for older patients discharged to the community. In this article we examine discharge summaries of patients enrolled in the study to determine the timeliness, transmission to outside physicians, and content of the summaries. We further examine the effect of provider training level and timeliness of dictation on discharge summary quality.

METHODS

Study Cohort

The DISCHARGE study was a prospective, observational cohort study of patients 65 years or older discharged to home from YaleNew Haven Hospital (YNHH) who were admitted with acute coronary syndrome (ACS), community‐acquired pneumonia, or heart failure (HF). Patients were screened by physicians for eligibility within 24 hours of admission using specialty society guidelines[17, 18, 19, 20] and were enrolled by telephone within 1 week of discharge. Additional inclusion criteria included speaking English or Spanish, and ability of the patient or caregiver to participate in a telephone interview. Patients enrolled in hospice were excluded, as were patients who failed the Mini‐Cog mental status screen (3‐item recall and a clock draw)[21] while in the hospital or appeared confused or delirious during the telephone interview. Caregivers of cognitively impaired patients were eligible for enrollment instead if the patient provided permission.

Study Setting

YNHH is a 966‐bed urban tertiary care hospital with statistically lower than the national average mortality for acute myocardial infarction, HF, and pneumonia but statistically higher than the national average for 30‐day readmission rates for HF and pneumonia at the time this study was conducted. Advanced practice registered nurses (APRNs) working under the supervision of private or university cardiologists provided care for cardiology service patients. Housestaff under the supervision of university or hospitalist attending physicians, or physician assistants or APRNs under the supervision of hospitalist attending physicians provided care for patients on medical services. Discharge summaries were typically dictated by APRNs for cardiology patients, by 2nd‐ or 3rd‐year residents for housestaff patients, and by hospitalists for hospitalist patients. A dictation guideline was provided to housestaff and hospitalists (see Supporting Information, Appendix 1, in the online version of this article); this guideline suggested including basic demographic information, disposition and diagnoses, the admission history and physical, hospital course, discharge medications, and follow‐up appointments. Additionally, housestaff received a lecture about discharge summaries at the start of their 2nd year. Discharge instructions including medications and follow‐up appointment information were automatically appended to the discharge summaries. Summaries were sent by the medical records department only to physicians in the system who were listed by the dictating physician as needing to receive a copy of the summary; no summary was automatically sent (ie, to the primary care physician) if not requested by the dictating physician.

Data Collection

Experienced registered nurses trained in chart abstraction conducted explicit reviews of medical charts using a standardized review tool. The tool included 24 questions about the discharge summary applicable to all 3 conditions, with 7 additional questions for patients with HF and 1 additional question for patients with ACS. These questions included the 6 elements required by The Joint Commission for all discharge summaries (reason for hospitalization, significant findings, procedures and treatment provided, patient's discharge condition, patient and family instructions, and attending physician's signature)[9] as well as the 7 elements (principal diagnosis and problem list, medication list, transferring physician name and contact information, cognitive status of the patient, test results, and pending test results) recommended by the Transitions of Care Consensus Conference (TOCCC), a recent consensus statement produced by 6 major medical societies.[13] Each content element is shown in (see Supporting Information, Appendix 2, in the online version of this article), which also indicates the elements included in the 2 guidelines.

Main Measures

We assessed quality in 3 main domains: timeliness, transmission, and content. We defined timeliness as days between discharge date and dictation date (not final signature date, which may occur later), and measured both median timeliness and proportion of discharge summaries completed on the day of discharge. We defined transmission as successful fax or mail of the discharge summary to an outside physician as reported by the medical records department, and measured the proportion of discharge summaries sent to any outside physician as well as the median number of physicians per discharge summary who were scheduled to follow‐up with the patient postdischarge but who did not receive a copy of the summary. We defined 21 individual content items and assessed the frequency of each individual content item. We also measured compliance with The Joint Commission mandates and TOCCC recommendations, which included several of the individual content items.

To measure compliance with The Joint Commission requirements, we created a composite score in which 1 point was provided for the presence of each of the 6 required elements (maximum score=6). Every discharge summary received 1 point for attending physician signature, because all discharge summaries were electronically signed. Discharge instructions to family/patients were automatically appended to every discharge summary; however, we gave credit for patient and family instructions only to those that included any information about signs and symptoms to monitor for at home. We defined discharge condition as any information about functional status, cognitive status, physical exam, or laboratory findings at discharge.

To measure compliance with specialty society recommendations for discharge summaries, we created a composite score in which 1 point was provided for the presence of each of the 7 recommended elements (maximum score=7). Every discharge summary received 1 point for discharge medications, because these are automatically appended.

We obtained data on age, race, gender, and length of stay from hospital administrative databases. The study was approved by the Yale Human Investigation Committee, and verbal informed consent was obtained from all study participants.

Statistical Analysis

Characteristics of the sample are described with counts and percentages or means and standard deviations. Medians and interquartile ranges (IQRs) or counts and percentages were calculated for summary measures of timeliness, transmission, and content. We assessed differences in quality measures between APRNs, housestaff, and hospitalists using 2 tests. We conducted multivariable logistic regression analyses for timeliness and for transmission to any outside physician. All discharge summaries included at least 4 of The Joint Commission elements; consequently, we coded this content outcome as an ordinal variable with 3 levels indicating inclusion of 4, 5, or 6 of The Joint Commission elements. We coded the TOCCC content outcome as a 3‐level variable indicating <4, 4, or >4 elements satisfied. Accordingly, proportional odds models were used, in which the reported odds ratios (ORs) can be interpreted as the average effect of the explanatory variable on the odds of having more recommendations, for any dichotomization of the outcome. Residual analysis and goodness‐of‐fit statistics were used to assess model fit; the proportional odds assumption was tested. Statistical analyses were conducted with SAS 9.2 (SAS Institute, Cary, NC). P values <0.05 were interpreted as statistically significant for 2‐sided tests.

RESULTS

Enrollment and Study Sample

A total of 3743 patients over 64 years old were discharged home from the medical service at YNHH during the study period; 3028 patients were screened for eligibility within 24 hours of admission. We identified 635 eligible admissions and enrolled 395 patients (62.2%) in the study. Of these, 377 granted permission for chart review and were included in this analysis (Figure 1).

Figure 1
Flow diagram of enrolled participants.

The study sample had a mean age of 77.1 years (standard deviation: 7.8); 205 (54.4%) were male and 310 (82.5%) were non‐Hispanic white. A total of 195 (51.7%) had ACS, 91 (24.1%) had pneumonia, and 146 (38.7%) had HF; 54 (14.3%) patients had more than 1 qualifying condition. There were similar numbers of patients on the cardiology, medicine housestaff, and medicine hospitalist teams (Table 1).

Study Sample Characteristics (N=377)
CharacteristicN (%) or Mean (SD)
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; N=number of study participants; GED, general educational development; SD=standard deviation.

Condition 
Acute coronary syndrome195 (51.7)
Community‐acquired pneumonia91 (24.1)
Heart failure146 (38.7)
Training level of summary dictator 
APRN140 (37.1)
House staff123 (32.6)
Hospitalist114 (30.2)
Length of stay, mean, d3.5 (2.5)
Total number of medications8.9 (3.3)
Identify a usual source of care360 (96.0)
Age, mean, y77.1 (7.8)
Male205 (54.4)
English‐speaking366 (98.1)
Race/ethnicity 
Non‐Hispanic white310 (82.5)
Non‐Hispanic black44 (11.7)
Hispanic15 (4.0)
Other7 (1.9)
High school graduate or GED Admission source268 (73.4)
Emergency department248 (66.0)
Direct transfer from hospital or nursing facility94 (25.0)
Direct admission from office34 (9.0)

Timeliness

Discharge summaries were completed for 376/377 patients, of which 174 (46.3%) were dictated on the day of discharge. However, 122 (32.4%) summaries were dictated more than 48 hours after discharge, including 93 (24.7%) that were dictated more than 1 week after discharge (see Supporting Information, Appendix 3, in the online version of this article).

Summaries dictated by hospitalists were most likely to be done on the day of discharge (35.3% APRNs, 38.2% housestaff, 68.4% hospitalists, P<0.001). After adjustment for diagnosis and length of stay, hospitalists were still significantly more likely to produce a timely discharge summary than APRNs (OR: 2.82; 95% confidence interval [CI]: 1.56‐5.09), whereas housestaff were no different than APRNs (OR: 0.84; 95% CI: 0.48‐1.46).

Transmission

A total of 144 (38.3%) discharge summaries were not sent to any physician besides the inpatient attending, and 209/374 (55.9%) were not sent to at least 1 physician listed as having a follow‐up appointment planned with the patient. Each discharge summary was sent to a median of 1 physician besides the dictating physician (IQR: 01). However, for each summary, a median of 1 physician (IQR: 01) who had a scheduled follow‐up with the patient did not receive the summary. Summaries dictated by hospitalists were most likely to be sent to at least 1 outside physician (54.7% APRNs, 58.5% housestaff, 73.7% hospitalists, P=0.006). Summaries dictated on the day of discharge were more likely than delayed summaries to be sent to at least 1 outside physician (75.9% vs 49.5%, P<0.001). After adjustment for diagnosis and length of stay, there was no longer a difference in likelihood of transmitting a discharge summary to any outpatient physician according to training level; however, dictations completed on the day of discharge remained significantly more likely to be transmitted to an outside physician (OR: 3.05; 95% CI: 1.88‐4.93) (Table 2).

Logistic Regression Model of Associations With Discharge Summary Transmission (N=376)
Explanatory VariableProportion Transmitted to at Least 1 Outside PhysicianOR for Transmission to Any Outside Physician (95% CI)Adjusted P Value
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; CI, confidence interval; OR, odds ratio.

  • Patients could be categorized as having more than 1 eligible diagnosis.

Training level  0.52
APRN54.7%REF 
Housestaff58.5%1.17 (0.66‐2.06) 
Hospitalist73.7%1.46 (0.76‐2.79) 
Timeliness   
Dictated after discharge49.5%REF<0.001
Dictated day of discharge75.9%3.05 (1.88‐4.93) 
Acute coronary syndrome vs nota52.1 %1.05 (0.49‐2.26)0.89
Pneumonia vs nota69.2 %1.59 (0.66‐3.79)0.30
Heart failure vs nota74.7 %3.32 (1.61‐6.84)0.001
Length of stay, d 0.91 (0.83‐1.00)0.06

Content

Rate of inclusion of each content element is shown in Table 3, overall and by training level. Nearly every discharge summary included information about admitting diagnosis, hospital course, and procedures or tests performed during the hospitalization. However, few summaries included information about the patient's condition at discharge. Less than half included discharge laboratory results; less than one‐third included functional capacity, cognitive capacity, or discharge physical exam. Only 4.1% overall of discharge summaries for patients with HF included the patient's weight at discharge; best were hospitalists who still included this information in only 7.7% of summaries. Information about postdischarge care, including home social support, pending tests, or recommended follow‐up tests/procedures was also rarely specified. Last, only 6.2% of discharge summaries included the name and contact number of the inpatient physician; this information was least likely to be provided by housestaff (1.6%) and most likely to be provided by hospitalists (15.2%) (P<0.001).

Content of Discharge SummariesOverall and by Training Level
Discharge Summary ComponentOverall, n=377, n (%)APRN, n=140, n (%)Housestaff, n=123, n (%)Hospitalist, n=114, n (%)P Value
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; GFR, glomerular filtration rate.

  • Included in Joint Commission composite.

  • Included in Transitions of Care Consensus Conference composite.

  • Patients with heart failure only (n=146).

  • Patients with stents placed only (n=109).

Diagnosisab368 (97.9)136 (97.8)120 (97.6)112 (98.3)1.00
Discharge second diagnosisb289 (76.9)100 (71.9)89 (72.4)100 (87.7)<0.001
Hospital coursea375 (100.0)138 (100)123 (100)114 (100)N/A
Procedures/tests performed during admissionab374 (99.7)138 (99.3)123 (100)113 (100)N/A
Patient and family instructionsa371 (98.4)136 (97.1)122 (99.2)113 (99.1).43
Social support or living situation of patient148 (39.5)18 (12.9)62 (50.4)68 (60.2)<0.001
Functional capacity at dischargea99 (26.4)37 (26.6)32 (26.0)30 (26.6)0.99
Cognitive capacity at dischargeab30 (8.0)6 (4.4)11 (8.9)13 (11.5)0.10
Physical exam at dischargea62 (16.7)19 (13.8)16 (13.1)27 (24.1)0.04
Laboratory results at time of dischargea164 (43.9)63 (45.3)50 (40.7)51 (45.5)0.68
Back to baseline or other nonspecific remark about discharge statusa71 (19.0)30 (21.6)18 (14.8)23 (20.4)0.34
Any test or result still pending or specific comment that nothing is pendingb46 (12.2)9 (6.4)20 (16.3)17 (14.9)0.03
Recommendation for follow‐up tests/procedures157 (41.9)43 (30.9)54 (43.9)60 (53.1)0.002
Call‐back number of responsible in‐house physicianb23 (6.2)4 (2.9)2 (1.6)17 (15.2)<0.001
Resuscitation status27 (7.7)2 (1.5)18 (15.4)7 (6.7)<0.001
Etiology of heart failurec120 (82.8)44 (81.5)34 (87.2)42 (80.8)0.69
Reason/trigger for exacerbationc86 (58.9)30 (55.6)27 (67.5)29 (55.8)0.43
Ejection fractionc107 (73.3)40 (74.1)32 (80.0)35 (67.3)0.39
Discharge weightc6 (4.1)1 (1.9)1 (2.5)4 (7.7)0.33
Target weight rangec5 (3.4)0 (0)2 (5.0)3 (5.8)0.22
Discharge creatinine or GFRc34 (23.3)14 (25.9)10 (25.0)10 (19.2)0.69
If stent placed, whether drug‐eluting or notd89 (81.7)58 (87.9)27 (81.8)4 (40.0)0.001

On average, summaries included 5.6 of the 6 Joint Commission elements and 4.0 of the 7 TOCCC elements. A total of 63.0% of discharge summaries included all 6 elements required by The Joint Commission, whereas no discharge summary included all 7 TOCCC elements.

APRNs, housestaff and hospitalists included the same average number of The Joint Commission elements (5.6 each), but hospitalists on average included slightly more TOCCC elements (4.3) than did housestaff (4.0) or APRNs (3.8) (P<0.001). Summaries dictated on the day of discharge included an average of 4.2 TOCCC elements, compared to 3.9 TOCCC elements in delayed discharge. In multivariable analyses adjusted for diagnosis and length of stay, there was still no difference by training level in presence of The Joint Commission elements, but hospitalists were significantly more likely to include more TOCCC elements than APRNs (OR: 2.70; 95% CI: 1.49‐4.90) (Table 4). Summaries dictated on the day of discharge were significantly more likely to include more TOCCC elements (OR: 1.92; 95% CI: 1.23‐2.99).

Proportional Odds Model of Associations With Including More Elements Recommended by Specialty Societies (N=376)
Explanatory VariableAverage Number of TOCCC Elements IncludedOR (95% CI)Adjusted P Value
  • NOTE: Abbreviations: APRN, advanced practice registered nurse; CI, confidence interval; OR, odds ratio; TOCCC, Transitions of Care Consensus Conference (defined by Snow et al.[13]).

  • Patients could be categorized as having more than 1 eligible diagnosis.

Training level  0.004
APRN3.8REF 
Housestaff4.01.54 (0.90‐2.62) 
Hospitalist4.32.70 (1.49‐4.90) 
Timeliness   
Dictated after discharge3.9REF 
Dictated day of discharge4.21.92 (1.23‐2.99)0.004
Acute coronary syndrome vs nota3.90.72 (0.37‐1.39)0.33
Pneumonia vs nota4.21.02 (0.49‐2.14)0.95
Heart failure vs nota4.11.49 (0.80‐2.78)0.21
Length of stay, d 0.99 (0.90‐1.07)0.73

No discharge summary included all 7 TOCCC‐endorsed content elements, was dictated on the day of discharge, and was sent to an outside physician.

DISCUSSION

In this prospective single‐site study of medical patients with 3 common conditions, we found that discharge summaries were completed relatively promptly, but were often not sent to the appropriate outpatient physicians. We also found that summaries were uniformly excellent at providing details of the hospitalization, but less reliable at providing details relevant to transitional care such as the patient's condition on discharge or existence of pending tests. On average, summaries included 57% of the elements included in consensus guidelines by 6 major medical societies. The content of discharge summaries dictated by hospitalists was slightly more comprehensive than that of APRNs and trainees, but no group exhibited high performance. In fact, not one discharge summary fully met all 3 quality criteria of timeliness, transmission, and content.

Our study, unlike most in the field, focused on multiple dimensions of discharge summary quality simultaneously. For instance, previous studies have found that timely receipt of a discharge summary does not reduce readmission rates.[11, 14, 15] Yet, if the content of the discharge summary is inadequate for postdischarge care, the summary may not be useful even if it is received by the follow‐up visit. Conversely, high‐quality content is ineffective if the summary is not sent to the outpatient physician.

This study suggests several avenues for improving summary quality. Timely discharge summaries in this study were more likely to include key content and to be transmitted to the appropriate physician. Strategies to improve discharge summary quality should therefore prioritize timely summaries, which can be expected to have downstream benefits for other aspects of quality. Some studies have found that templates improve discharge summary content.[22] In our institution, a template exists, but it favors a hospitalization‐focused rather than transition‐focused approach to the discharge summary. For instance, it includes instructions to dictate the admission exam, but not the discharge exam. Thus, designing templates specifically for transitional care is key. Maximizing capabilities of electronic records may help; many content elements that were commonly missing (e.g., pending results, discharge vitals, discharge weight) could be automatically inserted from electronic records. Likewise, automatic transmission of the summary to care providers listed in the electronic record might ameliorate many transmission failures. Some efforts have been made to convert existing electronic data into discharge summaries.[23, 24, 25] However, these activities are very preliminary, and some studies have found the quality of electronic summaries to be lower than dictated or handwritten summaries.[26] As with all automated or electronic applications, it will be essential to consider workflow, readability, and ability to synthesize information prior to adoption.

Hospitalists consistently produced highest‐quality summaries, even though they did not receive explicit training, suggesting experience may be beneficial,[27, 28, 29] or that the hospitalist community focus on transitional care has been effective. In addition, hospitalists at our institution explicitly prioritize timely and comprehensive discharge dictations, because their business relies on maintaining good relationships with outpatient physicians who contract for their services. Housestaff and APRNs have no such incentives or policies; rather, they typically consider discharge summaries to be a useful source of patient history at the time of an admission or readmission. Other academic centers have found similar results.[6, 16] Nonetheless, even though hospitalists had slightly better performance in our study, large gaps in the quality of summaries remained for all groups including hospitalists.

This study has several limitations. First, as a single‐site study at an academic hospital, it may not be generalizable to other hospitals or other settings. It is noteworthy, however, that the average time to dictation in this study was much lower than that of other studies,[4, 14, 30, 31, 32] suggesting that practices at this institution are at least no worse and possibly better than elsewhere. Second, although there are some mandates and expert opinion‐based guidelines for discharge summary content, there is no validated evidence base to confirm what content ought to be present in discharge summaries to improve patient outcomes. Third, we had too few readmissions in the dataset to have enough power to determine whether discharge summary content, timeliness, or transmission predicts readmission. Fourth, we did not determine whether the information in discharge summaries was accurate or complete; we merely assessed whether it was present. For example, we gave every discharge summary full credit for including discharge medications because they are automatically appended. Yet medication reconciliation errors at discharge are common.[33, 34] In fact, in the DISCHARGE study cohort, more than a quarter of discharge medication lists contained a suspected error.[35]

In summary, this study demonstrated the inadequacy of the contemporary discharge summary for conveying information that is critical to the transition from hospital to home. It may be that hospital culture treats hospitalizations as discrete and self‐contained events rather than as components of a larger episode of care. As interest in reducing readmissions rises, reframing the discharge summary to serve as a transitional tool and targeting it for quality assessment will likely be necessary.

Acknowledgments

The authors would like to acknowledge Amy Browning and the staff of the Center for Outcomes Research and Evaluation Follow‐Up Center for conducting patient interviews, Mark Abroms and Katherine Herman for patient recruitment and screening, and Peter Charpentier for Web site development.

Disclosures

At the time this study was conducted, Dr. Horwitz was supported by the CTSA Grant UL1 RR024139 and KL2 RR024138 from the National Center for Advancing Translational Sciences (NCATS), a component of the National Institutes of Health (NIH), and NIH roadmap for Medical Research, and was a Centers of Excellence Scholar in Geriatric Medicine by the John A. Hartford Foundation and the American Federation for Aging Research. Dr. Horwitz is now supported by the National Institute on Aging (K08 AG038336) and by the American Federation for Aging Research through the Paul B. Beeson Career Development Award Program. This work was also supported by a grant from the Claude D. Pepper Older Americans Independence Center at Yale University School of Medicine (P30AG021342 NIH/NIA). Dr. Krumholz is supported by grant U01 HL105270‐01 (Center for Cardiovascular Outcomes Research at Yale University) from the National Heart, Lung, and Blood Institute. No funding source had any role in the study design; in the collection, analysis, and interpretation of data; in the writing of the report; or in the decision to submit the article for publication. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute on Aging, the National Center for Advancing Translational Sciences, the National Institutes of Health, The John A. Hartford Foundation, the National Heart, Lung, and Blood Institute, or the American Federation for Aging Research. Dr. Horwitz had full access to all of the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. An earlier version of this work was presented as an oral presentation at the Society of General Internal Medicine Annual Meeting in Orlando, Florida on May 12, 2012. Dr. Krumholz chairs a cardiac scientific advisory board for UnitedHealth. Dr. Krumholz receives support from the Centers of Medicare and Medicaid Services (CMS) to develop and maintain performance measures that are used for public reporting, including readmission measures.

APPENDIX

A

Dictation guidelines provided to house staff and hospitalists

DICTATION GUIDELINES

FORMAT OF DISCHARGE SUMMARY

 

  • Your name(spell it out), andPatient name(spell it out as well)
  • Medical record number, date of admission, date of discharge
  • Attending physician
  • Disposition
  • Principal and other diagnoses, Principal and other operations/procedures
  • Copies to be sent to other physicians
  • Begin narrative: CC, HPI, PMHx, Medications on admit, Social, Family Hx, Physical exam on admission, Data (labs on admission, plus labs relevant to workup, significant changes at discharge, admission EKG, radiologic and other data),Hospital course by problem, discharge meds, follow‐up appointments

 

APPENDIX

B

 

Content Items Abstracted
Diagnosis
Discharge Second Diagnosis
Hospital course
Procedures/tests performed during admission
Patient and Family Instructions
Social support or living situation of patient
Functional capacity at discharge
Cognitive capacity at discharge
Physical exam at discharge
Laboratory results at time of discharge
Back to baseline or other nonspecific remark about discharge status
Any test or result still pending
Specific comment that nothing is pending
Recommendation for follow up tests/procedures
Call back number of responsible in‐house physician
Resuscitation status
Etiology of heart failure
Reason/trigger for exacerbation
Ejection fraction
Discharge weight
Target weight range
Discharge creatinine or GFR
If stent placed, whether drug‐eluting or not
Joint Commission Composite Elements
Composite elementData elements abstracted that qualify as meeting measure
Reason for hospitalizationDiagnosis
Significant findingsHospital course
Procedures and treatment providedProcedures/tests performed during admission
Patient's discharge conditionFunctional capacity at discharge, Cognitive capacity at discharge, Physical exam at discharge, Laboratory results at time of discharge, Back to baseline or other nonspecific remark about discharge status
Patient and family instructionsSigns and symptoms to monitor at home
Attending physician's signatureAttending signature
Transitions of Care Consensus Conference Composite Elements
Composite elementData elements abstracted that qualify as meeting measure
Principal diagnosisDiagnosis
Problem listDischarge second diagnosis
Medication list[Automatically appended; full credit to every summary]
Transferring physician name and contact informationCall back number of responsible in‐house physician
Cognitive status of the patientCognitive capacity at discharge
Test resultsProcedures/tests performed during admission
Pending test resultsAny test or result still pending or specific comment that nothing is pending

APPENDIX

C

Histogram of days between discharge and dictation

 

 

 

References
  1. Alarcon R, Glanville H, Hodson JM. Value of the specialist's report. Br Med J. 1960;2(5213):16631664.
  2. Long A, Atkins JB. Communications between general practitioners and consultants. Br Med J. 1974;4(5942):456459.
  3. Swender PT, Schneider AJ, Oski FA. A functional hospital discharge summary. J Pediatr. 1975;86(1):9798.
  4. Kripalani S, LeFevre F, Phillips CO, Williams MV, Basaviah P, Baker DW. Deficits in communication and information transfer between hospital‐based and primary care physicians: implications for patient safety and continuity of care. JAMA. 2007;297(8):831841.
  5. Roy CL, Poon EG, Karson AS, et al. Patient safety concerns arising from test results that return after hospital discharge. Ann Intern Med. 2005;143(2):121128.
  6. Were MC, Li X, Kesterson J, et al. Adequacy of hospital discharge summaries in documenting tests with pending results and outpatient follow‐up providers. J Gen Intern Med. 2009;24(9):10021006.
  7. Moore C, McGinn T, Halm E. Tying up loose ends: discharging patients with unresolved medical issues. Arch Intern Med. 2007;167(12):13051311.
  8. Centers for Medicare and Medicaid Services. Condition of participation: medical record services. 42. Vol 482.C.F.R. § 482.24 (2012).
  9. Joint Commission on Accreditation of Healthcare Organizations. Hospital Accreditation Standards. Standard IM 6.10 EP 7–9. Oakbrook Terrace, IL: The Joint Commission; 2008.
  10. Kind AJH, Smith MA. Documentation of mandated discharge summary components in transitions from acute to subacute care. In: Agency for Healthcare Research and Quality, ed. Advances in Patient Safety: New Directions and Alternative Approaches. Vol 2: Culture and Redesign. AHRQ Publication No. 08-0034‐2. Rockville, MD: Agency for Healthcare Research and Quality; 2008:179–188.
  11. Hansen LO, Strater A, Smith L, et al. Hospital discharge documentation and risk of rehospitalisation. BMJ Qual Saf. 2011;20(9):773778.
  12. Halasyamani L, Kripalani S, Coleman E, et al. Transition of care for hospitalized elderly patients‐development of a discharge checklist for hospitalists. J Hosp Med. 2006;1(6):354360.
  13. Snow V, Beck D, Budnitz T, et al. Transitions of Care Consensus Policy Statement American College of Physicians‐Society of General Internal Medicine‐Society of Hospital Medicine‐American Geriatrics Society‐American College of Emergency Physicians‐Society of Academic Emergency Medicine. J Gen Intern Med. 2009;24(8):971976.
  14. Bell CM, Schnipper JL, Auerbach AD, et al. Association of communication between hospital‐based physicians and primary care providers with patient outcomes. J Gen Intern Med. 2009;24(3):381386.
  15. Walraven C, Seth R, Austin PC, Laupacis A. Effect of discharge summary availability during post‐discharge visits on hospital readmission. J Gen Intern Med. 2002;17(3):186192.
  16. Kind AJ, Thorpe CT, Sattin JA, Walz SE, Smith MA. Provider characteristics, clinical‐work processes and their relationship to discharge summary quality for sub‐acute care patients. J Gen Intern Med. 2012;27(1):7884.
  17. Anderson JL, Adams CD, Antman EM, et al. ACC/AHA 2007 guidelines for the management of patients with unstable angina/non‐ST‐elevation myocardial infarction: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the 2002 Guidelines for the Management of Patients With Unstable Angina/Non‐ST‐Elevation Myocardial Infarction) developed in collaboration with the American College of Emergency Physicians, the Society for Cardiovascular Angiography and Interventions, and the Society of Thoracic Surgeons endorsed by the American Association of Cardiovascular and Pulmonary Rehabilitation and the Society for Academic Emergency Medicine. J Am Coll Cardiol. 2007;50(7):e1e157.
  18. Thygesen K, Alpert JS, White HD. Universal definition of myocardial infarction. Eur Heart J. 2007;28(20):25252538.
  19. Dickstein K, Cohen‐Solal A, Filippatos G, et al. ESC guidelines for the diagnosis and treatment of acute and chronic heart failure 2008: the Task Force for the diagnosis and treatment of acute and chronic heart failure 2008 of the European Society of Cardiology. Developed in collaboration with the Heart Failure Association of the ESC (HFA) and endorsed by the European Society of Intensive Care Medicine (ESICM). Eur J Heart Fail. 2008;10(10):933989.
  20. Mandell LA, Wunderink RG, Anzueto A, et al. Infectious Diseases Society of America/American Thoracic Society consensus guidelines on the management of community‐acquired pneumonia in adults. Clin Infect Dis. 2007;44(suppl 2):S27S72.
  21. Sunderland T, Hill JL, Mellow AM, et al. Clock drawing in Alzheimer's disease. A novel measure of dementia severity. J Am Geriatr Soc. 1989;37(8):725729.
  22. Rao P, Andrei A, Fried A, Gonzalez D, Shine D. Assessing quality and efficiency of discharge summaries. Am J Med Qual. 2005;20(6):337343.
  23. Maslove DM, Leiter RE, Griesman J, et al. Electronic versus dictated hospital discharge summaries: a randomized controlled trial. J Gen Intern Med. 2009;24(9):9951001.
  24. Walraven C, Laupacis A, Seth R, Wells G. Dictated versus database‐generated discharge summaries: a randomized clinical trial. CMAJ. 1999;160(3):319326.
  25. Llewelyn DE, Ewins DL, Horn J, Evans TG, McGregor AM. Computerised updating of clinical summaries: new opportunities for clinical practice and research? BMJ. 1988;297(6662):15041506.
  26. Callen JL, Alderton M, McIntosh J. Evaluation of electronic discharge summaries: a comparison of documentation in electronic and handwritten discharge summaries. Int J Med Inform. 2008;77(9):613620.
  27. Davis MM, Devoe M, Kansagara D, Nicolaidis C, Englander H. Did I do as best as the system would let me? Healthcare professional views on hospital to home care transitions. J Gen Intern Med. 2012;27(12):16491656.
  28. Greysen SR, Schiliro D, Curry L, Bradley EH, Horwitz LI. Learning by doing—resident perspectives on developing competency in high‐quality discharge care. J Gen Intern Med. 2012;27(9):11881194.
  29. Greysen SR, Schiliro D, Horwitz LI, Curry L, Bradley EH. Out of sight, out of mind: housestaff perceptions of quality‐limiting factors in discharge care at teaching hospitals. J Hosp Med. 2012;7(5):376381.
  30. Walraven C, Seth R, Laupacis A. Dissemination of discharge summaries. Not reaching follow‐up physicians. Can Fam Physician. 2002;48:737742.
  31. Pantilat SZ, Lindenauer PK, Katz PP, Wachter RM. Primary care physician attitudes regarding communication with hospitalists. Am J Med. 2001;111(9B):15S20S.
  32. Wilson S, Ruscoe W, Chapman M, Miller R. General practitioner‐hospital communications: a review of discharge summaries. J Qual Clin Pract. 2001;21(4):104108.
  33. McMillan TE, Allan W, Black PN. Accuracy of information on medicines in hospital discharge summaries. Intern Med J. 2006;36(4):221225.
  34. Callen J, McIntosh J, Li J. Accuracy of medication documentation in hospital discharge summaries: A retrospective analysis of medication transcription errors in manual and electronic discharge summaries. Int J Med Inform. 2010;79(1):5864.
  35. Ziaeian B, Araujo KL, Ness PH, Horwitz LI. Medication reconciliation accuracy and patient understanding of intended medication changes on hospital discharge. J Gen Intern Med. 2012;27(11):15131520.
References
  1. Alarcon R, Glanville H, Hodson JM. Value of the specialist's report. Br Med J. 1960;2(5213):16631664.
  2. Long A, Atkins JB. Communications between general practitioners and consultants. Br Med J. 1974;4(5942):456459.
  3. Swender PT, Schneider AJ, Oski FA. A functional hospital discharge summary. J Pediatr. 1975;86(1):9798.
  4. Kripalani S, LeFevre F, Phillips CO, Williams MV, Basaviah P, Baker DW. Deficits in communication and information transfer between hospital‐based and primary care physicians: implications for patient safety and continuity of care. JAMA. 2007;297(8):831841.
  5. Roy CL, Poon EG, Karson AS, et al. Patient safety concerns arising from test results that return after hospital discharge. Ann Intern Med. 2005;143(2):121128.
  6. Were MC, Li X, Kesterson J, et al. Adequacy of hospital discharge summaries in documenting tests with pending results and outpatient follow‐up providers. J Gen Intern Med. 2009;24(9):10021006.
  7. Moore C, McGinn T, Halm E. Tying up loose ends: discharging patients with unresolved medical issues. Arch Intern Med. 2007;167(12):13051311.
  8. Centers for Medicare and Medicaid Services. Condition of participation: medical record services. 42. Vol 482.C.F.R. § 482.24 (2012).
  9. Joint Commission on Accreditation of Healthcare Organizations. Hospital Accreditation Standards. Standard IM 6.10 EP 7–9. Oakbrook Terrace, IL: The Joint Commission; 2008.
  10. Kind AJH, Smith MA. Documentation of mandated discharge summary components in transitions from acute to subacute care. In: Agency for Healthcare Research and Quality, ed. Advances in Patient Safety: New Directions and Alternative Approaches. Vol 2: Culture and Redesign. AHRQ Publication No. 08-0034‐2. Rockville, MD: Agency for Healthcare Research and Quality; 2008:179–188.
  11. Hansen LO, Strater A, Smith L, et al. Hospital discharge documentation and risk of rehospitalisation. BMJ Qual Saf. 2011;20(9):773778.
  12. Halasyamani L, Kripalani S, Coleman E, et al. Transition of care for hospitalized elderly patients‐development of a discharge checklist for hospitalists. J Hosp Med. 2006;1(6):354360.
  13. Snow V, Beck D, Budnitz T, et al. Transitions of Care Consensus Policy Statement American College of Physicians‐Society of General Internal Medicine‐Society of Hospital Medicine‐American Geriatrics Society‐American College of Emergency Physicians‐Society of Academic Emergency Medicine. J Gen Intern Med. 2009;24(8):971976.
  14. Bell CM, Schnipper JL, Auerbach AD, et al. Association of communication between hospital‐based physicians and primary care providers with patient outcomes. J Gen Intern Med. 2009;24(3):381386.
  15. Walraven C, Seth R, Austin PC, Laupacis A. Effect of discharge summary availability during post‐discharge visits on hospital readmission. J Gen Intern Med. 2002;17(3):186192.
  16. Kind AJ, Thorpe CT, Sattin JA, Walz SE, Smith MA. Provider characteristics, clinical‐work processes and their relationship to discharge summary quality for sub‐acute care patients. J Gen Intern Med. 2012;27(1):7884.
  17. Anderson JL, Adams CD, Antman EM, et al. ACC/AHA 2007 guidelines for the management of patients with unstable angina/non‐ST‐elevation myocardial infarction: a report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the 2002 Guidelines for the Management of Patients With Unstable Angina/Non‐ST‐Elevation Myocardial Infarction) developed in collaboration with the American College of Emergency Physicians, the Society for Cardiovascular Angiography and Interventions, and the Society of Thoracic Surgeons endorsed by the American Association of Cardiovascular and Pulmonary Rehabilitation and the Society for Academic Emergency Medicine. J Am Coll Cardiol. 2007;50(7):e1e157.
  18. Thygesen K, Alpert JS, White HD. Universal definition of myocardial infarction. Eur Heart J. 2007;28(20):25252538.
  19. Dickstein K, Cohen‐Solal A, Filippatos G, et al. ESC guidelines for the diagnosis and treatment of acute and chronic heart failure 2008: the Task Force for the diagnosis and treatment of acute and chronic heart failure 2008 of the European Society of Cardiology. Developed in collaboration with the Heart Failure Association of the ESC (HFA) and endorsed by the European Society of Intensive Care Medicine (ESICM). Eur J Heart Fail. 2008;10(10):933989.
  20. Mandell LA, Wunderink RG, Anzueto A, et al. Infectious Diseases Society of America/American Thoracic Society consensus guidelines on the management of community‐acquired pneumonia in adults. Clin Infect Dis. 2007;44(suppl 2):S27S72.
  21. Sunderland T, Hill JL, Mellow AM, et al. Clock drawing in Alzheimer's disease. A novel measure of dementia severity. J Am Geriatr Soc. 1989;37(8):725729.
  22. Rao P, Andrei A, Fried A, Gonzalez D, Shine D. Assessing quality and efficiency of discharge summaries. Am J Med Qual. 2005;20(6):337343.
  23. Maslove DM, Leiter RE, Griesman J, et al. Electronic versus dictated hospital discharge summaries: a randomized controlled trial. J Gen Intern Med. 2009;24(9):9951001.
  24. Walraven C, Laupacis A, Seth R, Wells G. Dictated versus database‐generated discharge summaries: a randomized clinical trial. CMAJ. 1999;160(3):319326.
  25. Llewelyn DE, Ewins DL, Horn J, Evans TG, McGregor AM. Computerised updating of clinical summaries: new opportunities for clinical practice and research? BMJ. 1988;297(6662):15041506.
  26. Callen JL, Alderton M, McIntosh J. Evaluation of electronic discharge summaries: a comparison of documentation in electronic and handwritten discharge summaries. Int J Med Inform. 2008;77(9):613620.
  27. Davis MM, Devoe M, Kansagara D, Nicolaidis C, Englander H. Did I do as best as the system would let me? Healthcare professional views on hospital to home care transitions. J Gen Intern Med. 2012;27(12):16491656.
  28. Greysen SR, Schiliro D, Curry L, Bradley EH, Horwitz LI. Learning by doing—resident perspectives on developing competency in high‐quality discharge care. J Gen Intern Med. 2012;27(9):11881194.
  29. Greysen SR, Schiliro D, Horwitz LI, Curry L, Bradley EH. Out of sight, out of mind: housestaff perceptions of quality‐limiting factors in discharge care at teaching hospitals. J Hosp Med. 2012;7(5):376381.
  30. Walraven C, Seth R, Laupacis A. Dissemination of discharge summaries. Not reaching follow‐up physicians. Can Fam Physician. 2002;48:737742.
  31. Pantilat SZ, Lindenauer PK, Katz PP, Wachter RM. Primary care physician attitudes regarding communication with hospitalists. Am J Med. 2001;111(9B):15S20S.
  32. Wilson S, Ruscoe W, Chapman M, Miller R. General practitioner‐hospital communications: a review of discharge summaries. J Qual Clin Pract. 2001;21(4):104108.
  33. McMillan TE, Allan W, Black PN. Accuracy of information on medicines in hospital discharge summaries. Intern Med J. 2006;36(4):221225.
  34. Callen J, McIntosh J, Li J. Accuracy of medication documentation in hospital discharge summaries: A retrospective analysis of medication transcription errors in manual and electronic discharge summaries. Int J Med Inform. 2010;79(1):5864.
  35. Ziaeian B, Araujo KL, Ness PH, Horwitz LI. Medication reconciliation accuracy and patient understanding of intended medication changes on hospital discharge. J Gen Intern Med. 2012;27(11):15131520.
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Address for correspondence and reprint requests: Leora Horwitz, MD, Section of General Internal Medicine, Department of Internal Medicine, Yale School of Medicine, P.O. Box 208093, New Haven, CT 06520-8093; Telephone: 203-688-5678; Fax: 203-737‐3306; E‐mail: [email protected]
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