Letter: Working together to empower our next generation of leaders

Article Type
Changed
Fri, 09/14/2018 - 11:57
Medical students, residents rarely exposed to leadership skills in training

 

Editor:

Dr. Nasim Afsar’s article of June 2, 2017 (“A case for building our leadership skills”) calls for the integration of leadership skills into medical training, and we at the University of Colorado wholeheartedly agree. There are several institutions around the country that are already addressing this problem head on, and we write this letter to highlight a few educational programs we’ve created that demonstrate the power of arming our trainees with this skill set. Furthermore, we wish to encourage collaboration between educators and institutions that are engaged in similar work in the hopes of moving this field forward.

Here at the University of Colorado, a team of Hospital Medicine faculty has created a number of programs to address the leadership education gap in learners at the undergraduate medical education,1 graduate medical education,2 and fellowship levels – creating a pipeline for developing leaders in hospital medicine. These programs include an immersive medical student elective, a dedicated leadership track in the Internal Medicine Residency Program, and a fellowship program in Hospital Medicine focused on Quality Improvement and Health Systems Leadership. Our goal in each of these programs to equip trainees across the spectrum of medical education with the knowledge, attitudes, and skills needed to lead high-functioning teams.

Dr. Tyler Anstett
Critical leadership skills such as stakeholder engagement, change management, conflict management, and negotiation are taught through a variety of modalities including dedicated didactic sessions, personalized mentorship, and experiential work focused on practicing effective leadership behaviors. Ultimately, we hope to accelerate our graduates into positions of health care leadership by providing them with the core skills needed to successfully navigate a career in medicine, though we feel strongly that the development of leadership skills is imperative for all providers in the dynamic health care landscape, regardless of whether individual learners wish to pursue titled leadership positions in their organizations. Further, we agree with Dr. Afsar that leadership skills are important for all physicians, and would add that these skills are imperative regardless of motivations to hold a “titled leadership position.”

In our 5-year experience with our leadership training pipeline, we’ve learned a few important lessons. First, medical trainees are rarely exposed to the leadership skill set elsewhere in medical training, and are eager to learn new approaches to common problems that they encounter on a daily basis: How do I negotiate with a colleague? How can I motivate team members to change behavior to accomplish a goal? How can I use data to support requests for resources?

Secondly, trainees who are exposed to leadership concepts and who are given the opportunity to practice them through challenging project work in the live system routinely make meaningful changes to the health system. Our trainees have revamped our process of managing interhospital transfers, have decreased rates of inappropriate antibiotic usage, and have enhanced the patient experience in our stroke units. Further, our recent graduates have positioned themselves as leaders in health systems. Our graduates are leading a QI program at a major academic center, being promoted to educational leadership roles such as assistant program director within a residency training program, directing process improvement in a developing country, and leading the operations unit of a large physician group.

As Dr. Afsar highlights, there is much work to be done to better equip trainees with the skill set to lead. We strongly encourage other training programs to develop strategies to teach leadership and create forums for trainees to practice their burgeoning skill set. In addition to responding to Dr. Afsar’s call to develop programs, we should form collaborative working groups through our regional and national organizations to develop comprehensive leadership programs for medical trainees at all levels. Collaborating to empower the next generation of providers is critical to our future as hospitalists as we continue to take the lead in improving and shaping our health care systems.
 

Tyler Anstett, DO

Manuel Diaz, MD

Emily Gottenborg, MD

University of Colorado School of Medicine, Anschutz Medical Campus, Aurora, Colo.

References

1. Sweigart JR, Tad-Y D, Kneeland P, Williams MV, Glasheen JJ. Hospital Medicine Resident Training Tracks: Developing the Hospital Medicine Pipeline. J Hosp Med. 2017 Mar;12(3):173-176. doi: 10.12788/jhm.2703.

2. Tad-y D, Price L, Cumbler E, Levin D, Wald H, Glasheen J. An experiential quality improvement curriculum for the inpatient setting – part 1: design phase of a QI project. MedEdPORTAL Publications. 2014;10:9841. http://doi.org/10.15766/mep_2374-8265.9841.

Publications
Topics
Sections
Medical students, residents rarely exposed to leadership skills in training
Medical students, residents rarely exposed to leadership skills in training

 

Editor:

Dr. Nasim Afsar’s article of June 2, 2017 (“A case for building our leadership skills”) calls for the integration of leadership skills into medical training, and we at the University of Colorado wholeheartedly agree. There are several institutions around the country that are already addressing this problem head on, and we write this letter to highlight a few educational programs we’ve created that demonstrate the power of arming our trainees with this skill set. Furthermore, we wish to encourage collaboration between educators and institutions that are engaged in similar work in the hopes of moving this field forward.

Here at the University of Colorado, a team of Hospital Medicine faculty has created a number of programs to address the leadership education gap in learners at the undergraduate medical education,1 graduate medical education,2 and fellowship levels – creating a pipeline for developing leaders in hospital medicine. These programs include an immersive medical student elective, a dedicated leadership track in the Internal Medicine Residency Program, and a fellowship program in Hospital Medicine focused on Quality Improvement and Health Systems Leadership. Our goal in each of these programs to equip trainees across the spectrum of medical education with the knowledge, attitudes, and skills needed to lead high-functioning teams.

Dr. Tyler Anstett
Critical leadership skills such as stakeholder engagement, change management, conflict management, and negotiation are taught through a variety of modalities including dedicated didactic sessions, personalized mentorship, and experiential work focused on practicing effective leadership behaviors. Ultimately, we hope to accelerate our graduates into positions of health care leadership by providing them with the core skills needed to successfully navigate a career in medicine, though we feel strongly that the development of leadership skills is imperative for all providers in the dynamic health care landscape, regardless of whether individual learners wish to pursue titled leadership positions in their organizations. Further, we agree with Dr. Afsar that leadership skills are important for all physicians, and would add that these skills are imperative regardless of motivations to hold a “titled leadership position.”

In our 5-year experience with our leadership training pipeline, we’ve learned a few important lessons. First, medical trainees are rarely exposed to the leadership skill set elsewhere in medical training, and are eager to learn new approaches to common problems that they encounter on a daily basis: How do I negotiate with a colleague? How can I motivate team members to change behavior to accomplish a goal? How can I use data to support requests for resources?

Secondly, trainees who are exposed to leadership concepts and who are given the opportunity to practice them through challenging project work in the live system routinely make meaningful changes to the health system. Our trainees have revamped our process of managing interhospital transfers, have decreased rates of inappropriate antibiotic usage, and have enhanced the patient experience in our stroke units. Further, our recent graduates have positioned themselves as leaders in health systems. Our graduates are leading a QI program at a major academic center, being promoted to educational leadership roles such as assistant program director within a residency training program, directing process improvement in a developing country, and leading the operations unit of a large physician group.

As Dr. Afsar highlights, there is much work to be done to better equip trainees with the skill set to lead. We strongly encourage other training programs to develop strategies to teach leadership and create forums for trainees to practice their burgeoning skill set. In addition to responding to Dr. Afsar’s call to develop programs, we should form collaborative working groups through our regional and national organizations to develop comprehensive leadership programs for medical trainees at all levels. Collaborating to empower the next generation of providers is critical to our future as hospitalists as we continue to take the lead in improving and shaping our health care systems.
 

Tyler Anstett, DO

Manuel Diaz, MD

Emily Gottenborg, MD

University of Colorado School of Medicine, Anschutz Medical Campus, Aurora, Colo.

References

1. Sweigart JR, Tad-Y D, Kneeland P, Williams MV, Glasheen JJ. Hospital Medicine Resident Training Tracks: Developing the Hospital Medicine Pipeline. J Hosp Med. 2017 Mar;12(3):173-176. doi: 10.12788/jhm.2703.

2. Tad-y D, Price L, Cumbler E, Levin D, Wald H, Glasheen J. An experiential quality improvement curriculum for the inpatient setting – part 1: design phase of a QI project. MedEdPORTAL Publications. 2014;10:9841. http://doi.org/10.15766/mep_2374-8265.9841.

 

Editor:

Dr. Nasim Afsar’s article of June 2, 2017 (“A case for building our leadership skills”) calls for the integration of leadership skills into medical training, and we at the University of Colorado wholeheartedly agree. There are several institutions around the country that are already addressing this problem head on, and we write this letter to highlight a few educational programs we’ve created that demonstrate the power of arming our trainees with this skill set. Furthermore, we wish to encourage collaboration between educators and institutions that are engaged in similar work in the hopes of moving this field forward.

Here at the University of Colorado, a team of Hospital Medicine faculty has created a number of programs to address the leadership education gap in learners at the undergraduate medical education,1 graduate medical education,2 and fellowship levels – creating a pipeline for developing leaders in hospital medicine. These programs include an immersive medical student elective, a dedicated leadership track in the Internal Medicine Residency Program, and a fellowship program in Hospital Medicine focused on Quality Improvement and Health Systems Leadership. Our goal in each of these programs to equip trainees across the spectrum of medical education with the knowledge, attitudes, and skills needed to lead high-functioning teams.

Dr. Tyler Anstett
Critical leadership skills such as stakeholder engagement, change management, conflict management, and negotiation are taught through a variety of modalities including dedicated didactic sessions, personalized mentorship, and experiential work focused on practicing effective leadership behaviors. Ultimately, we hope to accelerate our graduates into positions of health care leadership by providing them with the core skills needed to successfully navigate a career in medicine, though we feel strongly that the development of leadership skills is imperative for all providers in the dynamic health care landscape, regardless of whether individual learners wish to pursue titled leadership positions in their organizations. Further, we agree with Dr. Afsar that leadership skills are important for all physicians, and would add that these skills are imperative regardless of motivations to hold a “titled leadership position.”

In our 5-year experience with our leadership training pipeline, we’ve learned a few important lessons. First, medical trainees are rarely exposed to the leadership skill set elsewhere in medical training, and are eager to learn new approaches to common problems that they encounter on a daily basis: How do I negotiate with a colleague? How can I motivate team members to change behavior to accomplish a goal? How can I use data to support requests for resources?

Secondly, trainees who are exposed to leadership concepts and who are given the opportunity to practice them through challenging project work in the live system routinely make meaningful changes to the health system. Our trainees have revamped our process of managing interhospital transfers, have decreased rates of inappropriate antibiotic usage, and have enhanced the patient experience in our stroke units. Further, our recent graduates have positioned themselves as leaders in health systems. Our graduates are leading a QI program at a major academic center, being promoted to educational leadership roles such as assistant program director within a residency training program, directing process improvement in a developing country, and leading the operations unit of a large physician group.

As Dr. Afsar highlights, there is much work to be done to better equip trainees with the skill set to lead. We strongly encourage other training programs to develop strategies to teach leadership and create forums for trainees to practice their burgeoning skill set. In addition to responding to Dr. Afsar’s call to develop programs, we should form collaborative working groups through our regional and national organizations to develop comprehensive leadership programs for medical trainees at all levels. Collaborating to empower the next generation of providers is critical to our future as hospitalists as we continue to take the lead in improving and shaping our health care systems.
 

Tyler Anstett, DO

Manuel Diaz, MD

Emily Gottenborg, MD

University of Colorado School of Medicine, Anschutz Medical Campus, Aurora, Colo.

References

1. Sweigart JR, Tad-Y D, Kneeland P, Williams MV, Glasheen JJ. Hospital Medicine Resident Training Tracks: Developing the Hospital Medicine Pipeline. J Hosp Med. 2017 Mar;12(3):173-176. doi: 10.12788/jhm.2703.

2. Tad-y D, Price L, Cumbler E, Levin D, Wald H, Glasheen J. An experiential quality improvement curriculum for the inpatient setting – part 1: design phase of a QI project. MedEdPORTAL Publications. 2014;10:9841. http://doi.org/10.15766/mep_2374-8265.9841.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default

When one patient decompensates, others on the ward may follow

Article Type
Changed
Fri, 09/14/2018 - 11:59

CLINICAL QUESTION: How does the clinical decompensation of a ward patient affect the likelihood of another patient’s decompensation?


BACKGROUND: Previous research has attempted to identify patient-specific characteristics for risk of decompensation, but there may be environmental factors that contribute.

STUDY DESIGN: Observational cohort study.

SETTING: Thirteen geographically distinct, adult medical-surgical wards at an academic medical center.

SYNOPSIS: Of 83,723 admissions to medical-surgical wards, 4,286 patients experienced cardiac arrest (179) or were transferred to the ICU (4,107). When one or more of these events occurred, other patients on the same ward had an increased risk for either event over the subsequent 6 (OR 1.18; CI, 1.07-1.31) and 12 hours and the risk was higher if more than one event occurred. Importantly, for patients exposed to other patients on the same ward decompensating, there were no differences in the severity of illness for patients transferred to ICU or in overall mortality.

Intuitively, when one patient becomes critically ill, other patients receive less attention. Though the effect was small, this study highlights that diversion of resources may increase other patients to greater risk. Surprisingly, the increased risk was not significant during night-time hours, when resources are more limited, but data collection may have been also affected.

BOTTOM LINE: When a patient becomes critically ill, another patient on the same ward is more likely to decompensate within the next 6-12 hours, but the effect is small.

CITATIONS: Volchenboum SL, Mayampurath A, Göksu-Gürsoy G, et al. Association between in-hospital critical illness events and outcomes in patients on the same ward. JAMA. 2016;316(24):2674-5.



Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

Publications
Topics
Sections

CLINICAL QUESTION: How does the clinical decompensation of a ward patient affect the likelihood of another patient’s decompensation?


BACKGROUND: Previous research has attempted to identify patient-specific characteristics for risk of decompensation, but there may be environmental factors that contribute.

STUDY DESIGN: Observational cohort study.

SETTING: Thirteen geographically distinct, adult medical-surgical wards at an academic medical center.

SYNOPSIS: Of 83,723 admissions to medical-surgical wards, 4,286 patients experienced cardiac arrest (179) or were transferred to the ICU (4,107). When one or more of these events occurred, other patients on the same ward had an increased risk for either event over the subsequent 6 (OR 1.18; CI, 1.07-1.31) and 12 hours and the risk was higher if more than one event occurred. Importantly, for patients exposed to other patients on the same ward decompensating, there were no differences in the severity of illness for patients transferred to ICU or in overall mortality.

Intuitively, when one patient becomes critically ill, other patients receive less attention. Though the effect was small, this study highlights that diversion of resources may increase other patients to greater risk. Surprisingly, the increased risk was not significant during night-time hours, when resources are more limited, but data collection may have been also affected.

BOTTOM LINE: When a patient becomes critically ill, another patient on the same ward is more likely to decompensate within the next 6-12 hours, but the effect is small.

CITATIONS: Volchenboum SL, Mayampurath A, Göksu-Gürsoy G, et al. Association between in-hospital critical illness events and outcomes in patients on the same ward. JAMA. 2016;316(24):2674-5.



Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

CLINICAL QUESTION: How does the clinical decompensation of a ward patient affect the likelihood of another patient’s decompensation?


BACKGROUND: Previous research has attempted to identify patient-specific characteristics for risk of decompensation, but there may be environmental factors that contribute.

STUDY DESIGN: Observational cohort study.

SETTING: Thirteen geographically distinct, adult medical-surgical wards at an academic medical center.

SYNOPSIS: Of 83,723 admissions to medical-surgical wards, 4,286 patients experienced cardiac arrest (179) or were transferred to the ICU (4,107). When one or more of these events occurred, other patients on the same ward had an increased risk for either event over the subsequent 6 (OR 1.18; CI, 1.07-1.31) and 12 hours and the risk was higher if more than one event occurred. Importantly, for patients exposed to other patients on the same ward decompensating, there were no differences in the severity of illness for patients transferred to ICU or in overall mortality.

Intuitively, when one patient becomes critically ill, other patients receive less attention. Though the effect was small, this study highlights that diversion of resources may increase other patients to greater risk. Surprisingly, the increased risk was not significant during night-time hours, when resources are more limited, but data collection may have been also affected.

BOTTOM LINE: When a patient becomes critically ill, another patient on the same ward is more likely to decompensate within the next 6-12 hours, but the effect is small.

CITATIONS: Volchenboum SL, Mayampurath A, Göksu-Gürsoy G, et al. Association between in-hospital critical illness events and outcomes in patients on the same ward. JAMA. 2016;316(24):2674-5.



Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME

Principles learned from a successful improvement program can increase compliance and reduce hospital acquired VTEs (HA-VTEs) across multiple institutions

Article Type
Changed
Fri, 09/14/2018 - 11:59

 

CLINICAL QUESTION: Can a single institution’s VTE prophylaxis program be scaled to increase prophylaxis and reduce HA-VTEs across multiple institutions?

Dr. Tyler Anstett
Background: HA-VTEs are a preventable cause of avoidable harm. Despite recommendations and use as a quality benchmark, inpatient VTE prophylaxis is suboptimal. By implementing a quality improvement program, the University of California, San Diego increased VTE prophylaxis and reduced the number of HA-VTEs.

STUDY DESIGN: prospective, unblinded, open-intervention study

SETTING: Inpatient medical and surgical services at five independent, cooperating academic hospitals

SYNOPSIS: Each site used common principles to develop their own multi-pronged VTE prophylaxis program including structured order-sets, simplified risk-assessment, feedback to providers, and education programs.

306,906 inpatient discharges were evaluated with average VTE prophylaxis bundle compliance reaching 89% across all institutions. HA-VTE rates declined from 0.90% to 0.69% (RR, 0.76; CI, 0.68-0.85) – equivalent to averting 81 pulmonary emboli and 89 deep venous thrombi. Of note, HA-VTE rates only declined at three of the five institutions with the greatest improvement at those with the highest baseline rates. Further, while HA-VTE rates improved across all patient populations, the incidence reduction was statistically significant in Oncologic and Surgical populations.

BOTTOM LINE: Hospital systems can reduce HA-VTE and increase VTE prophylaxis by implementing a bundle of interventions and these efforts are highest yield for Oncologic and Surgical populations.

CITATIONS: Jenkins IH, White RH, Amin AN, et al. Reducing the incidence of hospital-associated venous thromboembolism within a network of academic hospitals: findings from five University of California medical centers. J Hosp Med. 2016;11:S22-8.

 

Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

Publications
Topics
Sections

 

CLINICAL QUESTION: Can a single institution’s VTE prophylaxis program be scaled to increase prophylaxis and reduce HA-VTEs across multiple institutions?

Dr. Tyler Anstett
Background: HA-VTEs are a preventable cause of avoidable harm. Despite recommendations and use as a quality benchmark, inpatient VTE prophylaxis is suboptimal. By implementing a quality improvement program, the University of California, San Diego increased VTE prophylaxis and reduced the number of HA-VTEs.

STUDY DESIGN: prospective, unblinded, open-intervention study

SETTING: Inpatient medical and surgical services at five independent, cooperating academic hospitals

SYNOPSIS: Each site used common principles to develop their own multi-pronged VTE prophylaxis program including structured order-sets, simplified risk-assessment, feedback to providers, and education programs.

306,906 inpatient discharges were evaluated with average VTE prophylaxis bundle compliance reaching 89% across all institutions. HA-VTE rates declined from 0.90% to 0.69% (RR, 0.76; CI, 0.68-0.85) – equivalent to averting 81 pulmonary emboli and 89 deep venous thrombi. Of note, HA-VTE rates only declined at three of the five institutions with the greatest improvement at those with the highest baseline rates. Further, while HA-VTE rates improved across all patient populations, the incidence reduction was statistically significant in Oncologic and Surgical populations.

BOTTOM LINE: Hospital systems can reduce HA-VTE and increase VTE prophylaxis by implementing a bundle of interventions and these efforts are highest yield for Oncologic and Surgical populations.

CITATIONS: Jenkins IH, White RH, Amin AN, et al. Reducing the incidence of hospital-associated venous thromboembolism within a network of academic hospitals: findings from five University of California medical centers. J Hosp Med. 2016;11:S22-8.

 

Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

 

CLINICAL QUESTION: Can a single institution’s VTE prophylaxis program be scaled to increase prophylaxis and reduce HA-VTEs across multiple institutions?

Dr. Tyler Anstett
Background: HA-VTEs are a preventable cause of avoidable harm. Despite recommendations and use as a quality benchmark, inpatient VTE prophylaxis is suboptimal. By implementing a quality improvement program, the University of California, San Diego increased VTE prophylaxis and reduced the number of HA-VTEs.

STUDY DESIGN: prospective, unblinded, open-intervention study

SETTING: Inpatient medical and surgical services at five independent, cooperating academic hospitals

SYNOPSIS: Each site used common principles to develop their own multi-pronged VTE prophylaxis program including structured order-sets, simplified risk-assessment, feedback to providers, and education programs.

306,906 inpatient discharges were evaluated with average VTE prophylaxis bundle compliance reaching 89% across all institutions. HA-VTE rates declined from 0.90% to 0.69% (RR, 0.76; CI, 0.68-0.85) – equivalent to averting 81 pulmonary emboli and 89 deep venous thrombi. Of note, HA-VTE rates only declined at three of the five institutions with the greatest improvement at those with the highest baseline rates. Further, while HA-VTE rates improved across all patient populations, the incidence reduction was statistically significant in Oncologic and Surgical populations.

BOTTOM LINE: Hospital systems can reduce HA-VTE and increase VTE prophylaxis by implementing a bundle of interventions and these efforts are highest yield for Oncologic and Surgical populations.

CITATIONS: Jenkins IH, White RH, Amin AN, et al. Reducing the incidence of hospital-associated venous thromboembolism within a network of academic hospitals: findings from five University of California medical centers. J Hosp Med. 2016;11:S22-8.

 

Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME

When one patient decompensates, others on the ward may follow

Article Type
Changed
Fri, 09/14/2018 - 12:00

 

Clinical question: How does the clinical decompensation of a ward patient affect the likelihood of another patient’s decompensation?

Background: Previous research has attempted to identify patient-specific characteristics for risk of decompensation, but there may be environmental factors that contribute.

Study design: Observational cohort study.

Setting: Thirteen geographically distinct, adult medical-surgical wards at an academic medical center.

Synopsis: Of 83,723 admissions to medical-surgical wards, 4,286 patients experienced cardiac arrest (179) or were transferred to the ICU (4,107). When one or more of these events occurred, other patients on the same ward had an increased risk for either event over the subsequent 6 (OR 1.18; CI, 1.07-1.31) and 12 hours and the risk was higher if more than one event occurred. Importantly, for patients exposed to other patients on the same ward decompensating, there were no differences in the severity of illness for patients transferred to ICU or in overall mortality.
 

 

Intuitively, when one patient becomes critically ill, other patients receive less attention. Though the effect was small, this study highlights that diversion of resources may increase other patients to greater risk. Surprisingly, the increased risk was not significant during night-time hours, when resources are more limited, but data collection may have been also affected.

Bottom Line: When a patient becomes critically ill, another patient on the same ward is more likely to decompensate within the next 6-12 hours, but the effect is small.

Citations: Volchenboum SL, Mayampurath A, Göksu-Gürsoy G, et al. Association between in-hospital critical illness events and outcomes in patients on the same ward. JAMA. 2016;316(24):2674-5.

Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

Publications
Topics
Sections

 

Clinical question: How does the clinical decompensation of a ward patient affect the likelihood of another patient’s decompensation?

Background: Previous research has attempted to identify patient-specific characteristics for risk of decompensation, but there may be environmental factors that contribute.

Study design: Observational cohort study.

Setting: Thirteen geographically distinct, adult medical-surgical wards at an academic medical center.

Synopsis: Of 83,723 admissions to medical-surgical wards, 4,286 patients experienced cardiac arrest (179) or were transferred to the ICU (4,107). When one or more of these events occurred, other patients on the same ward had an increased risk for either event over the subsequent 6 (OR 1.18; CI, 1.07-1.31) and 12 hours and the risk was higher if more than one event occurred. Importantly, for patients exposed to other patients on the same ward decompensating, there were no differences in the severity of illness for patients transferred to ICU or in overall mortality.
 

 

Intuitively, when one patient becomes critically ill, other patients receive less attention. Though the effect was small, this study highlights that diversion of resources may increase other patients to greater risk. Surprisingly, the increased risk was not significant during night-time hours, when resources are more limited, but data collection may have been also affected.

Bottom Line: When a patient becomes critically ill, another patient on the same ward is more likely to decompensate within the next 6-12 hours, but the effect is small.

Citations: Volchenboum SL, Mayampurath A, Göksu-Gürsoy G, et al. Association between in-hospital critical illness events and outcomes in patients on the same ward. JAMA. 2016;316(24):2674-5.

Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

 

Clinical question: How does the clinical decompensation of a ward patient affect the likelihood of another patient’s decompensation?

Background: Previous research has attempted to identify patient-specific characteristics for risk of decompensation, but there may be environmental factors that contribute.

Study design: Observational cohort study.

Setting: Thirteen geographically distinct, adult medical-surgical wards at an academic medical center.

Synopsis: Of 83,723 admissions to medical-surgical wards, 4,286 patients experienced cardiac arrest (179) or were transferred to the ICU (4,107). When one or more of these events occurred, other patients on the same ward had an increased risk for either event over the subsequent 6 (OR 1.18; CI, 1.07-1.31) and 12 hours and the risk was higher if more than one event occurred. Importantly, for patients exposed to other patients on the same ward decompensating, there were no differences in the severity of illness for patients transferred to ICU or in overall mortality.
 

 

Intuitively, when one patient becomes critically ill, other patients receive less attention. Though the effect was small, this study highlights that diversion of resources may increase other patients to greater risk. Surprisingly, the increased risk was not significant during night-time hours, when resources are more limited, but data collection may have been also affected.

Bottom Line: When a patient becomes critically ill, another patient on the same ward is more likely to decompensate within the next 6-12 hours, but the effect is small.

Citations: Volchenboum SL, Mayampurath A, Göksu-Gürsoy G, et al. Association between in-hospital critical illness events and outcomes in patients on the same ward. JAMA. 2016;316(24):2674-5.

Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME

Principles learned from a successful improvement program can increase compliance and reduce hospital acquired VTEs (HA-VTEs) across multiple institutions

Article Type
Changed
Fri, 09/14/2018 - 12:00

 

Clinical question: Can a single institution’s VTE prophylaxis program be scaled to increase prophylaxis and reduce HA-VTEs across multiple institutions?

Dr. Tyler Anstett
Background: HA-VTEs are a preventable cause of avoidable harm. Despite recommendations and use as a quality benchmark, inpatient VTE prophylaxis is suboptimal. By implementing a quality improvement program, the University of California, San Diego increased VTE prophylaxis and reduced the number of HA-VTEs.

Study design: prospective, unblinded, open-intervention study

Setting: Inpatient medical and surgical services at five independent, cooperating academic hospitals

Synopsis: Each site used common principles to develop their own multi-pronged VTE prophylaxis program including structured order-sets, simplified risk-assessment, feedback to providers, and education programs.
 

 

306,906 inpatient discharges were evaluated with average VTE prophylaxis bundle compliance reaching 89% across all institutions. HA-VTE rates declined from 0.90% to 0.69% (RR, 0.76; CI, 0.68-0.85) – equivalent to averting 81 pulmonary emboli and 89 deep venous thrombi. Of note, HA-VTE rates only declined at three of the five institutions with the greatest improvement at those with the highest baseline rates. Further, while HA-VTE rates improved across all patient populations, the incidence reduction was statistically significant in Oncologic and Surgical populations.

Bottom Line: Hospital systems can reduce HA-VTE and increase VTE prophylaxis by implementing a bundle of interventions and these efforts are highest yield for Oncologic and Surgical populations.

Citations: Jenkins IH, White RH, Amin AN, et al. Reducing the incidence of hospital-associated venous thromboembolism within a network of academic hospitals: findings from five University of California medical centers. J Hosp Med. 2016;11:S22-8.

Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

Publications
Topics
Sections

 

Clinical question: Can a single institution’s VTE prophylaxis program be scaled to increase prophylaxis and reduce HA-VTEs across multiple institutions?

Dr. Tyler Anstett
Background: HA-VTEs are a preventable cause of avoidable harm. Despite recommendations and use as a quality benchmark, inpatient VTE prophylaxis is suboptimal. By implementing a quality improvement program, the University of California, San Diego increased VTE prophylaxis and reduced the number of HA-VTEs.

Study design: prospective, unblinded, open-intervention study

Setting: Inpatient medical and surgical services at five independent, cooperating academic hospitals

Synopsis: Each site used common principles to develop their own multi-pronged VTE prophylaxis program including structured order-sets, simplified risk-assessment, feedback to providers, and education programs.
 

 

306,906 inpatient discharges were evaluated with average VTE prophylaxis bundle compliance reaching 89% across all institutions. HA-VTE rates declined from 0.90% to 0.69% (RR, 0.76; CI, 0.68-0.85) – equivalent to averting 81 pulmonary emboli and 89 deep venous thrombi. Of note, HA-VTE rates only declined at three of the five institutions with the greatest improvement at those with the highest baseline rates. Further, while HA-VTE rates improved across all patient populations, the incidence reduction was statistically significant in Oncologic and Surgical populations.

Bottom Line: Hospital systems can reduce HA-VTE and increase VTE prophylaxis by implementing a bundle of interventions and these efforts are highest yield for Oncologic and Surgical populations.

Citations: Jenkins IH, White RH, Amin AN, et al. Reducing the incidence of hospital-associated venous thromboembolism within a network of academic hospitals: findings from five University of California medical centers. J Hosp Med. 2016;11:S22-8.

Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

 

Clinical question: Can a single institution’s VTE prophylaxis program be scaled to increase prophylaxis and reduce HA-VTEs across multiple institutions?

Dr. Tyler Anstett
Background: HA-VTEs are a preventable cause of avoidable harm. Despite recommendations and use as a quality benchmark, inpatient VTE prophylaxis is suboptimal. By implementing a quality improvement program, the University of California, San Diego increased VTE prophylaxis and reduced the number of HA-VTEs.

Study design: prospective, unblinded, open-intervention study

Setting: Inpatient medical and surgical services at five independent, cooperating academic hospitals

Synopsis: Each site used common principles to develop their own multi-pronged VTE prophylaxis program including structured order-sets, simplified risk-assessment, feedback to providers, and education programs.
 

 

306,906 inpatient discharges were evaluated with average VTE prophylaxis bundle compliance reaching 89% across all institutions. HA-VTE rates declined from 0.90% to 0.69% (RR, 0.76; CI, 0.68-0.85) – equivalent to averting 81 pulmonary emboli and 89 deep venous thrombi. Of note, HA-VTE rates only declined at three of the five institutions with the greatest improvement at those with the highest baseline rates. Further, while HA-VTE rates improved across all patient populations, the incidence reduction was statistically significant in Oncologic and Surgical populations.

Bottom Line: Hospital systems can reduce HA-VTE and increase VTE prophylaxis by implementing a bundle of interventions and these efforts are highest yield for Oncologic and Surgical populations.

Citations: Jenkins IH, White RH, Amin AN, et al. Reducing the incidence of hospital-associated venous thromboembolism within a network of academic hospitals: findings from five University of California medical centers. J Hosp Med. 2016;11:S22-8.

Dr. Anstett is Hospital Medicine Fellow in Quality and Systems Leadership, Division of Hospital Medicine, University of Colorado School of Medicine, Aurora.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME