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“Enough English” to be at risk
A hectic Friday morning at the hospital seemed less stressful amid morning greetings and humor from colleagues. In a team room full of hospitalists, life and death are often discussed in detail, ranging from medical discussions to joys and frustrations of the day to philosophy, politics, and more. It is almost impossible to miss something interesting.
People breaking into their native languages over the phone call from home always make me smile. The mention of a “complicated Indian patient unable to use interpreter” caught my attention.
My friend and colleague asked if I would be willing to take over the patient since I could speak Hindi. I was doubtful if I would add anything to make a meaningful difference, given the patient wasn’t even participating in a conversation. However, my colleague’s concern for the patient and faith in me was enough to say, “Sure, let me add her to my list.”
At the bedside, it felt like a classic “acute on chronic” hot mess situation. The patient presented with a generalized rash, anasarca, renal failure, multifocal pneumonia, and delirium. All I could gather from the patient were some incomprehensible words that sounded like Hindi. I called the family to obtain some history and to provide updates. Her son was excited to hear from me, and it didn’t take him long to guess that I was from India. But that could still mean that I might speak any of the twenty-two or more Indian languages.
Answering my questions one by one in perfectly understandable English, he was short and sweet. Suspicious of missing out on details, I offered hesitantly, “You could speak in Hindi with me.” Then came a flood of information with the details, concerns, questions, and what was lost in the translation.
We all attend to patients and families with limited English proficiency (LEP), immigrants, and nonimmigrants. LEP is a term used to describe individuals who do not speak English as their primary language and have a limited ability to read, speak, write, or understand English.1 Recent data from the American Community Survey (2005-2009) reports that 8.6% of the population (24 million Americans) have LEP.2 It’s a large and growing population that needs help overcoming language barriers and the appropriate use of professional medical interpreter services – a backbone to safe, quality, and cost-effective patient care.
The following day at bedside rounds, the nurse reported that the patient was looking and responding better. She could cooperate with interpreter services and could speak “some English.” Over the years, one thing that sounds more alarming than “no English” is “some English” or “enough English.” Around noon I received a page that the patient was refusing intravenous Lasix. At the bedside, however, the patient seemed unaware of the perceived refusal. Further discussions with the nurse lead to a familiar culprit, a relatively common gesture in South Asian cultures, a head bobble or shake.
The nurse reported that the patient shook her head side to side, seemed upset, and said “NO” when trying to administer the medication. On the other hand, the patient reported that she was upset to be at the hospital but had “NO” problem with the medicine.
My patient’s “some English” was indeed “enough English” to put her at risk due to medical error, which is highly likely when patients or providers can speak or understand a language to “get by” or to “make do.” Like my patient, the LEP patient population is more likely to experience medical errors, longer hospital stays, hospital-acquired complications, surgical delays, and readmissions. They are also less likely to receive preventive care, have access to regular care, or be satisfied with their care. They are much more likely to have adverse effects from drug complications, poor understanding of diagnoses, a greater risk of being misunderstood by their physicians or ancillary staff, and less likely to follow physician instructions.3-5 One study analyzed over 1,000 adverse-incident reports from six Joint Commission-accredited hospitals for LEP and English-speaking patients and found that 49% of LEP patients experienced physical harm versus 29.5% of English-speaking patients.6
I updated the patient’s LEP status that was missing in the chart, likely due to altered mental status at the time of admission. Reliable language and English proficiency data are usually entered at the patient’s point of entry with documentation of the language services required during the patient-provider encounter. The U.S. Census Bureau’s operational definition for LEP is a patient’s self-assessed ability to speak English less than “very well,” but how well it correlates with a patient’s actual English ability needs more study. Also, one’s self-assessed perception of ability might vary day to day, and language ability, by itself, is not static; it can differ from moment to moment and situation to situation. It may be easier to understand words in English when the situation is simple and less stressful than when things are complicated and stressful.
With a definition of LEP rather vague and the term somewhat derogatory, its meaning is open to interpretation. One study found that though speaking English less than “very well” was the most sensitive measure for identifying all of the patients who reported that they were unable to communicate effectively with their physicians, it was also the least specific.7 This lower specificity could lead to misclassification of some patients as LEP who are, in fact, able to effectively communicate in English with their physicians. This type of misclassification might lead to costly language assistance and carry the potential to cause conflicts between patient and provider. Telling a patient or family that they may have a “limited English proficiency” when they have believed otherwise and feel confident about their skills may come as a challenge. Some patients may also pretend to understand English to avoid being embarrassed about their linguistic abilities or perceive that they might be judged on their abilities in general.
Exiting the room, I gently reminded the RN to use the interpreter services. “Who has never been guilty of using an ad hoc interpreter or rushing through a long interpreter phone call due to time constraints?” I thought. A study from 2011 found that 43% of hospitalized patients with LEP had communicated without an interpreter present during admission, and 40% had communicated without an interpreter present after admission.8 In other words, a system in place does not mean service in use. But, the use of a trained interpreter is not only an obligation for care providers but a right for patients as per legal requirements of Title VI of the Civil Rights Act and the Standards for Culturally and Linguistically Appropriate Services (CLAS) by the Department of Health and Human Services’ (HSS) Office of Minority Health.9 In January 2010, The Joint Commission released a set of new and revised standards for patient-centered communication as part of an initiative to advance effective communication, cultural competence, and patient- and family-centered care.
Despite the requirements and availability of qualified medical interpreter services, there are multiple perceived and experienced barriers to the use of interpreter services. The most common one is that what comes as a free service for patients is a time commitment for providers. A long list of patients, acuity of the situation, and ease of use/availability of translation aids can change the calculus. One may be able to bill a prolonged service code (99354-99357) in addition to the appropriate E/M code, although a patient cannot be billed for the actual service provided by the interpreter. Longstanding CMS policy also permits reimbursement for translation/interpretation activities, so long as they are not included and paid for as part of the rate for direct service.10
The patient, however, insisted that she would rather have her son as the interpreter on the 3-way over the phone (OPI) conference call for interpretation. “He speaks good English and knows my medical history well,” she said. I counseled the patient on the benefits of using interpreter services and explained how to use the call button light and the visual aids.
Placing emphasis on educating patients about the benefits of using, and risks of not using, interpreter services is as essential as emphasizing that care providers use the services. Some patients may voluntarily choose to provide their own interpreter. Use of family members, friends, or unqualified staff as interpreters is one of the most commonly reported causes of errors by frontline staff. Using in-language collateral may help these patients understand how medical interpretation may create a better patient experience and outcome. A short factsheet, in different languages, on qualified interpreters’ expected benefits: meaning-for-meaning communication, impartiality, medical privacy, and improved patient safety and satisfaction, can also come in handy.
However, if the patient still refuses, providers should document the refusal of the offer of free language services, the name of the interpreter designated by the patient, the interpreter’s relationship to the LEP person, and the time or portions of the patient encounter that the interpreter’s services were used. Yet, language interpretation alone can be inadequate without document translation. According to one study, despite the availability of on-site professional interpreter services, hospitalized patients who do not speak English are less likely to have signed consent forms in their medical records.11 Health care professionals, therefore, need well-translated documents to treat LEP patients. Translated documents of consent forms for medical procedures, post-discharge instructions, prescription and medical device labels, and drug usage information may enhance informed decision making, safety and reduce stress and medical errors.
An unpopular and underused service needs it all: availability, convenience, monitoring, reporting, and team effort. Due to the sheer unpopularity and underuse of interpreter services, institutions should enhance ease of availability, monitor the use and quality of interpreter services, and optimize reporting of language-related errors. Ease of availability goes hand in hand with tapping local resources. Over the years, and even more so during the pandemic, in-person interpretation has transitioned to telephonic or video interpretation due to availability, safety, and cost issues. There are challenges in translating a language, and the absence of a visual channel adds another layer of complexity.
The current body of evidence does not indicate a superior interpreting method. Still, in one study providers and interpreters exposed to all three methods were more critical of remote methods and preferred videoconferencing to the telephone as a remote method. The significantly shorter phone interviews raised questions about the prospects of miscommunication in telephonic interpretation, given the absence of a visual channel.12
One way to bypass language barriers is to recognize the value added by hiring and training bilingual health care providers and fostering cultural competence. International medical graduates in many parts of the country aid in closing language barriers. Language-concordant care enhances trust between patients and physicians, optimizes health outcomes, and advances health equity for diverse populations.13-15 The presence of bilingual providers means more effective and timelier communication and improved patient satisfaction. But, according to a Doximity study, there is a significant “language gap” between those languages spoken by physicians and their patients.16 Hospitals, therefore, should assess, qualify, and incentivize staff who can serve as on-site medical interpreters for patients as a means to facilitate language concordant care for LEP patients.
The Agency of Healthcare Research and Quality (AHRQ) also has a guide on how hospitals can better identify, report, monitor, and prevent medical errors in patients with LEP. Included is the TeamSTEPPS LEP module to help develop and deploy a customized plan to train staff in teamwork skills and lead a medical teamwork improvement initiative.17
“Without my family, I was scared that nobody would understand me”
Back to the case. My patient was recovering well, and I was tying up loose ends on the switch day for the hospitalist teams.
“You will likely be discharged in a couple of days,” I said. She and the family were grateful and satisfied with the care. She had used the interpreter services and also received ethnocultural and language concordant and culturally competent care. Reducing language barriers is one of the crucial ways to reduce racial and ethnic disparities in quality of care and health outcomes, and it starts – in many cases – with identifying LEP patients. Proper use and monitoring of interpreter services, reporting language-related errors, hiring and testing bilingual staff’s language proficiency, and educating staff on cultural awareness are essential strategies for caring for LEP patients.
At my weeks’ end, in my handoff note to the incoming providers, I highlighted: “Patient will benefit from a Hindi speaking provider, Limited English Proficiency.”
Dr. Saigal is a hospitalist and clinical assistant professor of medicine in the division of hospital medicine at the Ohio State University Wexner Medical Center, Columbus.
References
1. Questions and Answers. Limited English Proficiency: A federal interagency website. www.lep.gov/commonly-asked-questions.
2. United States Census Bureau. Percent of people 5 years and over who speak English less than ‘very well’. www.census.gov/library/visualizations/interactive/people-that-speak-english-less-than-very-well.html.
3. Jacobs EA, et al. Overcoming language barriers in health care: Costs and benefits of interpreter services. Am J Public Health. 2004;94(5):866–869. doi: 10.2105/ajph.94.5.866.
4. Gandhi TK, et al. Drug complications in outpatients. J Gen Intern Med. 2000;15(3):149–154. doi: 10.1046/j.1525-1497.2000.04199.x.
5. Karliner LS, et al. Do professional interpreters improve clinical care for patients with limited English proficiency? A systematic review of the literature. Health Serv Res. 2007;42(2):727–754. doi: 10.1111/j.1475-6773.2006.00629.x.
6. Divi C, et al. Language proficiency and adverse events in US hospitals: a pilot study. Int J Qual Health Care. 2007 Apr;19(2):60-7. doi: 10.1093/intqhc/mzl069.
7. Karliner LS, et al. Identification of limited English proficient patients in clinical care. J Gen Intern Med. 2008;23(10):1555-1560. doi:10.1007/s11606-008-0693-y.
8. Schenker Y, et al. Patterns of interpreter use for hospitalized patients with limited English proficiency. J Gen Intern Med. 2011 Jul;26(7):712-7. doi: 10.1007/s11606-010-1619-z.
9. Office of Minority Health, US Department of Health and Human Services. National Standards for Culturally and Linguistically Appropriate Services in Health Care: Final Report. Washington, DC: US Department of Health and Human Services; 2001. https://minorityhealth.hhs.gov/assets/pdf/checked/finalreport.pdf.
10. www.medicaid.gov/medicaid/financial-management/medicaid-administrative-claiming/translation-and-interpretation-services/index.html
11. Schenker Y, et al. The Impact of Language Barriers on Documentation of Informed Consent at a Hospital with On-Site Interpreter Services. J Gen Intern Med. 2007 Nov;22 Suppl 2(Suppl 2):294-9. doi: 10.1007/s11606-007-0359-1.
12. Locatis C, et al. Comparing in-person, video, and telephonic medical interpretation. J Gen Intern Med. 2010;25(4):345-350. doi:10.1007/s11606-009-1236-x.
13. Dunlap JL, et al. The effects of language concordant care on patient satisfaction and clinical understanding for Hispanic pediatric surgery patients. J Pediatr Surg. 2015 Sep;50(9):1586-9. doi: 10.1016/j.jpedsurg.2014.12.020.
14. Diamond L, et al. A Systematic Review of the Impact of Patient–Physician Non-English Language Concordance on Quality of Care and Outcomes. J Gen Intern Med. 2019 Aug;34(8):1591-1606. doi: 10.1007/s11606-019-04847-5.
15. Ngo-Metzger Q, et al. Providing high-quality care for limited English proficient patients: the importance of language concordance and interpreter use. J Gen Intern Med. 2007 Nov;22 Suppl 2(Suppl 2):324-30. doi: 10.1007/s11606-007-0340-z.
16. https://press.doximity.com/articles/first-ever-national-study-to-examine-different-languages-spoken-by-us-doctors.
17. Agency for Healthcare Research and Quality. Patients with Limited English Proficiency. www.ahrq.gov/teamstepps/lep/index.html.
A hectic Friday morning at the hospital seemed less stressful amid morning greetings and humor from colleagues. In a team room full of hospitalists, life and death are often discussed in detail, ranging from medical discussions to joys and frustrations of the day to philosophy, politics, and more. It is almost impossible to miss something interesting.
People breaking into their native languages over the phone call from home always make me smile. The mention of a “complicated Indian patient unable to use interpreter” caught my attention.
My friend and colleague asked if I would be willing to take over the patient since I could speak Hindi. I was doubtful if I would add anything to make a meaningful difference, given the patient wasn’t even participating in a conversation. However, my colleague’s concern for the patient and faith in me was enough to say, “Sure, let me add her to my list.”
At the bedside, it felt like a classic “acute on chronic” hot mess situation. The patient presented with a generalized rash, anasarca, renal failure, multifocal pneumonia, and delirium. All I could gather from the patient were some incomprehensible words that sounded like Hindi. I called the family to obtain some history and to provide updates. Her son was excited to hear from me, and it didn’t take him long to guess that I was from India. But that could still mean that I might speak any of the twenty-two or more Indian languages.
Answering my questions one by one in perfectly understandable English, he was short and sweet. Suspicious of missing out on details, I offered hesitantly, “You could speak in Hindi with me.” Then came a flood of information with the details, concerns, questions, and what was lost in the translation.
We all attend to patients and families with limited English proficiency (LEP), immigrants, and nonimmigrants. LEP is a term used to describe individuals who do not speak English as their primary language and have a limited ability to read, speak, write, or understand English.1 Recent data from the American Community Survey (2005-2009) reports that 8.6% of the population (24 million Americans) have LEP.2 It’s a large and growing population that needs help overcoming language barriers and the appropriate use of professional medical interpreter services – a backbone to safe, quality, and cost-effective patient care.
The following day at bedside rounds, the nurse reported that the patient was looking and responding better. She could cooperate with interpreter services and could speak “some English.” Over the years, one thing that sounds more alarming than “no English” is “some English” or “enough English.” Around noon I received a page that the patient was refusing intravenous Lasix. At the bedside, however, the patient seemed unaware of the perceived refusal. Further discussions with the nurse lead to a familiar culprit, a relatively common gesture in South Asian cultures, a head bobble or shake.
The nurse reported that the patient shook her head side to side, seemed upset, and said “NO” when trying to administer the medication. On the other hand, the patient reported that she was upset to be at the hospital but had “NO” problem with the medicine.
My patient’s “some English” was indeed “enough English” to put her at risk due to medical error, which is highly likely when patients or providers can speak or understand a language to “get by” or to “make do.” Like my patient, the LEP patient population is more likely to experience medical errors, longer hospital stays, hospital-acquired complications, surgical delays, and readmissions. They are also less likely to receive preventive care, have access to regular care, or be satisfied with their care. They are much more likely to have adverse effects from drug complications, poor understanding of diagnoses, a greater risk of being misunderstood by their physicians or ancillary staff, and less likely to follow physician instructions.3-5 One study analyzed over 1,000 adverse-incident reports from six Joint Commission-accredited hospitals for LEP and English-speaking patients and found that 49% of LEP patients experienced physical harm versus 29.5% of English-speaking patients.6
I updated the patient’s LEP status that was missing in the chart, likely due to altered mental status at the time of admission. Reliable language and English proficiency data are usually entered at the patient’s point of entry with documentation of the language services required during the patient-provider encounter. The U.S. Census Bureau’s operational definition for LEP is a patient’s self-assessed ability to speak English less than “very well,” but how well it correlates with a patient’s actual English ability needs more study. Also, one’s self-assessed perception of ability might vary day to day, and language ability, by itself, is not static; it can differ from moment to moment and situation to situation. It may be easier to understand words in English when the situation is simple and less stressful than when things are complicated and stressful.
With a definition of LEP rather vague and the term somewhat derogatory, its meaning is open to interpretation. One study found that though speaking English less than “very well” was the most sensitive measure for identifying all of the patients who reported that they were unable to communicate effectively with their physicians, it was also the least specific.7 This lower specificity could lead to misclassification of some patients as LEP who are, in fact, able to effectively communicate in English with their physicians. This type of misclassification might lead to costly language assistance and carry the potential to cause conflicts between patient and provider. Telling a patient or family that they may have a “limited English proficiency” when they have believed otherwise and feel confident about their skills may come as a challenge. Some patients may also pretend to understand English to avoid being embarrassed about their linguistic abilities or perceive that they might be judged on their abilities in general.
Exiting the room, I gently reminded the RN to use the interpreter services. “Who has never been guilty of using an ad hoc interpreter or rushing through a long interpreter phone call due to time constraints?” I thought. A study from 2011 found that 43% of hospitalized patients with LEP had communicated without an interpreter present during admission, and 40% had communicated without an interpreter present after admission.8 In other words, a system in place does not mean service in use. But, the use of a trained interpreter is not only an obligation for care providers but a right for patients as per legal requirements of Title VI of the Civil Rights Act and the Standards for Culturally and Linguistically Appropriate Services (CLAS) by the Department of Health and Human Services’ (HSS) Office of Minority Health.9 In January 2010, The Joint Commission released a set of new and revised standards for patient-centered communication as part of an initiative to advance effective communication, cultural competence, and patient- and family-centered care.
Despite the requirements and availability of qualified medical interpreter services, there are multiple perceived and experienced barriers to the use of interpreter services. The most common one is that what comes as a free service for patients is a time commitment for providers. A long list of patients, acuity of the situation, and ease of use/availability of translation aids can change the calculus. One may be able to bill a prolonged service code (99354-99357) in addition to the appropriate E/M code, although a patient cannot be billed for the actual service provided by the interpreter. Longstanding CMS policy also permits reimbursement for translation/interpretation activities, so long as they are not included and paid for as part of the rate for direct service.10
The patient, however, insisted that she would rather have her son as the interpreter on the 3-way over the phone (OPI) conference call for interpretation. “He speaks good English and knows my medical history well,” she said. I counseled the patient on the benefits of using interpreter services and explained how to use the call button light and the visual aids.
Placing emphasis on educating patients about the benefits of using, and risks of not using, interpreter services is as essential as emphasizing that care providers use the services. Some patients may voluntarily choose to provide their own interpreter. Use of family members, friends, or unqualified staff as interpreters is one of the most commonly reported causes of errors by frontline staff. Using in-language collateral may help these patients understand how medical interpretation may create a better patient experience and outcome. A short factsheet, in different languages, on qualified interpreters’ expected benefits: meaning-for-meaning communication, impartiality, medical privacy, and improved patient safety and satisfaction, can also come in handy.
However, if the patient still refuses, providers should document the refusal of the offer of free language services, the name of the interpreter designated by the patient, the interpreter’s relationship to the LEP person, and the time or portions of the patient encounter that the interpreter’s services were used. Yet, language interpretation alone can be inadequate without document translation. According to one study, despite the availability of on-site professional interpreter services, hospitalized patients who do not speak English are less likely to have signed consent forms in their medical records.11 Health care professionals, therefore, need well-translated documents to treat LEP patients. Translated documents of consent forms for medical procedures, post-discharge instructions, prescription and medical device labels, and drug usage information may enhance informed decision making, safety and reduce stress and medical errors.
An unpopular and underused service needs it all: availability, convenience, monitoring, reporting, and team effort. Due to the sheer unpopularity and underuse of interpreter services, institutions should enhance ease of availability, monitor the use and quality of interpreter services, and optimize reporting of language-related errors. Ease of availability goes hand in hand with tapping local resources. Over the years, and even more so during the pandemic, in-person interpretation has transitioned to telephonic or video interpretation due to availability, safety, and cost issues. There are challenges in translating a language, and the absence of a visual channel adds another layer of complexity.
The current body of evidence does not indicate a superior interpreting method. Still, in one study providers and interpreters exposed to all three methods were more critical of remote methods and preferred videoconferencing to the telephone as a remote method. The significantly shorter phone interviews raised questions about the prospects of miscommunication in telephonic interpretation, given the absence of a visual channel.12
One way to bypass language barriers is to recognize the value added by hiring and training bilingual health care providers and fostering cultural competence. International medical graduates in many parts of the country aid in closing language barriers. Language-concordant care enhances trust between patients and physicians, optimizes health outcomes, and advances health equity for diverse populations.13-15 The presence of bilingual providers means more effective and timelier communication and improved patient satisfaction. But, according to a Doximity study, there is a significant “language gap” between those languages spoken by physicians and their patients.16 Hospitals, therefore, should assess, qualify, and incentivize staff who can serve as on-site medical interpreters for patients as a means to facilitate language concordant care for LEP patients.
The Agency of Healthcare Research and Quality (AHRQ) also has a guide on how hospitals can better identify, report, monitor, and prevent medical errors in patients with LEP. Included is the TeamSTEPPS LEP module to help develop and deploy a customized plan to train staff in teamwork skills and lead a medical teamwork improvement initiative.17
“Without my family, I was scared that nobody would understand me”
Back to the case. My patient was recovering well, and I was tying up loose ends on the switch day for the hospitalist teams.
“You will likely be discharged in a couple of days,” I said. She and the family were grateful and satisfied with the care. She had used the interpreter services and also received ethnocultural and language concordant and culturally competent care. Reducing language barriers is one of the crucial ways to reduce racial and ethnic disparities in quality of care and health outcomes, and it starts – in many cases – with identifying LEP patients. Proper use and monitoring of interpreter services, reporting language-related errors, hiring and testing bilingual staff’s language proficiency, and educating staff on cultural awareness are essential strategies for caring for LEP patients.
At my weeks’ end, in my handoff note to the incoming providers, I highlighted: “Patient will benefit from a Hindi speaking provider, Limited English Proficiency.”
Dr. Saigal is a hospitalist and clinical assistant professor of medicine in the division of hospital medicine at the Ohio State University Wexner Medical Center, Columbus.
References
1. Questions and Answers. Limited English Proficiency: A federal interagency website. www.lep.gov/commonly-asked-questions.
2. United States Census Bureau. Percent of people 5 years and over who speak English less than ‘very well’. www.census.gov/library/visualizations/interactive/people-that-speak-english-less-than-very-well.html.
3. Jacobs EA, et al. Overcoming language barriers in health care: Costs and benefits of interpreter services. Am J Public Health. 2004;94(5):866–869. doi: 10.2105/ajph.94.5.866.
4. Gandhi TK, et al. Drug complications in outpatients. J Gen Intern Med. 2000;15(3):149–154. doi: 10.1046/j.1525-1497.2000.04199.x.
5. Karliner LS, et al. Do professional interpreters improve clinical care for patients with limited English proficiency? A systematic review of the literature. Health Serv Res. 2007;42(2):727–754. doi: 10.1111/j.1475-6773.2006.00629.x.
6. Divi C, et al. Language proficiency and adverse events in US hospitals: a pilot study. Int J Qual Health Care. 2007 Apr;19(2):60-7. doi: 10.1093/intqhc/mzl069.
7. Karliner LS, et al. Identification of limited English proficient patients in clinical care. J Gen Intern Med. 2008;23(10):1555-1560. doi:10.1007/s11606-008-0693-y.
8. Schenker Y, et al. Patterns of interpreter use for hospitalized patients with limited English proficiency. J Gen Intern Med. 2011 Jul;26(7):712-7. doi: 10.1007/s11606-010-1619-z.
9. Office of Minority Health, US Department of Health and Human Services. National Standards for Culturally and Linguistically Appropriate Services in Health Care: Final Report. Washington, DC: US Department of Health and Human Services; 2001. https://minorityhealth.hhs.gov/assets/pdf/checked/finalreport.pdf.
10. www.medicaid.gov/medicaid/financial-management/medicaid-administrative-claiming/translation-and-interpretation-services/index.html
11. Schenker Y, et al. The Impact of Language Barriers on Documentation of Informed Consent at a Hospital with On-Site Interpreter Services. J Gen Intern Med. 2007 Nov;22 Suppl 2(Suppl 2):294-9. doi: 10.1007/s11606-007-0359-1.
12. Locatis C, et al. Comparing in-person, video, and telephonic medical interpretation. J Gen Intern Med. 2010;25(4):345-350. doi:10.1007/s11606-009-1236-x.
13. Dunlap JL, et al. The effects of language concordant care on patient satisfaction and clinical understanding for Hispanic pediatric surgery patients. J Pediatr Surg. 2015 Sep;50(9):1586-9. doi: 10.1016/j.jpedsurg.2014.12.020.
14. Diamond L, et al. A Systematic Review of the Impact of Patient–Physician Non-English Language Concordance on Quality of Care and Outcomes. J Gen Intern Med. 2019 Aug;34(8):1591-1606. doi: 10.1007/s11606-019-04847-5.
15. Ngo-Metzger Q, et al. Providing high-quality care for limited English proficient patients: the importance of language concordance and interpreter use. J Gen Intern Med. 2007 Nov;22 Suppl 2(Suppl 2):324-30. doi: 10.1007/s11606-007-0340-z.
16. https://press.doximity.com/articles/first-ever-national-study-to-examine-different-languages-spoken-by-us-doctors.
17. Agency for Healthcare Research and Quality. Patients with Limited English Proficiency. www.ahrq.gov/teamstepps/lep/index.html.
A hectic Friday morning at the hospital seemed less stressful amid morning greetings and humor from colleagues. In a team room full of hospitalists, life and death are often discussed in detail, ranging from medical discussions to joys and frustrations of the day to philosophy, politics, and more. It is almost impossible to miss something interesting.
People breaking into their native languages over the phone call from home always make me smile. The mention of a “complicated Indian patient unable to use interpreter” caught my attention.
My friend and colleague asked if I would be willing to take over the patient since I could speak Hindi. I was doubtful if I would add anything to make a meaningful difference, given the patient wasn’t even participating in a conversation. However, my colleague’s concern for the patient and faith in me was enough to say, “Sure, let me add her to my list.”
At the bedside, it felt like a classic “acute on chronic” hot mess situation. The patient presented with a generalized rash, anasarca, renal failure, multifocal pneumonia, and delirium. All I could gather from the patient were some incomprehensible words that sounded like Hindi. I called the family to obtain some history and to provide updates. Her son was excited to hear from me, and it didn’t take him long to guess that I was from India. But that could still mean that I might speak any of the twenty-two or more Indian languages.
Answering my questions one by one in perfectly understandable English, he was short and sweet. Suspicious of missing out on details, I offered hesitantly, “You could speak in Hindi with me.” Then came a flood of information with the details, concerns, questions, and what was lost in the translation.
We all attend to patients and families with limited English proficiency (LEP), immigrants, and nonimmigrants. LEP is a term used to describe individuals who do not speak English as their primary language and have a limited ability to read, speak, write, or understand English.1 Recent data from the American Community Survey (2005-2009) reports that 8.6% of the population (24 million Americans) have LEP.2 It’s a large and growing population that needs help overcoming language barriers and the appropriate use of professional medical interpreter services – a backbone to safe, quality, and cost-effective patient care.
The following day at bedside rounds, the nurse reported that the patient was looking and responding better. She could cooperate with interpreter services and could speak “some English.” Over the years, one thing that sounds more alarming than “no English” is “some English” or “enough English.” Around noon I received a page that the patient was refusing intravenous Lasix. At the bedside, however, the patient seemed unaware of the perceived refusal. Further discussions with the nurse lead to a familiar culprit, a relatively common gesture in South Asian cultures, a head bobble or shake.
The nurse reported that the patient shook her head side to side, seemed upset, and said “NO” when trying to administer the medication. On the other hand, the patient reported that she was upset to be at the hospital but had “NO” problem with the medicine.
My patient’s “some English” was indeed “enough English” to put her at risk due to medical error, which is highly likely when patients or providers can speak or understand a language to “get by” or to “make do.” Like my patient, the LEP patient population is more likely to experience medical errors, longer hospital stays, hospital-acquired complications, surgical delays, and readmissions. They are also less likely to receive preventive care, have access to regular care, or be satisfied with their care. They are much more likely to have adverse effects from drug complications, poor understanding of diagnoses, a greater risk of being misunderstood by their physicians or ancillary staff, and less likely to follow physician instructions.3-5 One study analyzed over 1,000 adverse-incident reports from six Joint Commission-accredited hospitals for LEP and English-speaking patients and found that 49% of LEP patients experienced physical harm versus 29.5% of English-speaking patients.6
I updated the patient’s LEP status that was missing in the chart, likely due to altered mental status at the time of admission. Reliable language and English proficiency data are usually entered at the patient’s point of entry with documentation of the language services required during the patient-provider encounter. The U.S. Census Bureau’s operational definition for LEP is a patient’s self-assessed ability to speak English less than “very well,” but how well it correlates with a patient’s actual English ability needs more study. Also, one’s self-assessed perception of ability might vary day to day, and language ability, by itself, is not static; it can differ from moment to moment and situation to situation. It may be easier to understand words in English when the situation is simple and less stressful than when things are complicated and stressful.
With a definition of LEP rather vague and the term somewhat derogatory, its meaning is open to interpretation. One study found that though speaking English less than “very well” was the most sensitive measure for identifying all of the patients who reported that they were unable to communicate effectively with their physicians, it was also the least specific.7 This lower specificity could lead to misclassification of some patients as LEP who are, in fact, able to effectively communicate in English with their physicians. This type of misclassification might lead to costly language assistance and carry the potential to cause conflicts between patient and provider. Telling a patient or family that they may have a “limited English proficiency” when they have believed otherwise and feel confident about their skills may come as a challenge. Some patients may also pretend to understand English to avoid being embarrassed about their linguistic abilities or perceive that they might be judged on their abilities in general.
Exiting the room, I gently reminded the RN to use the interpreter services. “Who has never been guilty of using an ad hoc interpreter or rushing through a long interpreter phone call due to time constraints?” I thought. A study from 2011 found that 43% of hospitalized patients with LEP had communicated without an interpreter present during admission, and 40% had communicated without an interpreter present after admission.8 In other words, a system in place does not mean service in use. But, the use of a trained interpreter is not only an obligation for care providers but a right for patients as per legal requirements of Title VI of the Civil Rights Act and the Standards for Culturally and Linguistically Appropriate Services (CLAS) by the Department of Health and Human Services’ (HSS) Office of Minority Health.9 In January 2010, The Joint Commission released a set of new and revised standards for patient-centered communication as part of an initiative to advance effective communication, cultural competence, and patient- and family-centered care.
Despite the requirements and availability of qualified medical interpreter services, there are multiple perceived and experienced barriers to the use of interpreter services. The most common one is that what comes as a free service for patients is a time commitment for providers. A long list of patients, acuity of the situation, and ease of use/availability of translation aids can change the calculus. One may be able to bill a prolonged service code (99354-99357) in addition to the appropriate E/M code, although a patient cannot be billed for the actual service provided by the interpreter. Longstanding CMS policy also permits reimbursement for translation/interpretation activities, so long as they are not included and paid for as part of the rate for direct service.10
The patient, however, insisted that she would rather have her son as the interpreter on the 3-way over the phone (OPI) conference call for interpretation. “He speaks good English and knows my medical history well,” she said. I counseled the patient on the benefits of using interpreter services and explained how to use the call button light and the visual aids.
Placing emphasis on educating patients about the benefits of using, and risks of not using, interpreter services is as essential as emphasizing that care providers use the services. Some patients may voluntarily choose to provide their own interpreter. Use of family members, friends, or unqualified staff as interpreters is one of the most commonly reported causes of errors by frontline staff. Using in-language collateral may help these patients understand how medical interpretation may create a better patient experience and outcome. A short factsheet, in different languages, on qualified interpreters’ expected benefits: meaning-for-meaning communication, impartiality, medical privacy, and improved patient safety and satisfaction, can also come in handy.
However, if the patient still refuses, providers should document the refusal of the offer of free language services, the name of the interpreter designated by the patient, the interpreter’s relationship to the LEP person, and the time or portions of the patient encounter that the interpreter’s services were used. Yet, language interpretation alone can be inadequate without document translation. According to one study, despite the availability of on-site professional interpreter services, hospitalized patients who do not speak English are less likely to have signed consent forms in their medical records.11 Health care professionals, therefore, need well-translated documents to treat LEP patients. Translated documents of consent forms for medical procedures, post-discharge instructions, prescription and medical device labels, and drug usage information may enhance informed decision making, safety and reduce stress and medical errors.
An unpopular and underused service needs it all: availability, convenience, monitoring, reporting, and team effort. Due to the sheer unpopularity and underuse of interpreter services, institutions should enhance ease of availability, monitor the use and quality of interpreter services, and optimize reporting of language-related errors. Ease of availability goes hand in hand with tapping local resources. Over the years, and even more so during the pandemic, in-person interpretation has transitioned to telephonic or video interpretation due to availability, safety, and cost issues. There are challenges in translating a language, and the absence of a visual channel adds another layer of complexity.
The current body of evidence does not indicate a superior interpreting method. Still, in one study providers and interpreters exposed to all three methods were more critical of remote methods and preferred videoconferencing to the telephone as a remote method. The significantly shorter phone interviews raised questions about the prospects of miscommunication in telephonic interpretation, given the absence of a visual channel.12
One way to bypass language barriers is to recognize the value added by hiring and training bilingual health care providers and fostering cultural competence. International medical graduates in many parts of the country aid in closing language barriers. Language-concordant care enhances trust between patients and physicians, optimizes health outcomes, and advances health equity for diverse populations.13-15 The presence of bilingual providers means more effective and timelier communication and improved patient satisfaction. But, according to a Doximity study, there is a significant “language gap” between those languages spoken by physicians and their patients.16 Hospitals, therefore, should assess, qualify, and incentivize staff who can serve as on-site medical interpreters for patients as a means to facilitate language concordant care for LEP patients.
The Agency of Healthcare Research and Quality (AHRQ) also has a guide on how hospitals can better identify, report, monitor, and prevent medical errors in patients with LEP. Included is the TeamSTEPPS LEP module to help develop and deploy a customized plan to train staff in teamwork skills and lead a medical teamwork improvement initiative.17
“Without my family, I was scared that nobody would understand me”
Back to the case. My patient was recovering well, and I was tying up loose ends on the switch day for the hospitalist teams.
“You will likely be discharged in a couple of days,” I said. She and the family were grateful and satisfied with the care. She had used the interpreter services and also received ethnocultural and language concordant and culturally competent care. Reducing language barriers is one of the crucial ways to reduce racial and ethnic disparities in quality of care and health outcomes, and it starts – in many cases – with identifying LEP patients. Proper use and monitoring of interpreter services, reporting language-related errors, hiring and testing bilingual staff’s language proficiency, and educating staff on cultural awareness are essential strategies for caring for LEP patients.
At my weeks’ end, in my handoff note to the incoming providers, I highlighted: “Patient will benefit from a Hindi speaking provider, Limited English Proficiency.”
Dr. Saigal is a hospitalist and clinical assistant professor of medicine in the division of hospital medicine at the Ohio State University Wexner Medical Center, Columbus.
References
1. Questions and Answers. Limited English Proficiency: A federal interagency website. www.lep.gov/commonly-asked-questions.
2. United States Census Bureau. Percent of people 5 years and over who speak English less than ‘very well’. www.census.gov/library/visualizations/interactive/people-that-speak-english-less-than-very-well.html.
3. Jacobs EA, et al. Overcoming language barriers in health care: Costs and benefits of interpreter services. Am J Public Health. 2004;94(5):866–869. doi: 10.2105/ajph.94.5.866.
4. Gandhi TK, et al. Drug complications in outpatients. J Gen Intern Med. 2000;15(3):149–154. doi: 10.1046/j.1525-1497.2000.04199.x.
5. Karliner LS, et al. Do professional interpreters improve clinical care for patients with limited English proficiency? A systematic review of the literature. Health Serv Res. 2007;42(2):727–754. doi: 10.1111/j.1475-6773.2006.00629.x.
6. Divi C, et al. Language proficiency and adverse events in US hospitals: a pilot study. Int J Qual Health Care. 2007 Apr;19(2):60-7. doi: 10.1093/intqhc/mzl069.
7. Karliner LS, et al. Identification of limited English proficient patients in clinical care. J Gen Intern Med. 2008;23(10):1555-1560. doi:10.1007/s11606-008-0693-y.
8. Schenker Y, et al. Patterns of interpreter use for hospitalized patients with limited English proficiency. J Gen Intern Med. 2011 Jul;26(7):712-7. doi: 10.1007/s11606-010-1619-z.
9. Office of Minority Health, US Department of Health and Human Services. National Standards for Culturally and Linguistically Appropriate Services in Health Care: Final Report. Washington, DC: US Department of Health and Human Services; 2001. https://minorityhealth.hhs.gov/assets/pdf/checked/finalreport.pdf.
10. www.medicaid.gov/medicaid/financial-management/medicaid-administrative-claiming/translation-and-interpretation-services/index.html
11. Schenker Y, et al. The Impact of Language Barriers on Documentation of Informed Consent at a Hospital with On-Site Interpreter Services. J Gen Intern Med. 2007 Nov;22 Suppl 2(Suppl 2):294-9. doi: 10.1007/s11606-007-0359-1.
12. Locatis C, et al. Comparing in-person, video, and telephonic medical interpretation. J Gen Intern Med. 2010;25(4):345-350. doi:10.1007/s11606-009-1236-x.
13. Dunlap JL, et al. The effects of language concordant care on patient satisfaction and clinical understanding for Hispanic pediatric surgery patients. J Pediatr Surg. 2015 Sep;50(9):1586-9. doi: 10.1016/j.jpedsurg.2014.12.020.
14. Diamond L, et al. A Systematic Review of the Impact of Patient–Physician Non-English Language Concordance on Quality of Care and Outcomes. J Gen Intern Med. 2019 Aug;34(8):1591-1606. doi: 10.1007/s11606-019-04847-5.
15. Ngo-Metzger Q, et al. Providing high-quality care for limited English proficient patients: the importance of language concordance and interpreter use. J Gen Intern Med. 2007 Nov;22 Suppl 2(Suppl 2):324-30. doi: 10.1007/s11606-007-0340-z.
16. https://press.doximity.com/articles/first-ever-national-study-to-examine-different-languages-spoken-by-us-doctors.
17. Agency for Healthcare Research and Quality. Patients with Limited English Proficiency. www.ahrq.gov/teamstepps/lep/index.html.
Clinician practices to connect with patients
Background: As technology and medical advances improve patient care, physicians and patients have become more dissatisfied with their interactions and relationships. Practices are needed to improve the connection between physician and patient.
Study design: Mixed-methods.
Setting: Three diverse primary care settings (academic medical center, Veterans Affairs facility, federally qualified health center).
Synopsis: Initial evidence- and narrative-based practices were identified from a systematic literature review, clinical observations of primary care encounters, and qualitative discussions with physicians, patients, and nonmedical professionals. A three-round modified Delphi process was performed with experts representing different aspects of the patient-physician relationship.
Five recommended clinical practices were recognized to foster presence and meaningful connections with patients: 1. Prepare with intention (becoming familiar with the patient before you meet them); 2. Listen intently and completely (sit down, lean forward, and don’t interrupt, but listen); 3. Agree on what matters most (discover your patient’s goals and fit them into the visit); 4. Connect with the patient’s story (take notice of efforts by the patient and successes); 5. Explore emotional cues (be aware of your patient’s emotions). Limitations of this study include the use of convenience sampling for the qualitative research, lack of international diversity of the expert panelists, and the lack of validation of the five practices as a whole.
Bottom line: The five practices of prepare with intention, listen intently and completely, agree on what matters most, connect with the patient’s story, and explore emotional cues may improve the patient-physician connection.
Citation: Zulman DM et al. Practices to foster physician presence and connection with patients in the clinical encounter. JAMA. 2020;323(1):70-81.
Dr. Trammell-Velasquez is a hospitalist and associate professor of medicine at University of Texas Health, San Antonio.
Background: As technology and medical advances improve patient care, physicians and patients have become more dissatisfied with their interactions and relationships. Practices are needed to improve the connection between physician and patient.
Study design: Mixed-methods.
Setting: Three diverse primary care settings (academic medical center, Veterans Affairs facility, federally qualified health center).
Synopsis: Initial evidence- and narrative-based practices were identified from a systematic literature review, clinical observations of primary care encounters, and qualitative discussions with physicians, patients, and nonmedical professionals. A three-round modified Delphi process was performed with experts representing different aspects of the patient-physician relationship.
Five recommended clinical practices were recognized to foster presence and meaningful connections with patients: 1. Prepare with intention (becoming familiar with the patient before you meet them); 2. Listen intently and completely (sit down, lean forward, and don’t interrupt, but listen); 3. Agree on what matters most (discover your patient’s goals and fit them into the visit); 4. Connect with the patient’s story (take notice of efforts by the patient and successes); 5. Explore emotional cues (be aware of your patient’s emotions). Limitations of this study include the use of convenience sampling for the qualitative research, lack of international diversity of the expert panelists, and the lack of validation of the five practices as a whole.
Bottom line: The five practices of prepare with intention, listen intently and completely, agree on what matters most, connect with the patient’s story, and explore emotional cues may improve the patient-physician connection.
Citation: Zulman DM et al. Practices to foster physician presence and connection with patients in the clinical encounter. JAMA. 2020;323(1):70-81.
Dr. Trammell-Velasquez is a hospitalist and associate professor of medicine at University of Texas Health, San Antonio.
Background: As technology and medical advances improve patient care, physicians and patients have become more dissatisfied with their interactions and relationships. Practices are needed to improve the connection between physician and patient.
Study design: Mixed-methods.
Setting: Three diverse primary care settings (academic medical center, Veterans Affairs facility, federally qualified health center).
Synopsis: Initial evidence- and narrative-based practices were identified from a systematic literature review, clinical observations of primary care encounters, and qualitative discussions with physicians, patients, and nonmedical professionals. A three-round modified Delphi process was performed with experts representing different aspects of the patient-physician relationship.
Five recommended clinical practices were recognized to foster presence and meaningful connections with patients: 1. Prepare with intention (becoming familiar with the patient before you meet them); 2. Listen intently and completely (sit down, lean forward, and don’t interrupt, but listen); 3. Agree on what matters most (discover your patient’s goals and fit them into the visit); 4. Connect with the patient’s story (take notice of efforts by the patient and successes); 5. Explore emotional cues (be aware of your patient’s emotions). Limitations of this study include the use of convenience sampling for the qualitative research, lack of international diversity of the expert panelists, and the lack of validation of the five practices as a whole.
Bottom line: The five practices of prepare with intention, listen intently and completely, agree on what matters most, connect with the patient’s story, and explore emotional cues may improve the patient-physician connection.
Citation: Zulman DM et al. Practices to foster physician presence and connection with patients in the clinical encounter. JAMA. 2020;323(1):70-81.
Dr. Trammell-Velasquez is a hospitalist and associate professor of medicine at University of Texas Health, San Antonio.
Hotspotting does not reduce readmissions
Background: In the United States, 5% of the population use half of the annual spending for health care services and 1% account for approximately a quarter of annual spending, considered “superutilizers” of U.S. health care services. The Camden Coalition of Healthcare Providers (the Coalition) developed a model using hospital admission data to identify superutilizers, termed “hotspotting,” which has gained national recognition. Unlike other similar programs, this model targets a more diverse population with higher utilization than other programs that have been studied.
Study design: Randomized, controlled trial.
Setting: Two hospitals in Camden, N.J., from June 2, 2014, to March 31, 2018.
Synopsis: Eight-hundred superutilizers (at least one hospital admission at any of the four Camden-area hospital systems in the past 6 months, greater than one chronic medical condition, more than one high-risk traits/conditions) were randomly assigned to the intervention group or usual care. Once enrolled in the hospital, a multidisciplinary team began working with the patient in the intervention group on discharge. Team members conducted home visits, scheduled/took patients to appointments, managed medications, monitored and coached patients in disease-specific self-care, and assisted with applying for social and other assistive programs.
The readmission rate within 180 days after hospital discharge (primary outcome) between groups was not significant, with 62.3% readmitted in the intervention group and 61.7% in the control group. There was also no effect on the defined secondary outcomes (number of readmissions, proportion of patients with more than two readmissions, hospital days, charges, payments received, mortality).
The trial was not powered to detect smaller reductions in readmissions or to analyze effects within specific subgroups.
Bottom line: The addition of the Coalition’s program to patients with very high use of health care services did not decrease hospital readmission rate when compared to usual care.
Citation: Finkelstein A et al. Health care hotspotting – a randomized, controlled trial. N Engl J Med. 2020;382:152-62.
Dr. Trammell-Velasquez is a hospitalist and associate professor of medicine at University of Texas Health, San Antonio.
Background: In the United States, 5% of the population use half of the annual spending for health care services and 1% account for approximately a quarter of annual spending, considered “superutilizers” of U.S. health care services. The Camden Coalition of Healthcare Providers (the Coalition) developed a model using hospital admission data to identify superutilizers, termed “hotspotting,” which has gained national recognition. Unlike other similar programs, this model targets a more diverse population with higher utilization than other programs that have been studied.
Study design: Randomized, controlled trial.
Setting: Two hospitals in Camden, N.J., from June 2, 2014, to March 31, 2018.
Synopsis: Eight-hundred superutilizers (at least one hospital admission at any of the four Camden-area hospital systems in the past 6 months, greater than one chronic medical condition, more than one high-risk traits/conditions) were randomly assigned to the intervention group or usual care. Once enrolled in the hospital, a multidisciplinary team began working with the patient in the intervention group on discharge. Team members conducted home visits, scheduled/took patients to appointments, managed medications, monitored and coached patients in disease-specific self-care, and assisted with applying for social and other assistive programs.
The readmission rate within 180 days after hospital discharge (primary outcome) between groups was not significant, with 62.3% readmitted in the intervention group and 61.7% in the control group. There was also no effect on the defined secondary outcomes (number of readmissions, proportion of patients with more than two readmissions, hospital days, charges, payments received, mortality).
The trial was not powered to detect smaller reductions in readmissions or to analyze effects within specific subgroups.
Bottom line: The addition of the Coalition’s program to patients with very high use of health care services did not decrease hospital readmission rate when compared to usual care.
Citation: Finkelstein A et al. Health care hotspotting – a randomized, controlled trial. N Engl J Med. 2020;382:152-62.
Dr. Trammell-Velasquez is a hospitalist and associate professor of medicine at University of Texas Health, San Antonio.
Background: In the United States, 5% of the population use half of the annual spending for health care services and 1% account for approximately a quarter of annual spending, considered “superutilizers” of U.S. health care services. The Camden Coalition of Healthcare Providers (the Coalition) developed a model using hospital admission data to identify superutilizers, termed “hotspotting,” which has gained national recognition. Unlike other similar programs, this model targets a more diverse population with higher utilization than other programs that have been studied.
Study design: Randomized, controlled trial.
Setting: Two hospitals in Camden, N.J., from June 2, 2014, to March 31, 2018.
Synopsis: Eight-hundred superutilizers (at least one hospital admission at any of the four Camden-area hospital systems in the past 6 months, greater than one chronic medical condition, more than one high-risk traits/conditions) were randomly assigned to the intervention group or usual care. Once enrolled in the hospital, a multidisciplinary team began working with the patient in the intervention group on discharge. Team members conducted home visits, scheduled/took patients to appointments, managed medications, monitored and coached patients in disease-specific self-care, and assisted with applying for social and other assistive programs.
The readmission rate within 180 days after hospital discharge (primary outcome) between groups was not significant, with 62.3% readmitted in the intervention group and 61.7% in the control group. There was also no effect on the defined secondary outcomes (number of readmissions, proportion of patients with more than two readmissions, hospital days, charges, payments received, mortality).
The trial was not powered to detect smaller reductions in readmissions or to analyze effects within specific subgroups.
Bottom line: The addition of the Coalition’s program to patients with very high use of health care services did not decrease hospital readmission rate when compared to usual care.
Citation: Finkelstein A et al. Health care hotspotting – a randomized, controlled trial. N Engl J Med. 2020;382:152-62.
Dr. Trammell-Velasquez is a hospitalist and associate professor of medicine at University of Texas Health, San Antonio.
Reflections on 10 years of hospitalist productivity
Successful programs will recruit lifelong learners
The workload of individual hospitalists has long been a hot-button issue. In a 2013 survey of hospitalists, 40% felt workloads were unsafe on a monthly basis, and 22% reported ordering unnecessary testing or procedures because of time pressure.1 In a 2014 analysis of over 20,000 admissions to an academic hospital medicine service, increasing workload led to increased length of stay and cost per case.2 Although these studies suggest a “sweet spot” for hospitalist workload, many groups face constant pressure to increase revenue.
Over the past decade there has been a significant change in how hospital medicine programs are financed. In the 2010 State of Hospital Medicine (SoHM), the median financial support per physician hospitalist in adult hospital medicine groups (HMGs) was $98,253. By the 2020 SoHM, the financial support was $198,750, an increase of $100,497 in just 10 years. When this is combined with the explosive growth in the number of hospitalists, there is one inescapable conclusion – hospital medicine is expensive.
Over this same 10 years, net collections per hospitalist grew from $194,440 in 2010 to $216,779 in 2020, an increase of $22,339. The increase was caused by higher collections per encounter, not more encounters. Additionally, median compensation for adult/internal medicine hospitalists increased over the same period from $215,000 to $307,336, an increase of $92,336, or 43%. That is an increase of 3.7% per year, more than twice the rate of inflation or wage growth in the general economy over the same period. About 75% of this increase was funded by hospital support. It is clear – health care systems continue to find value in investing in hospitalists and hospital medicine programs.
With mounting costs for hospitals, there is pressure for the hospitalist model of care to change or for yearly billable encounters per hospitalist full-time equivalent to increase. Yet, the productivity of hospitalists, as measured by median billable encounters per year has remained flat. The 2010 SoHM listed median number of billable encounters per year for an internal medicine hospitalist as 2,230. In 2020, the number is 2,246 – a trivial 0.7% increase per decade, what amounts to a rounding error. There has been wiggle up and down over the years, but I suspect these are not trends but noise.
So the question is why. I think it is partly because hospital medicine leaders together with the leaders of their health care systems seem to be reaching an equilibrium. Productivity will always remain an expectation. This expectation will vary based on local circumstances. But for many HMGs, the days when productivity is pushed as the primary objective seem to be disappearing. Most hospital leaders seem to now understand that high productivity can be detrimental to other program goals.
But if productivity is flat, do 40% of hospitalists still feel they are providing unsafe care on a monthly basis? Without another study we don’t know, but here are some reasons why I’m hopeful. First, the hospitalist workforce is more experienced than 10 years ago and may be more efficient. Second, hospital medicine groups are larger and are therefore enabled to schedule more flexibly or enact jeopardy systems to level out workload on busy days. And lastly, hospitalists who feel they are providing unsafe care find greener pastures. The 2010 SoHM reported adult hospital medicine programs had a median 14.3% turnover rate. The 2020 SoHM turnover was 10.9%. While this is up from 2018 (7.4%) and 2016 (6.9%), the general trend is down.
Additionally, we all need to consider the possibility that there will be a disruptive innovation that will allow greater productivity for individual hospitalists while maintaining value. It is apparent the EHR is not yet that breakthrough. We all need to keep our eyes open, stay flexible, and be prepared to meet evolving demands on our programs.
We will see constant demands on hospitalists. But I’m hopeful that going forward expectations will increasingly shift away from simply working harder and seeing more patients, toward goals related to improving performance. Training programs generally produce excellent clinicians, but they often do not equip physicians to be excellent hospitalists. Successful hospital medicine programs will recruit lifelong learners and career hospitalists who are flexible and willing to innovate and adapt. The best programs will have structures in place to help excellent clinicians mature into the role of excellent hospitalists, and leaders that create and foster an environment of excellence.
Discover more 2020 SoHM Report data at www.hospitalmedicine.org/sohm.
Dr. Frederickson is medical director, hospital medicine and palliative care, at CHI Health, Omaha, Neb., and assistant professor at Creighton University, Omaha.
References
1. Michtalik HJ et al. Impact of Attending Physician Workload on Patient Care: A Survey of Hospitalists. JAMA Intern Med. 2013;173(5):375-7. doi: 10.1001/jamainternmed.2013.1864.
2. Elliott DJ et al. Effect of Hospitalist Workload on the Quality and Efficiency of Care. JAMA Intern Med. 2014;174(5):786-93. doi: 10.1001/jamainternmed.2014.300.
Successful programs will recruit lifelong learners
Successful programs will recruit lifelong learners
The workload of individual hospitalists has long been a hot-button issue. In a 2013 survey of hospitalists, 40% felt workloads were unsafe on a monthly basis, and 22% reported ordering unnecessary testing or procedures because of time pressure.1 In a 2014 analysis of over 20,000 admissions to an academic hospital medicine service, increasing workload led to increased length of stay and cost per case.2 Although these studies suggest a “sweet spot” for hospitalist workload, many groups face constant pressure to increase revenue.
Over the past decade there has been a significant change in how hospital medicine programs are financed. In the 2010 State of Hospital Medicine (SoHM), the median financial support per physician hospitalist in adult hospital medicine groups (HMGs) was $98,253. By the 2020 SoHM, the financial support was $198,750, an increase of $100,497 in just 10 years. When this is combined with the explosive growth in the number of hospitalists, there is one inescapable conclusion – hospital medicine is expensive.
Over this same 10 years, net collections per hospitalist grew from $194,440 in 2010 to $216,779 in 2020, an increase of $22,339. The increase was caused by higher collections per encounter, not more encounters. Additionally, median compensation for adult/internal medicine hospitalists increased over the same period from $215,000 to $307,336, an increase of $92,336, or 43%. That is an increase of 3.7% per year, more than twice the rate of inflation or wage growth in the general economy over the same period. About 75% of this increase was funded by hospital support. It is clear – health care systems continue to find value in investing in hospitalists and hospital medicine programs.
With mounting costs for hospitals, there is pressure for the hospitalist model of care to change or for yearly billable encounters per hospitalist full-time equivalent to increase. Yet, the productivity of hospitalists, as measured by median billable encounters per year has remained flat. The 2010 SoHM listed median number of billable encounters per year for an internal medicine hospitalist as 2,230. In 2020, the number is 2,246 – a trivial 0.7% increase per decade, what amounts to a rounding error. There has been wiggle up and down over the years, but I suspect these are not trends but noise.
So the question is why. I think it is partly because hospital medicine leaders together with the leaders of their health care systems seem to be reaching an equilibrium. Productivity will always remain an expectation. This expectation will vary based on local circumstances. But for many HMGs, the days when productivity is pushed as the primary objective seem to be disappearing. Most hospital leaders seem to now understand that high productivity can be detrimental to other program goals.
But if productivity is flat, do 40% of hospitalists still feel they are providing unsafe care on a monthly basis? Without another study we don’t know, but here are some reasons why I’m hopeful. First, the hospitalist workforce is more experienced than 10 years ago and may be more efficient. Second, hospital medicine groups are larger and are therefore enabled to schedule more flexibly or enact jeopardy systems to level out workload on busy days. And lastly, hospitalists who feel they are providing unsafe care find greener pastures. The 2010 SoHM reported adult hospital medicine programs had a median 14.3% turnover rate. The 2020 SoHM turnover was 10.9%. While this is up from 2018 (7.4%) and 2016 (6.9%), the general trend is down.
Additionally, we all need to consider the possibility that there will be a disruptive innovation that will allow greater productivity for individual hospitalists while maintaining value. It is apparent the EHR is not yet that breakthrough. We all need to keep our eyes open, stay flexible, and be prepared to meet evolving demands on our programs.
We will see constant demands on hospitalists. But I’m hopeful that going forward expectations will increasingly shift away from simply working harder and seeing more patients, toward goals related to improving performance. Training programs generally produce excellent clinicians, but they often do not equip physicians to be excellent hospitalists. Successful hospital medicine programs will recruit lifelong learners and career hospitalists who are flexible and willing to innovate and adapt. The best programs will have structures in place to help excellent clinicians mature into the role of excellent hospitalists, and leaders that create and foster an environment of excellence.
Discover more 2020 SoHM Report data at www.hospitalmedicine.org/sohm.
Dr. Frederickson is medical director, hospital medicine and palliative care, at CHI Health, Omaha, Neb., and assistant professor at Creighton University, Omaha.
References
1. Michtalik HJ et al. Impact of Attending Physician Workload on Patient Care: A Survey of Hospitalists. JAMA Intern Med. 2013;173(5):375-7. doi: 10.1001/jamainternmed.2013.1864.
2. Elliott DJ et al. Effect of Hospitalist Workload on the Quality and Efficiency of Care. JAMA Intern Med. 2014;174(5):786-93. doi: 10.1001/jamainternmed.2014.300.
The workload of individual hospitalists has long been a hot-button issue. In a 2013 survey of hospitalists, 40% felt workloads were unsafe on a monthly basis, and 22% reported ordering unnecessary testing or procedures because of time pressure.1 In a 2014 analysis of over 20,000 admissions to an academic hospital medicine service, increasing workload led to increased length of stay and cost per case.2 Although these studies suggest a “sweet spot” for hospitalist workload, many groups face constant pressure to increase revenue.
Over the past decade there has been a significant change in how hospital medicine programs are financed. In the 2010 State of Hospital Medicine (SoHM), the median financial support per physician hospitalist in adult hospital medicine groups (HMGs) was $98,253. By the 2020 SoHM, the financial support was $198,750, an increase of $100,497 in just 10 years. When this is combined with the explosive growth in the number of hospitalists, there is one inescapable conclusion – hospital medicine is expensive.
Over this same 10 years, net collections per hospitalist grew from $194,440 in 2010 to $216,779 in 2020, an increase of $22,339. The increase was caused by higher collections per encounter, not more encounters. Additionally, median compensation for adult/internal medicine hospitalists increased over the same period from $215,000 to $307,336, an increase of $92,336, or 43%. That is an increase of 3.7% per year, more than twice the rate of inflation or wage growth in the general economy over the same period. About 75% of this increase was funded by hospital support. It is clear – health care systems continue to find value in investing in hospitalists and hospital medicine programs.
With mounting costs for hospitals, there is pressure for the hospitalist model of care to change or for yearly billable encounters per hospitalist full-time equivalent to increase. Yet, the productivity of hospitalists, as measured by median billable encounters per year has remained flat. The 2010 SoHM listed median number of billable encounters per year for an internal medicine hospitalist as 2,230. In 2020, the number is 2,246 – a trivial 0.7% increase per decade, what amounts to a rounding error. There has been wiggle up and down over the years, but I suspect these are not trends but noise.
So the question is why. I think it is partly because hospital medicine leaders together with the leaders of their health care systems seem to be reaching an equilibrium. Productivity will always remain an expectation. This expectation will vary based on local circumstances. But for many HMGs, the days when productivity is pushed as the primary objective seem to be disappearing. Most hospital leaders seem to now understand that high productivity can be detrimental to other program goals.
But if productivity is flat, do 40% of hospitalists still feel they are providing unsafe care on a monthly basis? Without another study we don’t know, but here are some reasons why I’m hopeful. First, the hospitalist workforce is more experienced than 10 years ago and may be more efficient. Second, hospital medicine groups are larger and are therefore enabled to schedule more flexibly or enact jeopardy systems to level out workload on busy days. And lastly, hospitalists who feel they are providing unsafe care find greener pastures. The 2010 SoHM reported adult hospital medicine programs had a median 14.3% turnover rate. The 2020 SoHM turnover was 10.9%. While this is up from 2018 (7.4%) and 2016 (6.9%), the general trend is down.
Additionally, we all need to consider the possibility that there will be a disruptive innovation that will allow greater productivity for individual hospitalists while maintaining value. It is apparent the EHR is not yet that breakthrough. We all need to keep our eyes open, stay flexible, and be prepared to meet evolving demands on our programs.
We will see constant demands on hospitalists. But I’m hopeful that going forward expectations will increasingly shift away from simply working harder and seeing more patients, toward goals related to improving performance. Training programs generally produce excellent clinicians, but they often do not equip physicians to be excellent hospitalists. Successful hospital medicine programs will recruit lifelong learners and career hospitalists who are flexible and willing to innovate and adapt. The best programs will have structures in place to help excellent clinicians mature into the role of excellent hospitalists, and leaders that create and foster an environment of excellence.
Discover more 2020 SoHM Report data at www.hospitalmedicine.org/sohm.
Dr. Frederickson is medical director, hospital medicine and palliative care, at CHI Health, Omaha, Neb., and assistant professor at Creighton University, Omaha.
References
1. Michtalik HJ et al. Impact of Attending Physician Workload on Patient Care: A Survey of Hospitalists. JAMA Intern Med. 2013;173(5):375-7. doi: 10.1001/jamainternmed.2013.1864.
2. Elliott DJ et al. Effect of Hospitalist Workload on the Quality and Efficiency of Care. JAMA Intern Med. 2014;174(5):786-93. doi: 10.1001/jamainternmed.2014.300.
Hospital-level care at home for acutely ill adults may be as safe as inpatient care
Background: Providing hospital-level care at home for select patients has proven to reduce health care cost, usage, and readmission rates, while maintaining quality and safety in other developed countries but few studies exist in the United States.
Study design: Randomized, controlled, unblinded, parallel-design trial.
Setting: Home hospital care versus inpatient care at two Boston academic hospitals, during June 2017–January 2018.
Synopsis: The study enrolled 91 adult patients from the emergency department who were deemed appropriate for non-ICU admission for treatment of prespecified diagnoses (i.e., COPD exacerbation, heart failure exacerbation, etc.). Participants were randomized to usual inpatient care or home hospital care. All home hospital patients received daily internist visits, twice-daily nursing visits, home access to additional services (physical/occupational therapy, social work, etc.), oxygen, IV medications, labs, radiology, and continuous monitoring. The authors found that home hospital care resulted in a lower total cost (P < .001), lower use of imaging and labs, and lower 30-day readmission rate, without appreciable differences in quality or safety between the two groups. Given that the study was performed at only two academic hospitals, it is unclear if these findings can be generalized to other health systems.
Bottom line: For the care of select illnesses, hospital-level care at home may be cheaper, may be just as safe, and reduced readmission rates when compared with inpatient care.
Citation: Levine D et al. Hospital-level care at home for acutely ill adults. Ann Intern Med. 2020;172:77-85.
Dr. Persaud is a hospitalist, Beth Israel Deaconess Medical Center, and instructor in medicine, Harvard Medical School, both in Boston.
Background: Providing hospital-level care at home for select patients has proven to reduce health care cost, usage, and readmission rates, while maintaining quality and safety in other developed countries but few studies exist in the United States.
Study design: Randomized, controlled, unblinded, parallel-design trial.
Setting: Home hospital care versus inpatient care at two Boston academic hospitals, during June 2017–January 2018.
Synopsis: The study enrolled 91 adult patients from the emergency department who were deemed appropriate for non-ICU admission for treatment of prespecified diagnoses (i.e., COPD exacerbation, heart failure exacerbation, etc.). Participants were randomized to usual inpatient care or home hospital care. All home hospital patients received daily internist visits, twice-daily nursing visits, home access to additional services (physical/occupational therapy, social work, etc.), oxygen, IV medications, labs, radiology, and continuous monitoring. The authors found that home hospital care resulted in a lower total cost (P < .001), lower use of imaging and labs, and lower 30-day readmission rate, without appreciable differences in quality or safety between the two groups. Given that the study was performed at only two academic hospitals, it is unclear if these findings can be generalized to other health systems.
Bottom line: For the care of select illnesses, hospital-level care at home may be cheaper, may be just as safe, and reduced readmission rates when compared with inpatient care.
Citation: Levine D et al. Hospital-level care at home for acutely ill adults. Ann Intern Med. 2020;172:77-85.
Dr. Persaud is a hospitalist, Beth Israel Deaconess Medical Center, and instructor in medicine, Harvard Medical School, both in Boston.
Background: Providing hospital-level care at home for select patients has proven to reduce health care cost, usage, and readmission rates, while maintaining quality and safety in other developed countries but few studies exist in the United States.
Study design: Randomized, controlled, unblinded, parallel-design trial.
Setting: Home hospital care versus inpatient care at two Boston academic hospitals, during June 2017–January 2018.
Synopsis: The study enrolled 91 adult patients from the emergency department who were deemed appropriate for non-ICU admission for treatment of prespecified diagnoses (i.e., COPD exacerbation, heart failure exacerbation, etc.). Participants were randomized to usual inpatient care or home hospital care. All home hospital patients received daily internist visits, twice-daily nursing visits, home access to additional services (physical/occupational therapy, social work, etc.), oxygen, IV medications, labs, radiology, and continuous monitoring. The authors found that home hospital care resulted in a lower total cost (P < .001), lower use of imaging and labs, and lower 30-day readmission rate, without appreciable differences in quality or safety between the two groups. Given that the study was performed at only two academic hospitals, it is unclear if these findings can be generalized to other health systems.
Bottom line: For the care of select illnesses, hospital-level care at home may be cheaper, may be just as safe, and reduced readmission rates when compared with inpatient care.
Citation: Levine D et al. Hospital-level care at home for acutely ill adults. Ann Intern Med. 2020;172:77-85.
Dr. Persaud is a hospitalist, Beth Israel Deaconess Medical Center, and instructor in medicine, Harvard Medical School, both in Boston.
Hospital acquisition had no significant change in the rate of readmission or mortality
Background: Prior studies have examined the impact of hospital system mergers on health care costs, but few studies have previously examined impact on quality and patient experience.
Study design: Retrospective, difference-in-difference analysis.
Setting: 2,232 U.S. hospitals during 2007-2016.
Synopsis: The authors identified 2,232 hospitals, including 246 hospitals that were acquired between 2009 and 2013 and 1,986 control hospitals that were not acquired during this period. They used a difference-in-difference analysis to compare hospital performance on quality and patient experience measures from before and after an acquisition to concurrent changes in control hospitals. Hospital acquisition was associated with a significant decline in measured patient experience. There was no significant differential change in 30-day readmission or mortality. Although there was an association between acquisition and significant improvement in clinical process metrics, the authors found that this improvement occurred almost entirely prior to acquisition.
Bottom line: Hospital acquisition was associated with worse experience for patients and had no significant impact on readmission or mortality rates.
Citation: Beaulieu ND et al. Changes in quality of care after hospital mergers and acquisitions. N Engl J Med. 2020 Jan 2;382:51-9.
Dr. Midha is a hospitalist at Beth Israel Deaconess Medical Center, instructor of medicine, Boston University, and part-time instructor in medicine, Harvard Medical School, all in Boston.
Background: Prior studies have examined the impact of hospital system mergers on health care costs, but few studies have previously examined impact on quality and patient experience.
Study design: Retrospective, difference-in-difference analysis.
Setting: 2,232 U.S. hospitals during 2007-2016.
Synopsis: The authors identified 2,232 hospitals, including 246 hospitals that were acquired between 2009 and 2013 and 1,986 control hospitals that were not acquired during this period. They used a difference-in-difference analysis to compare hospital performance on quality and patient experience measures from before and after an acquisition to concurrent changes in control hospitals. Hospital acquisition was associated with a significant decline in measured patient experience. There was no significant differential change in 30-day readmission or mortality. Although there was an association between acquisition and significant improvement in clinical process metrics, the authors found that this improvement occurred almost entirely prior to acquisition.
Bottom line: Hospital acquisition was associated with worse experience for patients and had no significant impact on readmission or mortality rates.
Citation: Beaulieu ND et al. Changes in quality of care after hospital mergers and acquisitions. N Engl J Med. 2020 Jan 2;382:51-9.
Dr. Midha is a hospitalist at Beth Israel Deaconess Medical Center, instructor of medicine, Boston University, and part-time instructor in medicine, Harvard Medical School, all in Boston.
Background: Prior studies have examined the impact of hospital system mergers on health care costs, but few studies have previously examined impact on quality and patient experience.
Study design: Retrospective, difference-in-difference analysis.
Setting: 2,232 U.S. hospitals during 2007-2016.
Synopsis: The authors identified 2,232 hospitals, including 246 hospitals that were acquired between 2009 and 2013 and 1,986 control hospitals that were not acquired during this period. They used a difference-in-difference analysis to compare hospital performance on quality and patient experience measures from before and after an acquisition to concurrent changes in control hospitals. Hospital acquisition was associated with a significant decline in measured patient experience. There was no significant differential change in 30-day readmission or mortality. Although there was an association between acquisition and significant improvement in clinical process metrics, the authors found that this improvement occurred almost entirely prior to acquisition.
Bottom line: Hospital acquisition was associated with worse experience for patients and had no significant impact on readmission or mortality rates.
Citation: Beaulieu ND et al. Changes in quality of care after hospital mergers and acquisitions. N Engl J Med. 2020 Jan 2;382:51-9.
Dr. Midha is a hospitalist at Beth Israel Deaconess Medical Center, instructor of medicine, Boston University, and part-time instructor in medicine, Harvard Medical School, all in Boston.
Electronic frailty index based on routine blood tests may help identify at-risk seniors
Background: Accurate identification of frail older patients at hospital admission may help target interventions; however, the extent to which risk prediction tools such as the frailty index can be utilized in the acute setting remains unclear.
Study design: Single-center prospective cohort study, during April 2015–January 2017.
Setting: A tertiary care, academic medical center in the United Kingdom.
Synopsis: This study enrolled 1,750 older adults, comprising 2,552 hospital admissions. For each admission, the authors generated a frailty index, called FI-Laboratory, based on the proportion of abnormal results from 27 of the most common admission laboratory tests. The authors found that an increase in the FI-Lab was significantly associated, independent of an existing chronic frailty score, with increased proportion of inpatient days, discharge to a higher level of care, readmission rates, and mortality. Notably, researchers were unable to calculate the FI-Lab score in 11.6% of cases because of insufficient laboratory information. The single-center design of this study may limit its generalizability.
Bottom line: The FI-Laboratory may provide information, complementary to existing frailty assessments, to help identify older adults at increased risk of inpatient adverse outcomes.
Citation: Logan Ellis H et al. Complementing chronic frailty assessment at hospital admission with an electronic frailty index (FI-Laboratory) comprising routine blood test results. CMAJ. 2020;192(1)e3-8.
Dr. Hu is a hospitalist at Beth Israel Deaconess Medical Center, and instructor in medicine, Harvard Medical School, both in Boston.
Background: Accurate identification of frail older patients at hospital admission may help target interventions; however, the extent to which risk prediction tools such as the frailty index can be utilized in the acute setting remains unclear.
Study design: Single-center prospective cohort study, during April 2015–January 2017.
Setting: A tertiary care, academic medical center in the United Kingdom.
Synopsis: This study enrolled 1,750 older adults, comprising 2,552 hospital admissions. For each admission, the authors generated a frailty index, called FI-Laboratory, based on the proportion of abnormal results from 27 of the most common admission laboratory tests. The authors found that an increase in the FI-Lab was significantly associated, independent of an existing chronic frailty score, with increased proportion of inpatient days, discharge to a higher level of care, readmission rates, and mortality. Notably, researchers were unable to calculate the FI-Lab score in 11.6% of cases because of insufficient laboratory information. The single-center design of this study may limit its generalizability.
Bottom line: The FI-Laboratory may provide information, complementary to existing frailty assessments, to help identify older adults at increased risk of inpatient adverse outcomes.
Citation: Logan Ellis H et al. Complementing chronic frailty assessment at hospital admission with an electronic frailty index (FI-Laboratory) comprising routine blood test results. CMAJ. 2020;192(1)e3-8.
Dr. Hu is a hospitalist at Beth Israel Deaconess Medical Center, and instructor in medicine, Harvard Medical School, both in Boston.
Background: Accurate identification of frail older patients at hospital admission may help target interventions; however, the extent to which risk prediction tools such as the frailty index can be utilized in the acute setting remains unclear.
Study design: Single-center prospective cohort study, during April 2015–January 2017.
Setting: A tertiary care, academic medical center in the United Kingdom.
Synopsis: This study enrolled 1,750 older adults, comprising 2,552 hospital admissions. For each admission, the authors generated a frailty index, called FI-Laboratory, based on the proportion of abnormal results from 27 of the most common admission laboratory tests. The authors found that an increase in the FI-Lab was significantly associated, independent of an existing chronic frailty score, with increased proportion of inpatient days, discharge to a higher level of care, readmission rates, and mortality. Notably, researchers were unable to calculate the FI-Lab score in 11.6% of cases because of insufficient laboratory information. The single-center design of this study may limit its generalizability.
Bottom line: The FI-Laboratory may provide information, complementary to existing frailty assessments, to help identify older adults at increased risk of inpatient adverse outcomes.
Citation: Logan Ellis H et al. Complementing chronic frailty assessment at hospital admission with an electronic frailty index (FI-Laboratory) comprising routine blood test results. CMAJ. 2020;192(1)e3-8.
Dr. Hu is a hospitalist at Beth Israel Deaconess Medical Center, and instructor in medicine, Harvard Medical School, both in Boston.
Hospital admissions of nursing home patients declined after ACA quality initiatives
Background: Following the ACA’s implementation, several measures were introduced to reduce unnecessary admissions of long-term nursing home residents to hospitals. These measures included an initiative to enhance a nursing home’s on-site capability to handle target populations; the accountable care organization payment model; and the Hospital Readmissions Reduction Program.
Study design: Cross-sectional study using the claims-based nationwide Minimum Data Set during 2011-2016.
Setting: Federally licensed nursing homes in the United States.
Synopsis: The authors examined the number of transfers between federally funded nursing homes and the hospital settings (EDs, observation, or inpatient hospitalizations) for greater than 460,000 long term–stay patients with advanced dementia, advanced heart failure, and/or advanced chronic obstructive pulmonary disease (COPD). A risk-adjusted model showed that, during 2011-2016, there were significant decreases in transfers rates for potentially avoidable conditions, measured as the mean number of transfers per person-year alive, for patients with advanced dementia (2.4 vs. 1.6), heart failure (8.5 vs. 6.7), and COPD (7.8 vs 5.5). Most of this decrease was linked to reductions in acute hospitalizations. Notably, hospice enrollment remained low throughout this time period, despite a high 1-year mortality.
Bottom line: During the 2011-2016 period, transfer rates for patients with advanced dementia, heart failure, and/or COPD from nursing homes to the hospital setting decreased.
Citation: McCarthy EP et al. Hospital transfer rates among U.S. nursing home residents with advanced illness before and after initiatives to reduce hospitalizations. JAMA Intern Med. 2019 Dec 30. doi: 10.1001/jamainternmed.2019.6130.
Dr. Cool is a hospitalist at Beth Israel Deaconess Medical Center, and instructor in medicine, Harvard Medical School, both in Boston.
Background: Following the ACA’s implementation, several measures were introduced to reduce unnecessary admissions of long-term nursing home residents to hospitals. These measures included an initiative to enhance a nursing home’s on-site capability to handle target populations; the accountable care organization payment model; and the Hospital Readmissions Reduction Program.
Study design: Cross-sectional study using the claims-based nationwide Minimum Data Set during 2011-2016.
Setting: Federally licensed nursing homes in the United States.
Synopsis: The authors examined the number of transfers between federally funded nursing homes and the hospital settings (EDs, observation, or inpatient hospitalizations) for greater than 460,000 long term–stay patients with advanced dementia, advanced heart failure, and/or advanced chronic obstructive pulmonary disease (COPD). A risk-adjusted model showed that, during 2011-2016, there were significant decreases in transfers rates for potentially avoidable conditions, measured as the mean number of transfers per person-year alive, for patients with advanced dementia (2.4 vs. 1.6), heart failure (8.5 vs. 6.7), and COPD (7.8 vs 5.5). Most of this decrease was linked to reductions in acute hospitalizations. Notably, hospice enrollment remained low throughout this time period, despite a high 1-year mortality.
Bottom line: During the 2011-2016 period, transfer rates for patients with advanced dementia, heart failure, and/or COPD from nursing homes to the hospital setting decreased.
Citation: McCarthy EP et al. Hospital transfer rates among U.S. nursing home residents with advanced illness before and after initiatives to reduce hospitalizations. JAMA Intern Med. 2019 Dec 30. doi: 10.1001/jamainternmed.2019.6130.
Dr. Cool is a hospitalist at Beth Israel Deaconess Medical Center, and instructor in medicine, Harvard Medical School, both in Boston.
Background: Following the ACA’s implementation, several measures were introduced to reduce unnecessary admissions of long-term nursing home residents to hospitals. These measures included an initiative to enhance a nursing home’s on-site capability to handle target populations; the accountable care organization payment model; and the Hospital Readmissions Reduction Program.
Study design: Cross-sectional study using the claims-based nationwide Minimum Data Set during 2011-2016.
Setting: Federally licensed nursing homes in the United States.
Synopsis: The authors examined the number of transfers between federally funded nursing homes and the hospital settings (EDs, observation, or inpatient hospitalizations) for greater than 460,000 long term–stay patients with advanced dementia, advanced heart failure, and/or advanced chronic obstructive pulmonary disease (COPD). A risk-adjusted model showed that, during 2011-2016, there were significant decreases in transfers rates for potentially avoidable conditions, measured as the mean number of transfers per person-year alive, for patients with advanced dementia (2.4 vs. 1.6), heart failure (8.5 vs. 6.7), and COPD (7.8 vs 5.5). Most of this decrease was linked to reductions in acute hospitalizations. Notably, hospice enrollment remained low throughout this time period, despite a high 1-year mortality.
Bottom line: During the 2011-2016 period, transfer rates for patients with advanced dementia, heart failure, and/or COPD from nursing homes to the hospital setting decreased.
Citation: McCarthy EP et al. Hospital transfer rates among U.S. nursing home residents with advanced illness before and after initiatives to reduce hospitalizations. JAMA Intern Med. 2019 Dec 30. doi: 10.1001/jamainternmed.2019.6130.
Dr. Cool is a hospitalist at Beth Israel Deaconess Medical Center, and instructor in medicine, Harvard Medical School, both in Boston.
Some things pediatric hospitalists do for no reason
Converge 2021 session
High Value Care in Pediatrics – Things We Do for No Reason
Presenter
Ricardo Quinonez, MD, FAAP, FHM
Session summary
Dr. Ricardo Quinonez, associate professor of pediatrics at Baylor College of Medicine and chief of pediatric hospital medicine at Texas Children’s Hospital, both in Houston, presented key topics in pediatric hospital medicine with low-value care management practices which are not supported by recent literature. This session was a continuation of the popular lecture series first presented at the Society of Hospital Medicine annual conference and the “Choosing Wisely: Things We Do for No Reason” article series in the Journal of Hospital Medicine.
Dr. Quinonez began by discussing high flow nasal cannula (HFNC) in bronchiolitis. At first, early observational studies showed a decrease in intubation rate for children placed on HFNC, which resulted in its high utilization. Randomized, controlled trials (RCTs) later showed that early initiation of HFNC did not affect rates of transfer to the ICU, duration of oxygen need, or length of stay.
He then discussed the treatment of symptomatic spontaneous pneumothorax in children, which is often managed by hospital admission, needle aspiration and chest tube placement, and serial chest x-rays. Instead, recent literature supports an ambulatory approach by placing a device with an 8 French catheter with one way Heimlich valve. After placement, a chest x-ray is performed and if the pneumothorax is stable, the patient is discharged with plans for serial chest x-rays as an outpatient. The device is removed after re-expansion of the lung.
Dr. Quinonez then discussed the frequent pediatric complaint of constipation. He stated that abdominal x-rays for evaluation of “stool burden” are not reliable, and x-rays are recommended against in both U.S. and British guidelines. Furthermore, a high-fiber diet is often recommended as a treatment for constipation. However, after review of recent RCTs and cohort studies, no relationship between a low-fiber diet and constipation was seen. Instead, genetics likely plays a large part in causing constipation.
Lastly, Dr. Quinonez discussed electrolyte testing in children with acute gastroenteritis. Electrolyte testing is commonly performed, yet testing patterns vary greatly across children’s hospitals. One quality improvement project found that after decreasing electrolyte testing by more than a third during hospitalizations, no change in readmission rate or renal replacement therapy was reported.
Key takeaways
- Early use of high flow nasal cannula in bronchiolitis does not affect rates of transfer to the ICU or length of stay.
- Abdominal x-rays to assess for constipation are not recommended and are not reliable in measuring stool burden.
- A low-fiber diet does not cause constipation.
- Quality improvement projects can help physicians “choose wisely” and decrease things we do for no reason.
Dr. Tantoco is an academic med-peds hospitalist at Northwestern Memorial Hospital and Ann & Robert H. Lurie Children’s Hospital of Chicago. She is an instructor of medicine (hospital medicine) and pediatrics at Northwestern University, Chicago.
Converge 2021 session
High Value Care in Pediatrics – Things We Do for No Reason
Presenter
Ricardo Quinonez, MD, FAAP, FHM
Session summary
Dr. Ricardo Quinonez, associate professor of pediatrics at Baylor College of Medicine and chief of pediatric hospital medicine at Texas Children’s Hospital, both in Houston, presented key topics in pediatric hospital medicine with low-value care management practices which are not supported by recent literature. This session was a continuation of the popular lecture series first presented at the Society of Hospital Medicine annual conference and the “Choosing Wisely: Things We Do for No Reason” article series in the Journal of Hospital Medicine.
Dr. Quinonez began by discussing high flow nasal cannula (HFNC) in bronchiolitis. At first, early observational studies showed a decrease in intubation rate for children placed on HFNC, which resulted in its high utilization. Randomized, controlled trials (RCTs) later showed that early initiation of HFNC did not affect rates of transfer to the ICU, duration of oxygen need, or length of stay.
He then discussed the treatment of symptomatic spontaneous pneumothorax in children, which is often managed by hospital admission, needle aspiration and chest tube placement, and serial chest x-rays. Instead, recent literature supports an ambulatory approach by placing a device with an 8 French catheter with one way Heimlich valve. After placement, a chest x-ray is performed and if the pneumothorax is stable, the patient is discharged with plans for serial chest x-rays as an outpatient. The device is removed after re-expansion of the lung.
Dr. Quinonez then discussed the frequent pediatric complaint of constipation. He stated that abdominal x-rays for evaluation of “stool burden” are not reliable, and x-rays are recommended against in both U.S. and British guidelines. Furthermore, a high-fiber diet is often recommended as a treatment for constipation. However, after review of recent RCTs and cohort studies, no relationship between a low-fiber diet and constipation was seen. Instead, genetics likely plays a large part in causing constipation.
Lastly, Dr. Quinonez discussed electrolyte testing in children with acute gastroenteritis. Electrolyte testing is commonly performed, yet testing patterns vary greatly across children’s hospitals. One quality improvement project found that after decreasing electrolyte testing by more than a third during hospitalizations, no change in readmission rate or renal replacement therapy was reported.
Key takeaways
- Early use of high flow nasal cannula in bronchiolitis does not affect rates of transfer to the ICU or length of stay.
- Abdominal x-rays to assess for constipation are not recommended and are not reliable in measuring stool burden.
- A low-fiber diet does not cause constipation.
- Quality improvement projects can help physicians “choose wisely” and decrease things we do for no reason.
Dr. Tantoco is an academic med-peds hospitalist at Northwestern Memorial Hospital and Ann & Robert H. Lurie Children’s Hospital of Chicago. She is an instructor of medicine (hospital medicine) and pediatrics at Northwestern University, Chicago.
Converge 2021 session
High Value Care in Pediatrics – Things We Do for No Reason
Presenter
Ricardo Quinonez, MD, FAAP, FHM
Session summary
Dr. Ricardo Quinonez, associate professor of pediatrics at Baylor College of Medicine and chief of pediatric hospital medicine at Texas Children’s Hospital, both in Houston, presented key topics in pediatric hospital medicine with low-value care management practices which are not supported by recent literature. This session was a continuation of the popular lecture series first presented at the Society of Hospital Medicine annual conference and the “Choosing Wisely: Things We Do for No Reason” article series in the Journal of Hospital Medicine.
Dr. Quinonez began by discussing high flow nasal cannula (HFNC) in bronchiolitis. At first, early observational studies showed a decrease in intubation rate for children placed on HFNC, which resulted in its high utilization. Randomized, controlled trials (RCTs) later showed that early initiation of HFNC did not affect rates of transfer to the ICU, duration of oxygen need, or length of stay.
He then discussed the treatment of symptomatic spontaneous pneumothorax in children, which is often managed by hospital admission, needle aspiration and chest tube placement, and serial chest x-rays. Instead, recent literature supports an ambulatory approach by placing a device with an 8 French catheter with one way Heimlich valve. After placement, a chest x-ray is performed and if the pneumothorax is stable, the patient is discharged with plans for serial chest x-rays as an outpatient. The device is removed after re-expansion of the lung.
Dr. Quinonez then discussed the frequent pediatric complaint of constipation. He stated that abdominal x-rays for evaluation of “stool burden” are not reliable, and x-rays are recommended against in both U.S. and British guidelines. Furthermore, a high-fiber diet is often recommended as a treatment for constipation. However, after review of recent RCTs and cohort studies, no relationship between a low-fiber diet and constipation was seen. Instead, genetics likely plays a large part in causing constipation.
Lastly, Dr. Quinonez discussed electrolyte testing in children with acute gastroenteritis. Electrolyte testing is commonly performed, yet testing patterns vary greatly across children’s hospitals. One quality improvement project found that after decreasing electrolyte testing by more than a third during hospitalizations, no change in readmission rate or renal replacement therapy was reported.
Key takeaways
- Early use of high flow nasal cannula in bronchiolitis does not affect rates of transfer to the ICU or length of stay.
- Abdominal x-rays to assess for constipation are not recommended and are not reliable in measuring stool burden.
- A low-fiber diet does not cause constipation.
- Quality improvement projects can help physicians “choose wisely” and decrease things we do for no reason.
Dr. Tantoco is an academic med-peds hospitalist at Northwestern Memorial Hospital and Ann & Robert H. Lurie Children’s Hospital of Chicago. She is an instructor of medicine (hospital medicine) and pediatrics at Northwestern University, Chicago.
FROM SHM CONVERGE 2021
PHM groups issue Choosing Wisely® recommendations
SHM members involved from the start
The Choosing Wisely® Pediatric Hospital Medicine (PHM) recommendations were published in January 2021. The initial Choosing Wisely® PHM recommendations were released in 2012 and the 2021 recommendations were the result of an extensive and years-long process. The Choosing Wisely® campaign, an initiative led by the American Board of Internal Medicine, was developed to enhance clinician-patient conversations, promoting care that is evidenced based, free from harm, and truly necessary.
The campaign has been embraced by the entire medical community, with more than 70 professional medical societies releasing recommendations. With its emphasis on high value care and eliminating medical waste, it is no surprise that the Choosing Wisely® campaign has found a home in a pediatric hospital medicine community that prides itself on those very traits. This article sheds light on the recommendation development process and identifies challenges and opportunities for implementation across the country.
The Choosing Wisely® process started with the selection of a committee. This group comprised nine members, with equal representation from all three societies affiliated with PHM: the Society of Hospital Medicine (SHM), the American Academy of Pediatrics’ Section on Hospital Medicine (AAP SOHM), and the Academic Pediatric Association (APA). Members of the committee intentionally represented a wide spectrum of practice variability, geography, and clinical experience.
The SHM members of the group were: James O’Callaghan, MD, FAAP, SFHM, pediatric hospitalist at Seattle Children’s Hospital and clinical professor of pediatrics at the University of Washington School of Medicine; Vivian Lee, MD, clinical pediatric hospitalist at Children’s Hospital of Los Angeles and associate professor of pediatrics at USC Keck School of Medicine; and Francisco Alvarez, MD, pediatric hospitalist at Lucile Packard Children’s Hospital, Palo Alto, Calif., and clinical associate professor of pediatrics at Stanford (Calif.) University.
According to Dr. O’Callaghan, it was important that the Choosing Wisely® recommendations come from the broader PHM community, reflecting the community’s priorities.
The committee started the process by asking the broader PHM community to submit ideas for consideration, via SHM’s HMX and the AAP SOHM listserv. The PHM community responded with more than 400 submissions.
Dr. Alvarez said the committee organized and trimmed the initial submissions, removing redundancy, into approximately 200 distinct recommendations. After initial literature review, the committee focused on approximately 70 recommendations. At that point, each member undertook an extensive literature review of the topics.
Once every potential recommendation had received a thorough review, Dr. Lee said, the committee underwent a modified Delphi process to evaluate the list. In this process, each member ranked the recommendations on validity – a measure of the quality of evidence supporting a topic – and feasibility – a measure of the PHM community’s ability to influence compliance.
At the end of this objective process, Dr. O’Callaghan said, the committee chose the five recommendations that received the highest total scores. While there were spirited discussions regarding the data available for each recommendation, all three SHM members of the committee agreed that the objective process played itself out.
Now that the Choosing Wisely® recommendations have been published, the PHM community is challenged to implement these recommendations to spur change for the care of hospitalized children throughout the country. Given the variety that exists in PHM, specifically in practice settings, it may be a daunting task. Dr. O’Callaghan said that differing opinions among physicians in a group may be a challenge to implementing change. “These recommendations allow for those conversations” to take place, he said. Dr. Lee said she hopes these recommendations provide a national panel opinion of the evidence to help support hospitalists in management discussions with others in a hospital – such as subspecialists or emergency department physicians – to increase high value care.
Since the nature of hospital medicine is one of collaboration, these recommendations will allow pediatric hospitalists to lead change throughout their hospitals and health care systems. However, it may not be a quick task. Dr. Alvarez estimates it may take 10-15 years until these recommendations are fully implemented throughout the country. However, there is reason to be optimistic, as the initial PHM Choosing Wisely® recommendations from 2012 have been broadly accepted and now represent national standards of care.
While the road ahead may be long and filled with challenges, the path forward has been clearly delineated, and the PHM community is grateful for the work done by members of the Choosing Wisely® Pediatric Hospital Medicine committee.
Dr. Casey is a pediatric hospitalist at Joe DiMaggio Children’s Hospital in Hollywood, Fla., and a member of the Society of Hospital Medicine’s Pediatric Special Interest Group’s Executive Council.
SHM members involved from the start
SHM members involved from the start
The Choosing Wisely® Pediatric Hospital Medicine (PHM) recommendations were published in January 2021. The initial Choosing Wisely® PHM recommendations were released in 2012 and the 2021 recommendations were the result of an extensive and years-long process. The Choosing Wisely® campaign, an initiative led by the American Board of Internal Medicine, was developed to enhance clinician-patient conversations, promoting care that is evidenced based, free from harm, and truly necessary.
The campaign has been embraced by the entire medical community, with more than 70 professional medical societies releasing recommendations. With its emphasis on high value care and eliminating medical waste, it is no surprise that the Choosing Wisely® campaign has found a home in a pediatric hospital medicine community that prides itself on those very traits. This article sheds light on the recommendation development process and identifies challenges and opportunities for implementation across the country.
The Choosing Wisely® process started with the selection of a committee. This group comprised nine members, with equal representation from all three societies affiliated with PHM: the Society of Hospital Medicine (SHM), the American Academy of Pediatrics’ Section on Hospital Medicine (AAP SOHM), and the Academic Pediatric Association (APA). Members of the committee intentionally represented a wide spectrum of practice variability, geography, and clinical experience.
The SHM members of the group were: James O’Callaghan, MD, FAAP, SFHM, pediatric hospitalist at Seattle Children’s Hospital and clinical professor of pediatrics at the University of Washington School of Medicine; Vivian Lee, MD, clinical pediatric hospitalist at Children’s Hospital of Los Angeles and associate professor of pediatrics at USC Keck School of Medicine; and Francisco Alvarez, MD, pediatric hospitalist at Lucile Packard Children’s Hospital, Palo Alto, Calif., and clinical associate professor of pediatrics at Stanford (Calif.) University.
According to Dr. O’Callaghan, it was important that the Choosing Wisely® recommendations come from the broader PHM community, reflecting the community’s priorities.
The committee started the process by asking the broader PHM community to submit ideas for consideration, via SHM’s HMX and the AAP SOHM listserv. The PHM community responded with more than 400 submissions.
Dr. Alvarez said the committee organized and trimmed the initial submissions, removing redundancy, into approximately 200 distinct recommendations. After initial literature review, the committee focused on approximately 70 recommendations. At that point, each member undertook an extensive literature review of the topics.
Once every potential recommendation had received a thorough review, Dr. Lee said, the committee underwent a modified Delphi process to evaluate the list. In this process, each member ranked the recommendations on validity – a measure of the quality of evidence supporting a topic – and feasibility – a measure of the PHM community’s ability to influence compliance.
At the end of this objective process, Dr. O’Callaghan said, the committee chose the five recommendations that received the highest total scores. While there were spirited discussions regarding the data available for each recommendation, all three SHM members of the committee agreed that the objective process played itself out.
Now that the Choosing Wisely® recommendations have been published, the PHM community is challenged to implement these recommendations to spur change for the care of hospitalized children throughout the country. Given the variety that exists in PHM, specifically in practice settings, it may be a daunting task. Dr. O’Callaghan said that differing opinions among physicians in a group may be a challenge to implementing change. “These recommendations allow for those conversations” to take place, he said. Dr. Lee said she hopes these recommendations provide a national panel opinion of the evidence to help support hospitalists in management discussions with others in a hospital – such as subspecialists or emergency department physicians – to increase high value care.
Since the nature of hospital medicine is one of collaboration, these recommendations will allow pediatric hospitalists to lead change throughout their hospitals and health care systems. However, it may not be a quick task. Dr. Alvarez estimates it may take 10-15 years until these recommendations are fully implemented throughout the country. However, there is reason to be optimistic, as the initial PHM Choosing Wisely® recommendations from 2012 have been broadly accepted and now represent national standards of care.
While the road ahead may be long and filled with challenges, the path forward has been clearly delineated, and the PHM community is grateful for the work done by members of the Choosing Wisely® Pediatric Hospital Medicine committee.
Dr. Casey is a pediatric hospitalist at Joe DiMaggio Children’s Hospital in Hollywood, Fla., and a member of the Society of Hospital Medicine’s Pediatric Special Interest Group’s Executive Council.
The Choosing Wisely® Pediatric Hospital Medicine (PHM) recommendations were published in January 2021. The initial Choosing Wisely® PHM recommendations were released in 2012 and the 2021 recommendations were the result of an extensive and years-long process. The Choosing Wisely® campaign, an initiative led by the American Board of Internal Medicine, was developed to enhance clinician-patient conversations, promoting care that is evidenced based, free from harm, and truly necessary.
The campaign has been embraced by the entire medical community, with more than 70 professional medical societies releasing recommendations. With its emphasis on high value care and eliminating medical waste, it is no surprise that the Choosing Wisely® campaign has found a home in a pediatric hospital medicine community that prides itself on those very traits. This article sheds light on the recommendation development process and identifies challenges and opportunities for implementation across the country.
The Choosing Wisely® process started with the selection of a committee. This group comprised nine members, with equal representation from all three societies affiliated with PHM: the Society of Hospital Medicine (SHM), the American Academy of Pediatrics’ Section on Hospital Medicine (AAP SOHM), and the Academic Pediatric Association (APA). Members of the committee intentionally represented a wide spectrum of practice variability, geography, and clinical experience.
The SHM members of the group were: James O’Callaghan, MD, FAAP, SFHM, pediatric hospitalist at Seattle Children’s Hospital and clinical professor of pediatrics at the University of Washington School of Medicine; Vivian Lee, MD, clinical pediatric hospitalist at Children’s Hospital of Los Angeles and associate professor of pediatrics at USC Keck School of Medicine; and Francisco Alvarez, MD, pediatric hospitalist at Lucile Packard Children’s Hospital, Palo Alto, Calif., and clinical associate professor of pediatrics at Stanford (Calif.) University.
According to Dr. O’Callaghan, it was important that the Choosing Wisely® recommendations come from the broader PHM community, reflecting the community’s priorities.
The committee started the process by asking the broader PHM community to submit ideas for consideration, via SHM’s HMX and the AAP SOHM listserv. The PHM community responded with more than 400 submissions.
Dr. Alvarez said the committee organized and trimmed the initial submissions, removing redundancy, into approximately 200 distinct recommendations. After initial literature review, the committee focused on approximately 70 recommendations. At that point, each member undertook an extensive literature review of the topics.
Once every potential recommendation had received a thorough review, Dr. Lee said, the committee underwent a modified Delphi process to evaluate the list. In this process, each member ranked the recommendations on validity – a measure of the quality of evidence supporting a topic – and feasibility – a measure of the PHM community’s ability to influence compliance.
At the end of this objective process, Dr. O’Callaghan said, the committee chose the five recommendations that received the highest total scores. While there were spirited discussions regarding the data available for each recommendation, all three SHM members of the committee agreed that the objective process played itself out.
Now that the Choosing Wisely® recommendations have been published, the PHM community is challenged to implement these recommendations to spur change for the care of hospitalized children throughout the country. Given the variety that exists in PHM, specifically in practice settings, it may be a daunting task. Dr. O’Callaghan said that differing opinions among physicians in a group may be a challenge to implementing change. “These recommendations allow for those conversations” to take place, he said. Dr. Lee said she hopes these recommendations provide a national panel opinion of the evidence to help support hospitalists in management discussions with others in a hospital – such as subspecialists or emergency department physicians – to increase high value care.
Since the nature of hospital medicine is one of collaboration, these recommendations will allow pediatric hospitalists to lead change throughout their hospitals and health care systems. However, it may not be a quick task. Dr. Alvarez estimates it may take 10-15 years until these recommendations are fully implemented throughout the country. However, there is reason to be optimistic, as the initial PHM Choosing Wisely® recommendations from 2012 have been broadly accepted and now represent national standards of care.
While the road ahead may be long and filled with challenges, the path forward has been clearly delineated, and the PHM community is grateful for the work done by members of the Choosing Wisely® Pediatric Hospital Medicine committee.
Dr. Casey is a pediatric hospitalist at Joe DiMaggio Children’s Hospital in Hollywood, Fla., and a member of the Society of Hospital Medicine’s Pediatric Special Interest Group’s Executive Council.