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METHODS: We used a questionnaire guided by a literature review to identify a conceptual model, current practices, and clinicians who reported having an effective method for at least one of 4 steps in the process of managing laboratory test results. Clinicians with differing methods were selected for each of the steps. Practice audits and patient surveys were used to determine actual performance. On the basis of these audits, we constructed a unified best method and conducted time-motion studies to determine its cost.
RESULTS: After auditing only 4 practices we were able to identify effective methods for 3 of the 4 steps involved in the management of laboratory test results. The unified best method costs approximately $5.19 per set of tests for an individual patient.
CONCLUSIONS: By identifying effective practices within a family practice research network, an effective method was identified for 3 of the 4 steps involved in the management of laboratory test results in primary care settings.
Failure to notify patients of abnormal laboratory test results or to ensure appropriate follow-up can result in inferior patient care and potential malpractice liability.1-5 Failure to document physician review and communication of test results to patients can make defense of a malpractice claim more difficult. Our review of the English-language literature identified only a few studies related to the management and reporting of laboratory test results in primary care.6-10
Boohaker and colleagues9 proposed that there are 4 basic steps involved in managing laboratory test results: tracking tests until results are received; notifying patients of the results; documenting that the notification occurred; and assuring that recommended follow-up occurs for abnormal test results. They surveyed 161 attending physicians and 101 internal medicine and family practice residents at the Henry Ford Hospital in Detroit and 21 suburban primary care practices in southeast Michigan for information on the perceived importance of each step, how each of the steps was handled, and the perceived reliability of the methods used. The percentages of respondents with fair or poor methods or no method for tracking test results were: 17% for blood studies, 27% for Papanicolaou tests, 29% for mammograms, and 32% for X-rays. Approximately 50% felt that it was moderately or extremely important to notify all patients of normal test results. However, only 28% said that they accomplished this. Thirty-six percent admitted that they do not always succeed in notifying patients of abnormal test results. Often this was because patients were expected to return to the clinic soon, or the results were considered trivial. However, patient unavailability, physician forgetfulness, and time constraints were contributing factors as well. Only 55% reported that they always document patient notification of laboratory results. Another 30% said they did so most of the time. Seventy-five percent had a fair or poor method or no method for tracking patients to see if they received recommended follow-up of abnormal test results. A patient survey was conducted in the Internal Medicine Teaching Clinic at Henry Ford Hospital. Seventy-nine percent of patients surveyed wanted to be notified of all test results, whether normal or abnormal.
No one has identified and published a unified method that accomplishes each of the 4 steps effectively and efficiently. We attempted to do so by tapping the collective wisdom of clinician members of the Oklahoma Physicians Resource/Research Network (OKPRN), a network of practicing family physicians throughout Oklahoma.
Methods
Our study was conducted between August 1998 and April 1999. We sent a questionnaire to all 24 physician members of OKPRN. The questions were designed to obtain information about methods being used to address the 4 steps in the process articulated by Boohaker and coworkers9 and their perceived effectiveness. Two clinicians reporting effective methods for a particular step were then chosen for further analysis, with an attempt to choose practices with different methods. Four different physicians’ practices were audited, with several physicians reporting effective methods for more than 1 step. A single research assistant was sent to each practice to perform the audits. During this visit, a 5-minute open-ended interview was also conducted with the physician or the physician’s staff to more precisely describe the method used for the management step being evaluated.
Step 1: Test Tracking
Twenty patients who had been seen by the physician 2 to 6 weeks earlier, who had laboratory tests ordered during that visit, and whose charts were available were chosen at random by the research assistant ([Table 1]). Each patient’s records were reviewed, as was the logbook or tracking device used, following the sequence of procedures described by the physician. All deviations from the procedure were documented.
Step 2: Patient Notification
Twenty patients who had been seen by the physician 2 weeks to 3 months earlier and who had laboratory tests ordered were chosen at random by the research assistant. A letter and a return postcard were sent to each of the patients asking whether they remembered having the test done, whether they were notified of the results, how soon they were notified, whether they were satisfied with the method used to notify them, and whether they had any suggestions for improving the notification process. No attempt was made to contact nonresponders.
Step 3: Documentation of Notification
The research assistant, using the same selection process as for Step 2, reviewed the patients’ charts for evidence of documentation that the results of tests ordered at the index visit had been communicated to the patients.
Step 4: Follow-Up Tracking
Twenty patients who had been seen by the physician 2 to 3 months earlier, who had abnormal test results, and for whom follow-up recommendation had been made, were identified from billing records and encounter forms by the research assistant. Patients asked to follow up at some point beyond the audit date were excluded. Charts were reviewed for evidence that the patients had either followed up as recommended or that the clinic had recognized their failure to follow up and had made an attempt to contact them.
Analysis
We tabulated the audit results. For each step, the 2 methods were compared with each other and with the following performance criteria: (1) >90% satisfactory accomplishment of the step; (2) for step 2, >90% patient notification rate within 2 weeks; and (3) for step 2, >90% patient satisfaction. It was possible to identify effective methods for the first 3 steps in the laboratory test management process. At that point, the research assistant went back to the practices using the more effective methods and observed the time and material costs of implementing each component of the strategy (time-motion study). Each step was directly observed and timed for 5 consecutive sets of laboratory tests for 5 patients seen on the same day. The results were averaged.
Results
Twenty-three of 24 physicians (96%) responded to the questionnaire. A summary of the results is shown in [Table 2]. Eleven of 23 physicians (48%) said that they had a method that worked well for at least 1 of the 4 management steps. Four respondents reported having an effective method for step 1 (tracking test results). All reported using either a laboratory test log, billing slips, or a computerized system. Ten respondents reported having an effective method for step 2 (patient notification of test results). Of these, 5 had their nurse call the patient with test results or discussed the results at a follow-up appointment, and 3 sent the laboratory result with a hand-written note from the physician with or without an additional explanatory form. One mailed a patient-friendly form without the actual test results, and 1 did not elaborate on his method. Ten respondents reported having an effective method for step 3 (documentation of patient notification). The method that all of them reported using for this step was documentation on the laboratory sheet. Only 3 of the respondents reported having an effective method for step 4 (follow-up tracking). Of these, 2 relied on attempts to call no-shows to their offices, and 1 did not elaborate on his method.
Practice Audits
Step 1: Test Tracking At the first practice chosen to evaluate this step, a manifest logbook was used to record all tests sent to an outside laboratory. The nurse who drew the blood was responsible for entering the information in the logbook. In-house laboratory tests were not recorded, as they were generally completed while the patient was in the office. The nurse checked the book daily and marked any outstanding test results with colored self-adhesive notes. When the results came in, the same nurse initialed and dated the entry in the book and removed the note. If the test results were not back within the expected time period (dependent on the test ordered), the nurse called the laboratory and notified the physician if the specimen needed to be obtained again. The nurse initialed laboratory test reports as they came in and took them to the physician for review.
The audit of this method revealed that 15% of the laboratory tests ordered were not recorded in the manifest logbook (the nurse said she must have forgotten to do so), and 5% of the tests sent to outside laboratories were marked received on the log but were not found in the chart. In addition, at least 1 in-house test result was missing from the charts of 15% of patients for whom these tests were ordered.
At the second practice, the physician ordered laboratory tests using a special laboratory billing slip. The nurse made and kept a copy of this slip, sending the original to the laboratory. Practice personnel recorded the laboratory tests in one of 2 logbooks, “path” and “other.” When results came back they were checked off in the logbooks. The books were checked daily (other) or monthly (path) to catch those that were missing. As results came in, the nurse checked them off the billing slip, and when all were back for a particular patient she took them to the physician along with a test results information sheet. The nurse also checked the billing slips every 3 days for most laboratory tests and every 5 to 6 days for “path” and called the laboratory when results were not back in a reasonable period of time.
The audit revealed that 100% of the laboratory tests were listed in the logbook, and 100% of the laboratory test results received were recorded. However, 15% of patients’ charts did not contain the results even though the reports were marked as having been received.
Steps 2 and 3: Notification and Documentation At the first practice chosen to evaluate these steps, the physician instructed the nurse to call all patients with abnormal results to give them instructions regarding follow-up. Patients with normal results or follow-up appointments were not contacted. Those without follow-up appointments were sent a copy of the laboratory report along with any necessary comments from the physician. Calls and mailings were generally handled on the day after the results were received by the clinic. For documentation, the nurse initialed and dated the laboratory form and placed it in the chart.
Of the 20 cards we mailed to patients, 13 were returned (65%). Of these, 92% indicated they had been notified of test results. Fifty-four percent of these had received the results within 1 week, 38% within 1 to 2 weeks, 0% within 2 to 3 weeks, and 8% within 4 weeks after the test was performed. Ninety-two percent of the respondents were satisfied with the method used to notify them of their test results, and no suggestions were offered for improvement. The audit revealed that 40% of the charts had inadequate documentation of patient notification. Of these, 50% of the test results were not initialed, and 50% were not dated.
At the second practice, the physician initialed and dated the laboratory test results form and wrote a note on it to the patient regarding the results. This was copied and mailed to the patient with a generic form describing commonly ordered tests and what they indicate. Patients could call for clarification. The original laboratory report was placed in the chart. Patients were only contacted for urgent matters or if a specimen had to be recollected. For documentation, laboratory sheets were initialed and dated by the nurse and marked “mailed” at the time they were copied and sent to the patient.
Of the 20 cards mailed to patients of the second practice, 9 were returned (45%). Of the patients who responded, 100% indicated they had been notified of test results. Seventy-five percent of these had received the results within 1 week and 25% within 1 to 2 weeks after the test was performed. All of the respondents were satisfied with the method used to notify them of their test results, and no specific suggestions were made. The results of the audit of the second practice for documentation of patient notification revealed 95% of the charts had adequate documentation of patient notification.
Step 4: Follow-Up Tracking At the first practice chosen to evaluate this step, the clinic receptionist had a list of patients scheduled each day to follow up abnormal results. If the patient did not show up, the nurse was notified and an attempt was made to contact the patient by phone or mail. A note was written in the chart that this had been done. If the situation was felt to be serious or if the patient failed to follow up after several attempts, the physician was notified. The results of the audit revealed that 40% of the charts had inadequate documentation of follow-up tracking. Several problems were identified. The longer the delay in recommended follow-up, the less well the tracking system worked. Situations in which the first attempt to contact the patient was unsuccessful were often lost to further attempts at follow-up. There also appeared to be no way to track outside consultations, and the method required a fair amount of judgment by the office staff.
At the second practice, an internal referral form was used to track patients referred within the practice for follow-up of abnormal results. When patients failed to show up for a scheduled follow-up appointment, attempts are made to contact them, and these attempts were recorded on the internal referral form. If several unsuccessful attempts were made to contact the patient, the form came back to the physician. If a patient did not show up for an outside consultation, the consultant usually notified the physician. The results of the audit revealed that 35% of the patients whose charts were reviewed had not followed up as recommended in 3 months, and 10% followed up much later than recommended. None of the charts of those patients who followed up late or not at all contained documentation of attempts to contact the patient. We did not believe that the other physicians’ practices were sufficiently different from these 2 approaches to warrant audit.
Combined Best Method
Considering effectiveness, efficiency, and ease of use, we concluded that a combination approach using the methods from the second practices audited for steps 1, 2, and 3 represented the best method that we could identify within our network for managing those steps. We were not happy with either method audited for step 4. The combined method for steps 1 to 3 is summarized in [Table 3]. The results of the time-motion studies are shown in [Table 4].
Discussion
This is the first attempt that we are aware of to describe an effective method for the comprehensive management of laboratory test results in the primary care setting. The results of the physician survey (Table 3) demonstrate the diversity of methods being used by practicing physicians. Laboratory test results are handled differently by individual practices and by physicians within the same practice. By self-report, a substantial percentage of these physicians fall short of optimal performance in this area.
The method that we propose on the basis of our findings involves a dual registry of tests ordered and returned (laboratory logbook and nurse billing slip copy) and a uniform system for patient notification and documentation. It is possible that in some practices a single-entry system may work, especially if there is a paid laboratory technician who is held accountable to manage this. However, our findings agree with 2 British studies6,7 that also suggest that a single-entry system often does not work adequately. We believe that it is important to have a uniform system with very little decision making required on the part of staff. We also think it important to provide patients with their actual results, not just a report stating they were normal.
We were unsuccessful in identifying a method that is effective for the follow-up of abnormal laboratory test results. Our guess is that this will require some kind of tickler file system with postcards sent to patients who appear to have not followed up as suggested. It may also be that methods could be developed, such as the one described by Del Mar and Wright10 in which the outside laboratory participates in the follow-up process.
We do not claim that our best method is the only method that will work. The number of clinicians surveyed and audited was small, they all practice in the same geographic area, and many of them were trained in the same institution. The response rates on the patient audits for step 2 were only 65% and 45%, raising the possibility that those who did not respond were unhappy with the methods used. Anecdotally, however, we have subsequently implemented steps 2 and 3 in one of our University-based clinics, and they seem to work extremely well. Our nurse loves it, and we have had no patient complaints.
Telephonic methods of managing laboratory test results are now available. These allow physicians to dictate personalized messages to patients about their results. Patients access the information by calling a designated number and using their own personal identification code. Reports are generated for the physician indicating which patients called for results so that another notification method could be used for those who did not. These services typically do not address steps 1 and 4, and it was the feeling of the clinicians in our network who had tried them that the services failed for enough patients that a back-up method was necessary.
The largest portion (43%) of the cost of the method is physician time. In theory this portion is billable within the evaluation and management (E/M) codes. Most practices also charge a laboratory collection fee. Our experience has been that on average a practice can collect approximately $3.00 of an $11.00 collection fee billed to patients’ insurance. This varies by insurance carrier and does not apply to capitated systems. This must cover the costs of test result management and the venopuncture, packaging, and labeling of specimens as well. We estimate that primary care physicians who manage test results lose approximately $5.00 on each set of tests sent out on an individual patient unless they properly incorporate the costs into the E/M charge for the visit.
Since completion of this research, a number of OKPRN clinicians have adopted all or portions of our proposed method and have found that it works extremely well. A further modification has been suggested, which is supported by at least one published study.13 At the time when the test is obtained, patients are asked to write their own address on the envelope to be used to mail results. This assures that the address is correct and saves the nurse time later, reducing the cost by approximately $0.30 per set of tests.
Acknowledgments
We received financial support from the Presbyterian Health Foundation. We are grateful for the contributions of Ed Farrow, MD; Cary Fisher, MD; Marcia Matthews, MD; Paul Louis Preslar, DO; and the staff of the Oklahoma Center for Family Medicine Research.
1. PF. Abnormal laboratory test results: going the extra mile. Nur Prac Forum 1991;2:5-7.
2. R. Who is responsible if a patient is not told of negative lab results? CMAJ 1989;141:970-72.
3. M. Don’t rely on hospitals to report test results. Managed Care 1997;6:43-44,49.-
4. M. Loss prevention. Alaska Med 1991;33:170, 179.-
5. PS. System failures: a malpractice pitfall. Minnesota Med 1987;70:708-09.
6. MH, Barber JH. Use of laboratory services and communication of results to patients in an urban practice: an audit. J R Coll Gen Pract 1988;38:64-66.
7. P. Audit of a system for dealing with a practice’s laboratory test results. Br J Gen Pract 1993;43:383-85.
8. MJ, Sanson-Fisher R, Halpin S, Redman S. Notification and follow-up of Pap test results: current practice and women’s p. Prev Med 1994;23:276-83.
9. EA, Ward RE, Uman JE, McCarthy BD. Patient notification and follow-up of abnormal test results. Arch Intern Med 1996;156:327-31.
10. Mar CB, Wright RG. Notifying women of the results of their cervical smear tests by mail: does it result in a decreased loss to follow-up of abnormal smears? Aust J Pub Health 1995;19:211-13.
11. NS, Pearce J, Phillips LA, Weir S. Replication of clinical innovations in multiple medical practices. Jt Comm J Qual Improv 1998;24:623-39.
12. Cardiovascular Project Best Practices Working Group. Improving care for acute myocardial infarction: experience from the Cooperative Cardiovascular Project. Jt Comm J Qual Improv 1998;24:480-90.
13. RG. Notifying women of the results of their cervical smear tests by mail: does it result in a decreased loss to follow-ups of abnormal smears? Aus J Public Health 1995;19:211-13.
METHODS: We used a questionnaire guided by a literature review to identify a conceptual model, current practices, and clinicians who reported having an effective method for at least one of 4 steps in the process of managing laboratory test results. Clinicians with differing methods were selected for each of the steps. Practice audits and patient surveys were used to determine actual performance. On the basis of these audits, we constructed a unified best method and conducted time-motion studies to determine its cost.
RESULTS: After auditing only 4 practices we were able to identify effective methods for 3 of the 4 steps involved in the management of laboratory test results. The unified best method costs approximately $5.19 per set of tests for an individual patient.
CONCLUSIONS: By identifying effective practices within a family practice research network, an effective method was identified for 3 of the 4 steps involved in the management of laboratory test results in primary care settings.
Failure to notify patients of abnormal laboratory test results or to ensure appropriate follow-up can result in inferior patient care and potential malpractice liability.1-5 Failure to document physician review and communication of test results to patients can make defense of a malpractice claim more difficult. Our review of the English-language literature identified only a few studies related to the management and reporting of laboratory test results in primary care.6-10
Boohaker and colleagues9 proposed that there are 4 basic steps involved in managing laboratory test results: tracking tests until results are received; notifying patients of the results; documenting that the notification occurred; and assuring that recommended follow-up occurs for abnormal test results. They surveyed 161 attending physicians and 101 internal medicine and family practice residents at the Henry Ford Hospital in Detroit and 21 suburban primary care practices in southeast Michigan for information on the perceived importance of each step, how each of the steps was handled, and the perceived reliability of the methods used. The percentages of respondents with fair or poor methods or no method for tracking test results were: 17% for blood studies, 27% for Papanicolaou tests, 29% for mammograms, and 32% for X-rays. Approximately 50% felt that it was moderately or extremely important to notify all patients of normal test results. However, only 28% said that they accomplished this. Thirty-six percent admitted that they do not always succeed in notifying patients of abnormal test results. Often this was because patients were expected to return to the clinic soon, or the results were considered trivial. However, patient unavailability, physician forgetfulness, and time constraints were contributing factors as well. Only 55% reported that they always document patient notification of laboratory results. Another 30% said they did so most of the time. Seventy-five percent had a fair or poor method or no method for tracking patients to see if they received recommended follow-up of abnormal test results. A patient survey was conducted in the Internal Medicine Teaching Clinic at Henry Ford Hospital. Seventy-nine percent of patients surveyed wanted to be notified of all test results, whether normal or abnormal.
No one has identified and published a unified method that accomplishes each of the 4 steps effectively and efficiently. We attempted to do so by tapping the collective wisdom of clinician members of the Oklahoma Physicians Resource/Research Network (OKPRN), a network of practicing family physicians throughout Oklahoma.
Methods
Our study was conducted between August 1998 and April 1999. We sent a questionnaire to all 24 physician members of OKPRN. The questions were designed to obtain information about methods being used to address the 4 steps in the process articulated by Boohaker and coworkers9 and their perceived effectiveness. Two clinicians reporting effective methods for a particular step were then chosen for further analysis, with an attempt to choose practices with different methods. Four different physicians’ practices were audited, with several physicians reporting effective methods for more than 1 step. A single research assistant was sent to each practice to perform the audits. During this visit, a 5-minute open-ended interview was also conducted with the physician or the physician’s staff to more precisely describe the method used for the management step being evaluated.
Step 1: Test Tracking
Twenty patients who had been seen by the physician 2 to 6 weeks earlier, who had laboratory tests ordered during that visit, and whose charts were available were chosen at random by the research assistant ([Table 1]). Each patient’s records were reviewed, as was the logbook or tracking device used, following the sequence of procedures described by the physician. All deviations from the procedure were documented.
Step 2: Patient Notification
Twenty patients who had been seen by the physician 2 weeks to 3 months earlier and who had laboratory tests ordered were chosen at random by the research assistant. A letter and a return postcard were sent to each of the patients asking whether they remembered having the test done, whether they were notified of the results, how soon they were notified, whether they were satisfied with the method used to notify them, and whether they had any suggestions for improving the notification process. No attempt was made to contact nonresponders.
Step 3: Documentation of Notification
The research assistant, using the same selection process as for Step 2, reviewed the patients’ charts for evidence of documentation that the results of tests ordered at the index visit had been communicated to the patients.
Step 4: Follow-Up Tracking
Twenty patients who had been seen by the physician 2 to 3 months earlier, who had abnormal test results, and for whom follow-up recommendation had been made, were identified from billing records and encounter forms by the research assistant. Patients asked to follow up at some point beyond the audit date were excluded. Charts were reviewed for evidence that the patients had either followed up as recommended or that the clinic had recognized their failure to follow up and had made an attempt to contact them.
Analysis
We tabulated the audit results. For each step, the 2 methods were compared with each other and with the following performance criteria: (1) >90% satisfactory accomplishment of the step; (2) for step 2, >90% patient notification rate within 2 weeks; and (3) for step 2, >90% patient satisfaction. It was possible to identify effective methods for the first 3 steps in the laboratory test management process. At that point, the research assistant went back to the practices using the more effective methods and observed the time and material costs of implementing each component of the strategy (time-motion study). Each step was directly observed and timed for 5 consecutive sets of laboratory tests for 5 patients seen on the same day. The results were averaged.
Results
Twenty-three of 24 physicians (96%) responded to the questionnaire. A summary of the results is shown in [Table 2]. Eleven of 23 physicians (48%) said that they had a method that worked well for at least 1 of the 4 management steps. Four respondents reported having an effective method for step 1 (tracking test results). All reported using either a laboratory test log, billing slips, or a computerized system. Ten respondents reported having an effective method for step 2 (patient notification of test results). Of these, 5 had their nurse call the patient with test results or discussed the results at a follow-up appointment, and 3 sent the laboratory result with a hand-written note from the physician with or without an additional explanatory form. One mailed a patient-friendly form without the actual test results, and 1 did not elaborate on his method. Ten respondents reported having an effective method for step 3 (documentation of patient notification). The method that all of them reported using for this step was documentation on the laboratory sheet. Only 3 of the respondents reported having an effective method for step 4 (follow-up tracking). Of these, 2 relied on attempts to call no-shows to their offices, and 1 did not elaborate on his method.
Practice Audits
Step 1: Test Tracking At the first practice chosen to evaluate this step, a manifest logbook was used to record all tests sent to an outside laboratory. The nurse who drew the blood was responsible for entering the information in the logbook. In-house laboratory tests were not recorded, as they were generally completed while the patient was in the office. The nurse checked the book daily and marked any outstanding test results with colored self-adhesive notes. When the results came in, the same nurse initialed and dated the entry in the book and removed the note. If the test results were not back within the expected time period (dependent on the test ordered), the nurse called the laboratory and notified the physician if the specimen needed to be obtained again. The nurse initialed laboratory test reports as they came in and took them to the physician for review.
The audit of this method revealed that 15% of the laboratory tests ordered were not recorded in the manifest logbook (the nurse said she must have forgotten to do so), and 5% of the tests sent to outside laboratories were marked received on the log but were not found in the chart. In addition, at least 1 in-house test result was missing from the charts of 15% of patients for whom these tests were ordered.
At the second practice, the physician ordered laboratory tests using a special laboratory billing slip. The nurse made and kept a copy of this slip, sending the original to the laboratory. Practice personnel recorded the laboratory tests in one of 2 logbooks, “path” and “other.” When results came back they were checked off in the logbooks. The books were checked daily (other) or monthly (path) to catch those that were missing. As results came in, the nurse checked them off the billing slip, and when all were back for a particular patient she took them to the physician along with a test results information sheet. The nurse also checked the billing slips every 3 days for most laboratory tests and every 5 to 6 days for “path” and called the laboratory when results were not back in a reasonable period of time.
The audit revealed that 100% of the laboratory tests were listed in the logbook, and 100% of the laboratory test results received were recorded. However, 15% of patients’ charts did not contain the results even though the reports were marked as having been received.
Steps 2 and 3: Notification and Documentation At the first practice chosen to evaluate these steps, the physician instructed the nurse to call all patients with abnormal results to give them instructions regarding follow-up. Patients with normal results or follow-up appointments were not contacted. Those without follow-up appointments were sent a copy of the laboratory report along with any necessary comments from the physician. Calls and mailings were generally handled on the day after the results were received by the clinic. For documentation, the nurse initialed and dated the laboratory form and placed it in the chart.
Of the 20 cards we mailed to patients, 13 were returned (65%). Of these, 92% indicated they had been notified of test results. Fifty-four percent of these had received the results within 1 week, 38% within 1 to 2 weeks, 0% within 2 to 3 weeks, and 8% within 4 weeks after the test was performed. Ninety-two percent of the respondents were satisfied with the method used to notify them of their test results, and no suggestions were offered for improvement. The audit revealed that 40% of the charts had inadequate documentation of patient notification. Of these, 50% of the test results were not initialed, and 50% were not dated.
At the second practice, the physician initialed and dated the laboratory test results form and wrote a note on it to the patient regarding the results. This was copied and mailed to the patient with a generic form describing commonly ordered tests and what they indicate. Patients could call for clarification. The original laboratory report was placed in the chart. Patients were only contacted for urgent matters or if a specimen had to be recollected. For documentation, laboratory sheets were initialed and dated by the nurse and marked “mailed” at the time they were copied and sent to the patient.
Of the 20 cards mailed to patients of the second practice, 9 were returned (45%). Of the patients who responded, 100% indicated they had been notified of test results. Seventy-five percent of these had received the results within 1 week and 25% within 1 to 2 weeks after the test was performed. All of the respondents were satisfied with the method used to notify them of their test results, and no specific suggestions were made. The results of the audit of the second practice for documentation of patient notification revealed 95% of the charts had adequate documentation of patient notification.
Step 4: Follow-Up Tracking At the first practice chosen to evaluate this step, the clinic receptionist had a list of patients scheduled each day to follow up abnormal results. If the patient did not show up, the nurse was notified and an attempt was made to contact the patient by phone or mail. A note was written in the chart that this had been done. If the situation was felt to be serious or if the patient failed to follow up after several attempts, the physician was notified. The results of the audit revealed that 40% of the charts had inadequate documentation of follow-up tracking. Several problems were identified. The longer the delay in recommended follow-up, the less well the tracking system worked. Situations in which the first attempt to contact the patient was unsuccessful were often lost to further attempts at follow-up. There also appeared to be no way to track outside consultations, and the method required a fair amount of judgment by the office staff.
At the second practice, an internal referral form was used to track patients referred within the practice for follow-up of abnormal results. When patients failed to show up for a scheduled follow-up appointment, attempts are made to contact them, and these attempts were recorded on the internal referral form. If several unsuccessful attempts were made to contact the patient, the form came back to the physician. If a patient did not show up for an outside consultation, the consultant usually notified the physician. The results of the audit revealed that 35% of the patients whose charts were reviewed had not followed up as recommended in 3 months, and 10% followed up much later than recommended. None of the charts of those patients who followed up late or not at all contained documentation of attempts to contact the patient. We did not believe that the other physicians’ practices were sufficiently different from these 2 approaches to warrant audit.
Combined Best Method
Considering effectiveness, efficiency, and ease of use, we concluded that a combination approach using the methods from the second practices audited for steps 1, 2, and 3 represented the best method that we could identify within our network for managing those steps. We were not happy with either method audited for step 4. The combined method for steps 1 to 3 is summarized in [Table 3]. The results of the time-motion studies are shown in [Table 4].
Discussion
This is the first attempt that we are aware of to describe an effective method for the comprehensive management of laboratory test results in the primary care setting. The results of the physician survey (Table 3) demonstrate the diversity of methods being used by practicing physicians. Laboratory test results are handled differently by individual practices and by physicians within the same practice. By self-report, a substantial percentage of these physicians fall short of optimal performance in this area.
The method that we propose on the basis of our findings involves a dual registry of tests ordered and returned (laboratory logbook and nurse billing slip copy) and a uniform system for patient notification and documentation. It is possible that in some practices a single-entry system may work, especially if there is a paid laboratory technician who is held accountable to manage this. However, our findings agree with 2 British studies6,7 that also suggest that a single-entry system often does not work adequately. We believe that it is important to have a uniform system with very little decision making required on the part of staff. We also think it important to provide patients with their actual results, not just a report stating they were normal.
We were unsuccessful in identifying a method that is effective for the follow-up of abnormal laboratory test results. Our guess is that this will require some kind of tickler file system with postcards sent to patients who appear to have not followed up as suggested. It may also be that methods could be developed, such as the one described by Del Mar and Wright10 in which the outside laboratory participates in the follow-up process.
We do not claim that our best method is the only method that will work. The number of clinicians surveyed and audited was small, they all practice in the same geographic area, and many of them were trained in the same institution. The response rates on the patient audits for step 2 were only 65% and 45%, raising the possibility that those who did not respond were unhappy with the methods used. Anecdotally, however, we have subsequently implemented steps 2 and 3 in one of our University-based clinics, and they seem to work extremely well. Our nurse loves it, and we have had no patient complaints.
Telephonic methods of managing laboratory test results are now available. These allow physicians to dictate personalized messages to patients about their results. Patients access the information by calling a designated number and using their own personal identification code. Reports are generated for the physician indicating which patients called for results so that another notification method could be used for those who did not. These services typically do not address steps 1 and 4, and it was the feeling of the clinicians in our network who had tried them that the services failed for enough patients that a back-up method was necessary.
The largest portion (43%) of the cost of the method is physician time. In theory this portion is billable within the evaluation and management (E/M) codes. Most practices also charge a laboratory collection fee. Our experience has been that on average a practice can collect approximately $3.00 of an $11.00 collection fee billed to patients’ insurance. This varies by insurance carrier and does not apply to capitated systems. This must cover the costs of test result management and the venopuncture, packaging, and labeling of specimens as well. We estimate that primary care physicians who manage test results lose approximately $5.00 on each set of tests sent out on an individual patient unless they properly incorporate the costs into the E/M charge for the visit.
Since completion of this research, a number of OKPRN clinicians have adopted all or portions of our proposed method and have found that it works extremely well. A further modification has been suggested, which is supported by at least one published study.13 At the time when the test is obtained, patients are asked to write their own address on the envelope to be used to mail results. This assures that the address is correct and saves the nurse time later, reducing the cost by approximately $0.30 per set of tests.
Acknowledgments
We received financial support from the Presbyterian Health Foundation. We are grateful for the contributions of Ed Farrow, MD; Cary Fisher, MD; Marcia Matthews, MD; Paul Louis Preslar, DO; and the staff of the Oklahoma Center for Family Medicine Research.
METHODS: We used a questionnaire guided by a literature review to identify a conceptual model, current practices, and clinicians who reported having an effective method for at least one of 4 steps in the process of managing laboratory test results. Clinicians with differing methods were selected for each of the steps. Practice audits and patient surveys were used to determine actual performance. On the basis of these audits, we constructed a unified best method and conducted time-motion studies to determine its cost.
RESULTS: After auditing only 4 practices we were able to identify effective methods for 3 of the 4 steps involved in the management of laboratory test results. The unified best method costs approximately $5.19 per set of tests for an individual patient.
CONCLUSIONS: By identifying effective practices within a family practice research network, an effective method was identified for 3 of the 4 steps involved in the management of laboratory test results in primary care settings.
Failure to notify patients of abnormal laboratory test results or to ensure appropriate follow-up can result in inferior patient care and potential malpractice liability.1-5 Failure to document physician review and communication of test results to patients can make defense of a malpractice claim more difficult. Our review of the English-language literature identified only a few studies related to the management and reporting of laboratory test results in primary care.6-10
Boohaker and colleagues9 proposed that there are 4 basic steps involved in managing laboratory test results: tracking tests until results are received; notifying patients of the results; documenting that the notification occurred; and assuring that recommended follow-up occurs for abnormal test results. They surveyed 161 attending physicians and 101 internal medicine and family practice residents at the Henry Ford Hospital in Detroit and 21 suburban primary care practices in southeast Michigan for information on the perceived importance of each step, how each of the steps was handled, and the perceived reliability of the methods used. The percentages of respondents with fair or poor methods or no method for tracking test results were: 17% for blood studies, 27% for Papanicolaou tests, 29% for mammograms, and 32% for X-rays. Approximately 50% felt that it was moderately or extremely important to notify all patients of normal test results. However, only 28% said that they accomplished this. Thirty-six percent admitted that they do not always succeed in notifying patients of abnormal test results. Often this was because patients were expected to return to the clinic soon, or the results were considered trivial. However, patient unavailability, physician forgetfulness, and time constraints were contributing factors as well. Only 55% reported that they always document patient notification of laboratory results. Another 30% said they did so most of the time. Seventy-five percent had a fair or poor method or no method for tracking patients to see if they received recommended follow-up of abnormal test results. A patient survey was conducted in the Internal Medicine Teaching Clinic at Henry Ford Hospital. Seventy-nine percent of patients surveyed wanted to be notified of all test results, whether normal or abnormal.
No one has identified and published a unified method that accomplishes each of the 4 steps effectively and efficiently. We attempted to do so by tapping the collective wisdom of clinician members of the Oklahoma Physicians Resource/Research Network (OKPRN), a network of practicing family physicians throughout Oklahoma.
Methods
Our study was conducted between August 1998 and April 1999. We sent a questionnaire to all 24 physician members of OKPRN. The questions were designed to obtain information about methods being used to address the 4 steps in the process articulated by Boohaker and coworkers9 and their perceived effectiveness. Two clinicians reporting effective methods for a particular step were then chosen for further analysis, with an attempt to choose practices with different methods. Four different physicians’ practices were audited, with several physicians reporting effective methods for more than 1 step. A single research assistant was sent to each practice to perform the audits. During this visit, a 5-minute open-ended interview was also conducted with the physician or the physician’s staff to more precisely describe the method used for the management step being evaluated.
Step 1: Test Tracking
Twenty patients who had been seen by the physician 2 to 6 weeks earlier, who had laboratory tests ordered during that visit, and whose charts were available were chosen at random by the research assistant ([Table 1]). Each patient’s records were reviewed, as was the logbook or tracking device used, following the sequence of procedures described by the physician. All deviations from the procedure were documented.
Step 2: Patient Notification
Twenty patients who had been seen by the physician 2 weeks to 3 months earlier and who had laboratory tests ordered were chosen at random by the research assistant. A letter and a return postcard were sent to each of the patients asking whether they remembered having the test done, whether they were notified of the results, how soon they were notified, whether they were satisfied with the method used to notify them, and whether they had any suggestions for improving the notification process. No attempt was made to contact nonresponders.
Step 3: Documentation of Notification
The research assistant, using the same selection process as for Step 2, reviewed the patients’ charts for evidence of documentation that the results of tests ordered at the index visit had been communicated to the patients.
Step 4: Follow-Up Tracking
Twenty patients who had been seen by the physician 2 to 3 months earlier, who had abnormal test results, and for whom follow-up recommendation had been made, were identified from billing records and encounter forms by the research assistant. Patients asked to follow up at some point beyond the audit date were excluded. Charts were reviewed for evidence that the patients had either followed up as recommended or that the clinic had recognized their failure to follow up and had made an attempt to contact them.
Analysis
We tabulated the audit results. For each step, the 2 methods were compared with each other and with the following performance criteria: (1) >90% satisfactory accomplishment of the step; (2) for step 2, >90% patient notification rate within 2 weeks; and (3) for step 2, >90% patient satisfaction. It was possible to identify effective methods for the first 3 steps in the laboratory test management process. At that point, the research assistant went back to the practices using the more effective methods and observed the time and material costs of implementing each component of the strategy (time-motion study). Each step was directly observed and timed for 5 consecutive sets of laboratory tests for 5 patients seen on the same day. The results were averaged.
Results
Twenty-three of 24 physicians (96%) responded to the questionnaire. A summary of the results is shown in [Table 2]. Eleven of 23 physicians (48%) said that they had a method that worked well for at least 1 of the 4 management steps. Four respondents reported having an effective method for step 1 (tracking test results). All reported using either a laboratory test log, billing slips, or a computerized system. Ten respondents reported having an effective method for step 2 (patient notification of test results). Of these, 5 had their nurse call the patient with test results or discussed the results at a follow-up appointment, and 3 sent the laboratory result with a hand-written note from the physician with or without an additional explanatory form. One mailed a patient-friendly form without the actual test results, and 1 did not elaborate on his method. Ten respondents reported having an effective method for step 3 (documentation of patient notification). The method that all of them reported using for this step was documentation on the laboratory sheet. Only 3 of the respondents reported having an effective method for step 4 (follow-up tracking). Of these, 2 relied on attempts to call no-shows to their offices, and 1 did not elaborate on his method.
Practice Audits
Step 1: Test Tracking At the first practice chosen to evaluate this step, a manifest logbook was used to record all tests sent to an outside laboratory. The nurse who drew the blood was responsible for entering the information in the logbook. In-house laboratory tests were not recorded, as they were generally completed while the patient was in the office. The nurse checked the book daily and marked any outstanding test results with colored self-adhesive notes. When the results came in, the same nurse initialed and dated the entry in the book and removed the note. If the test results were not back within the expected time period (dependent on the test ordered), the nurse called the laboratory and notified the physician if the specimen needed to be obtained again. The nurse initialed laboratory test reports as they came in and took them to the physician for review.
The audit of this method revealed that 15% of the laboratory tests ordered were not recorded in the manifest logbook (the nurse said she must have forgotten to do so), and 5% of the tests sent to outside laboratories were marked received on the log but were not found in the chart. In addition, at least 1 in-house test result was missing from the charts of 15% of patients for whom these tests were ordered.
At the second practice, the physician ordered laboratory tests using a special laboratory billing slip. The nurse made and kept a copy of this slip, sending the original to the laboratory. Practice personnel recorded the laboratory tests in one of 2 logbooks, “path” and “other.” When results came back they were checked off in the logbooks. The books were checked daily (other) or monthly (path) to catch those that were missing. As results came in, the nurse checked them off the billing slip, and when all were back for a particular patient she took them to the physician along with a test results information sheet. The nurse also checked the billing slips every 3 days for most laboratory tests and every 5 to 6 days for “path” and called the laboratory when results were not back in a reasonable period of time.
The audit revealed that 100% of the laboratory tests were listed in the logbook, and 100% of the laboratory test results received were recorded. However, 15% of patients’ charts did not contain the results even though the reports were marked as having been received.
Steps 2 and 3: Notification and Documentation At the first practice chosen to evaluate these steps, the physician instructed the nurse to call all patients with abnormal results to give them instructions regarding follow-up. Patients with normal results or follow-up appointments were not contacted. Those without follow-up appointments were sent a copy of the laboratory report along with any necessary comments from the physician. Calls and mailings were generally handled on the day after the results were received by the clinic. For documentation, the nurse initialed and dated the laboratory form and placed it in the chart.
Of the 20 cards we mailed to patients, 13 were returned (65%). Of these, 92% indicated they had been notified of test results. Fifty-four percent of these had received the results within 1 week, 38% within 1 to 2 weeks, 0% within 2 to 3 weeks, and 8% within 4 weeks after the test was performed. Ninety-two percent of the respondents were satisfied with the method used to notify them of their test results, and no suggestions were offered for improvement. The audit revealed that 40% of the charts had inadequate documentation of patient notification. Of these, 50% of the test results were not initialed, and 50% were not dated.
At the second practice, the physician initialed and dated the laboratory test results form and wrote a note on it to the patient regarding the results. This was copied and mailed to the patient with a generic form describing commonly ordered tests and what they indicate. Patients could call for clarification. The original laboratory report was placed in the chart. Patients were only contacted for urgent matters or if a specimen had to be recollected. For documentation, laboratory sheets were initialed and dated by the nurse and marked “mailed” at the time they were copied and sent to the patient.
Of the 20 cards mailed to patients of the second practice, 9 were returned (45%). Of the patients who responded, 100% indicated they had been notified of test results. Seventy-five percent of these had received the results within 1 week and 25% within 1 to 2 weeks after the test was performed. All of the respondents were satisfied with the method used to notify them of their test results, and no specific suggestions were made. The results of the audit of the second practice for documentation of patient notification revealed 95% of the charts had adequate documentation of patient notification.
Step 4: Follow-Up Tracking At the first practice chosen to evaluate this step, the clinic receptionist had a list of patients scheduled each day to follow up abnormal results. If the patient did not show up, the nurse was notified and an attempt was made to contact the patient by phone or mail. A note was written in the chart that this had been done. If the situation was felt to be serious or if the patient failed to follow up after several attempts, the physician was notified. The results of the audit revealed that 40% of the charts had inadequate documentation of follow-up tracking. Several problems were identified. The longer the delay in recommended follow-up, the less well the tracking system worked. Situations in which the first attempt to contact the patient was unsuccessful were often lost to further attempts at follow-up. There also appeared to be no way to track outside consultations, and the method required a fair amount of judgment by the office staff.
At the second practice, an internal referral form was used to track patients referred within the practice for follow-up of abnormal results. When patients failed to show up for a scheduled follow-up appointment, attempts are made to contact them, and these attempts were recorded on the internal referral form. If several unsuccessful attempts were made to contact the patient, the form came back to the physician. If a patient did not show up for an outside consultation, the consultant usually notified the physician. The results of the audit revealed that 35% of the patients whose charts were reviewed had not followed up as recommended in 3 months, and 10% followed up much later than recommended. None of the charts of those patients who followed up late or not at all contained documentation of attempts to contact the patient. We did not believe that the other physicians’ practices were sufficiently different from these 2 approaches to warrant audit.
Combined Best Method
Considering effectiveness, efficiency, and ease of use, we concluded that a combination approach using the methods from the second practices audited for steps 1, 2, and 3 represented the best method that we could identify within our network for managing those steps. We were not happy with either method audited for step 4. The combined method for steps 1 to 3 is summarized in [Table 3]. The results of the time-motion studies are shown in [Table 4].
Discussion
This is the first attempt that we are aware of to describe an effective method for the comprehensive management of laboratory test results in the primary care setting. The results of the physician survey (Table 3) demonstrate the diversity of methods being used by practicing physicians. Laboratory test results are handled differently by individual practices and by physicians within the same practice. By self-report, a substantial percentage of these physicians fall short of optimal performance in this area.
The method that we propose on the basis of our findings involves a dual registry of tests ordered and returned (laboratory logbook and nurse billing slip copy) and a uniform system for patient notification and documentation. It is possible that in some practices a single-entry system may work, especially if there is a paid laboratory technician who is held accountable to manage this. However, our findings agree with 2 British studies6,7 that also suggest that a single-entry system often does not work adequately. We believe that it is important to have a uniform system with very little decision making required on the part of staff. We also think it important to provide patients with their actual results, not just a report stating they were normal.
We were unsuccessful in identifying a method that is effective for the follow-up of abnormal laboratory test results. Our guess is that this will require some kind of tickler file system with postcards sent to patients who appear to have not followed up as suggested. It may also be that methods could be developed, such as the one described by Del Mar and Wright10 in which the outside laboratory participates in the follow-up process.
We do not claim that our best method is the only method that will work. The number of clinicians surveyed and audited was small, they all practice in the same geographic area, and many of them were trained in the same institution. The response rates on the patient audits for step 2 were only 65% and 45%, raising the possibility that those who did not respond were unhappy with the methods used. Anecdotally, however, we have subsequently implemented steps 2 and 3 in one of our University-based clinics, and they seem to work extremely well. Our nurse loves it, and we have had no patient complaints.
Telephonic methods of managing laboratory test results are now available. These allow physicians to dictate personalized messages to patients about their results. Patients access the information by calling a designated number and using their own personal identification code. Reports are generated for the physician indicating which patients called for results so that another notification method could be used for those who did not. These services typically do not address steps 1 and 4, and it was the feeling of the clinicians in our network who had tried them that the services failed for enough patients that a back-up method was necessary.
The largest portion (43%) of the cost of the method is physician time. In theory this portion is billable within the evaluation and management (E/M) codes. Most practices also charge a laboratory collection fee. Our experience has been that on average a practice can collect approximately $3.00 of an $11.00 collection fee billed to patients’ insurance. This varies by insurance carrier and does not apply to capitated systems. This must cover the costs of test result management and the venopuncture, packaging, and labeling of specimens as well. We estimate that primary care physicians who manage test results lose approximately $5.00 on each set of tests sent out on an individual patient unless they properly incorporate the costs into the E/M charge for the visit.
Since completion of this research, a number of OKPRN clinicians have adopted all or portions of our proposed method and have found that it works extremely well. A further modification has been suggested, which is supported by at least one published study.13 At the time when the test is obtained, patients are asked to write their own address on the envelope to be used to mail results. This assures that the address is correct and saves the nurse time later, reducing the cost by approximately $0.30 per set of tests.
Acknowledgments
We received financial support from the Presbyterian Health Foundation. We are grateful for the contributions of Ed Farrow, MD; Cary Fisher, MD; Marcia Matthews, MD; Paul Louis Preslar, DO; and the staff of the Oklahoma Center for Family Medicine Research.
1. PF. Abnormal laboratory test results: going the extra mile. Nur Prac Forum 1991;2:5-7.
2. R. Who is responsible if a patient is not told of negative lab results? CMAJ 1989;141:970-72.
3. M. Don’t rely on hospitals to report test results. Managed Care 1997;6:43-44,49.-
4. M. Loss prevention. Alaska Med 1991;33:170, 179.-
5. PS. System failures: a malpractice pitfall. Minnesota Med 1987;70:708-09.
6. MH, Barber JH. Use of laboratory services and communication of results to patients in an urban practice: an audit. J R Coll Gen Pract 1988;38:64-66.
7. P. Audit of a system for dealing with a practice’s laboratory test results. Br J Gen Pract 1993;43:383-85.
8. MJ, Sanson-Fisher R, Halpin S, Redman S. Notification and follow-up of Pap test results: current practice and women’s p. Prev Med 1994;23:276-83.
9. EA, Ward RE, Uman JE, McCarthy BD. Patient notification and follow-up of abnormal test results. Arch Intern Med 1996;156:327-31.
10. Mar CB, Wright RG. Notifying women of the results of their cervical smear tests by mail: does it result in a decreased loss to follow-up of abnormal smears? Aust J Pub Health 1995;19:211-13.
11. NS, Pearce J, Phillips LA, Weir S. Replication of clinical innovations in multiple medical practices. Jt Comm J Qual Improv 1998;24:623-39.
12. Cardiovascular Project Best Practices Working Group. Improving care for acute myocardial infarction: experience from the Cooperative Cardiovascular Project. Jt Comm J Qual Improv 1998;24:480-90.
13. RG. Notifying women of the results of their cervical smear tests by mail: does it result in a decreased loss to follow-ups of abnormal smears? Aus J Public Health 1995;19:211-13.
1. PF. Abnormal laboratory test results: going the extra mile. Nur Prac Forum 1991;2:5-7.
2. R. Who is responsible if a patient is not told of negative lab results? CMAJ 1989;141:970-72.
3. M. Don’t rely on hospitals to report test results. Managed Care 1997;6:43-44,49.-
4. M. Loss prevention. Alaska Med 1991;33:170, 179.-
5. PS. System failures: a malpractice pitfall. Minnesota Med 1987;70:708-09.
6. MH, Barber JH. Use of laboratory services and communication of results to patients in an urban practice: an audit. J R Coll Gen Pract 1988;38:64-66.
7. P. Audit of a system for dealing with a practice’s laboratory test results. Br J Gen Pract 1993;43:383-85.
8. MJ, Sanson-Fisher R, Halpin S, Redman S. Notification and follow-up of Pap test results: current practice and women’s p. Prev Med 1994;23:276-83.
9. EA, Ward RE, Uman JE, McCarthy BD. Patient notification and follow-up of abnormal test results. Arch Intern Med 1996;156:327-31.
10. Mar CB, Wright RG. Notifying women of the results of their cervical smear tests by mail: does it result in a decreased loss to follow-up of abnormal smears? Aust J Pub Health 1995;19:211-13.
11. NS, Pearce J, Phillips LA, Weir S. Replication of clinical innovations in multiple medical practices. Jt Comm J Qual Improv 1998;24:623-39.
12. Cardiovascular Project Best Practices Working Group. Improving care for acute myocardial infarction: experience from the Cooperative Cardiovascular Project. Jt Comm J Qual Improv 1998;24:480-90.
13. RG. Notifying women of the results of their cervical smear tests by mail: does it result in a decreased loss to follow-ups of abnormal smears? Aus J Public Health 1995;19:211-13.