Does taking BP medicine at night (vs morning) result in fewer cardiovascular events?

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Does taking BP medicine at night (vs morning) result in fewer cardiovascular events?

Evidence summary

Recent UK study shows no difference by timing

A 2022 UK prospective, randomized, multicenter trial assigned 21,104 predominantly White adults (58% men) with hypertension to take their usual antihypertensive medication either in the morning (6 am to 10 am) or evening (8 pm to midnight).1 A computer algorithm randomized patients, but neither the patients nor the investigators were masked to allocation.

All patient baseline characteristics were equivalent between groups. If troubled by nocturia, patients in the evening group taking diuretics were told to take only the diuretic earlier (6 pm) and subsequently to change to morning if they experienced persistent bothersome symptoms. More patients in the evening administration group than in the morning administration group reported having to change the time of day that they took their diuretic (546 [5.2%] vs 71 [0.7%]; P < .0001).

The median follow-up was 5.2 years. Data were collected at regular intervals through patient completion of online questionnaires and researcher analysis of ­National Health Service data on hospitalization and death. The intention-to-treat analysis showed no difference in the primary outcome (a composite of vascular death, nonfatal myocardial infarction, or nonfatal stroke) between the evening and morning administration groups (0.69 events vs 0.72 events per 100 person-years; hazard ratio [HR] = 0.95; 95% CI, 0.83-1.10; P = .53).

The controversial Hygia Project favored evening

Prior to the UK study was the Hygia Chronotherapy Trial, a prospective, controlled, multicenter study conducted within the primary care setting in Spain. Caucasian Spanish adults (N = 19,168; mean age, 61 years; 56% men) with hypertension were randomly assigned to take all prescribed antihypertensive medication either at bedtime or upon waking.2

The Hygia Project initially sought to establish the value of ambulatory blood pressure monitoring (ABPM) compared to office blood pressure (BP) monitoring and to explore the prognostic value of sleeping BP.3 The study objectives evolved over time. The randomization process was not clearly described,2,3 but multiple randomizations were alluded to. The authors stated that “for any of these chronotherapy trials” randomizations were done separately for “each participating center” and “randomization of participants to treatment-time regimen is done separately for each hypertension medication or combination being tested.”

A 2022 UK multicenter trial found no difference between the evening and morning administration groups in a composite outcome of vascular death, nonfatal myocardial infarction, or nonfatal stroke.

The baseline characteristics of patients in the evening and morning administration groups were similar, but statistically significant differences existed in BMI (29.6 vs 29.7; P = .030) and sleep-time systolic BP percent decline (9.3 vs 9.0; P < .001). Mean baseline 48-hour BP was 132/77 mm Hg. Hypertension was defined as an awake systolic BP ≥ 135 mm Hg or diastolic BP ≥ 85 mm Hg, or asleep systolic BP ≥ 120 mm Hg or diastolic BP ≥ 70 mm Hg. BP readings were confirmed with 48-hour ABPM. Exclusion criteria included pregnancy, a history of substance use disorder, night-shift work, and cardiovascular disease (defined as unstable angina, heart failure, life-threatening arrhythmia, atrial fibrillation, kidney failure, and grade III-IV retinopathy).

Prescribers were free to prescribe medicines from 5 classes (diuretic, angiotensin-converting enzyme inhibitor, angiotensin receptor blocker, calcium channel blocker, or beta-blocker) as they thought appropriate, were encouraged to use fixed-dose combination pills, and were told not to use split (eg, twice per day) dosing. Annual ­48-hour ABPM was completed, and patients’ electronic health records were analyzed by blinded investigators. Median follow-up was 6.3 years, and only 84 participants failed to complete the minimum 1-year participation requirement.

Continue to: The primary outcome...

 

 

The primary outcome—a composite of cardiovascular death, myocardial infarction, coronary revascularization, heart failure, or stroke—occurred in 1752 patients, favoring the bedtime group (HR = 0.55; 95% CI, 0.50-0.61; P < .001). The calculated number of events was 1130 in the morning administration group and 622 in the evening administration group; the authors did not explicitly report the event numbers in each group. Each component of the composite outcome also favored evening administration (P < .001 for all): cardiovascular death (HR = 0.44; 95% CI, 0.34-0.56), myocardial infarction (HR = 0.66; 95% CI, 0.52-0.84), coronary revascularization (HR = 0.60; 95% CI, 0.47-0.75), heart failure (HR = 0.58; 95% CI, 0.49-0.70), and stroke (HR = 0.51; 95% CI, 0.41-0.63).

The complicated, layered study design and randomization methods limit the ability to critically appraise the study.

Smaller Spanish study also supported evening administration

A prior, smaller, prospective randomized trial conducted by the same researchers as the Hygia Project found even greater benefits to evening BP medication administration.4 The 2156 Spanish patients (52% men; average age, 55 years) from multiple primary care offices were randomized 1:1 to BP medication administration either upon awakening or at bedtime. Dozens of baseline characteristics were evenly distributed except for age (55.0 vs 56.3; P = .021) and creatinine (0.96 vs 0.98; P = .028), both of which were lower in the evening group.

After a median follow-up of 5.6 years, the bedtime group had significantly lower total events (187 events in the morning group vs 68 in the evening group; relative risk [RR] = 0.39; 95% CI, 0.29-0.51; P < .001). Individual cardiovascular outcomes also dramatically favored the evening group: total deaths (12 vs 28; P = .008), cardiovascular deaths (3 vs 14; P = .006), cardiovascular disease events (30 vs 74; P < .001), stroke (7 vs 24; P = .001), and heart failure (8 vs 33; P < .001).

Limits of both the UK trial and the Hygia Project trial included single countries of study with a lack of racial and ethnic diversity, and greater nonadherence to the evening administration of the medications.

Recommendations from others

A 2022 consensus statement from the International Society of Hypertension, published before the UK trial, recommended against bedtime dosing until more high-quality data became available. They pointed to evidence showing higher medication adherence with morning dosing, risk for asleep BP dropping, and worsening daytime BP control as reasons to continue morning administration.5 Other reviewers have questioned the Hygia Project results due to their reported implausibly large effects on cardiovascular outcomes, noting that independent attempts to verify the methods and the data have proven challenging and are not completed.6

Editor’s takeaway

I confess that I was swayed by the results of the Hygia Project; for a year or so, I advised my patients to take at least 1 BP pill at night. But after the UK study came out, I needed to reconsider. I began to worry that the great outcomes of nocturnal therapy may have been a mirage. I have returned to counseling patients to take their BP medications in whichever way fosters consistency while minimizing adverse effects for them.

References

1. Mackenzie IS, Rogers A, Poulter NR, et al; TIME Study Group. Cardiovascular outcomes in adults with hypertension with evening versus morning dosing of usual antihypertensives in the UK (TIME study): a prospective, randomised, open-label, blinded-endpoint clinical trial. Lancet. 2022;400:1417-1425. doi: 10.1016/S0140-6736(22)01786-X

2. Hermida RC, Crespo JJ, Domínguez-Sardiña M, et al; Hygia Project Investigators. Bedtime hypertension treatment improves cardiovascular risk reduction: the Hygia Chronotherapy Trial. Eur Heart J. 2020;41:4565-4576. doi: 10.1093/eurheartj/ehz754

3. Hermida RC. Sleep-time ambulatory blood pressure as a prognostic marker of vascular and other risks and therapeutic target for prevention by hypertension chronotherapy: rationale and design of the Hygia Project. Chronobiol Int. 2016;33:906-936. doi: 10.1080/07420528.2016.1181078

4. Hermida RC, Ayala DE, Mojón A, et al. Influence of circadian time of hypertension treatment on cardiovascular risk: results of the MAPEC study. Chronobiol Int. 2010;27:1629-1651. doi: 10.3109/07420528.2010.510230

5. Stergiou G, Brunström M, MacDonald T, et al. Bedtime dosing of antihypertensive medications: systematic review and consensus statement: International Society of Hypertension position paper endorsed by World Hypertension League and European Society of Hypertension. J Hypertens. 2022;40:1847-1858. doi: 10.1097/HJH.0000000000003240

6. Brunström M, Kjeldsen SE, Kreutz R, et al. Missing verification of source data in hypertension research: The HYGIA PROJECT in Perspective. Hypertension. 2021;78:555-558. doi: 10.1161/HYPERTENSIONAHA.121.17356

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Robert Martin, DO
Rick Guthmann, MD, MPH

Advocate Illinois Masonic Family Medicine Residency, Chicago

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Valley Family Medicine Renton, WA

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Rick Guthmann, MD, MPH

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Valley Family Medicine Renton, WA

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Rick Guthmann, MD, MPH

Advocate Illinois Masonic Family Medicine Residency, Chicago

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Valley Family Medicine Renton, WA

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Evidence summary

Recent UK study shows no difference by timing

A 2022 UK prospective, randomized, multicenter trial assigned 21,104 predominantly White adults (58% men) with hypertension to take their usual antihypertensive medication either in the morning (6 am to 10 am) or evening (8 pm to midnight).1 A computer algorithm randomized patients, but neither the patients nor the investigators were masked to allocation.

All patient baseline characteristics were equivalent between groups. If troubled by nocturia, patients in the evening group taking diuretics were told to take only the diuretic earlier (6 pm) and subsequently to change to morning if they experienced persistent bothersome symptoms. More patients in the evening administration group than in the morning administration group reported having to change the time of day that they took their diuretic (546 [5.2%] vs 71 [0.7%]; P < .0001).

The median follow-up was 5.2 years. Data were collected at regular intervals through patient completion of online questionnaires and researcher analysis of ­National Health Service data on hospitalization and death. The intention-to-treat analysis showed no difference in the primary outcome (a composite of vascular death, nonfatal myocardial infarction, or nonfatal stroke) between the evening and morning administration groups (0.69 events vs 0.72 events per 100 person-years; hazard ratio [HR] = 0.95; 95% CI, 0.83-1.10; P = .53).

The controversial Hygia Project favored evening

Prior to the UK study was the Hygia Chronotherapy Trial, a prospective, controlled, multicenter study conducted within the primary care setting in Spain. Caucasian Spanish adults (N = 19,168; mean age, 61 years; 56% men) with hypertension were randomly assigned to take all prescribed antihypertensive medication either at bedtime or upon waking.2

The Hygia Project initially sought to establish the value of ambulatory blood pressure monitoring (ABPM) compared to office blood pressure (BP) monitoring and to explore the prognostic value of sleeping BP.3 The study objectives evolved over time. The randomization process was not clearly described,2,3 but multiple randomizations were alluded to. The authors stated that “for any of these chronotherapy trials” randomizations were done separately for “each participating center” and “randomization of participants to treatment-time regimen is done separately for each hypertension medication or combination being tested.”

A 2022 UK multicenter trial found no difference between the evening and morning administration groups in a composite outcome of vascular death, nonfatal myocardial infarction, or nonfatal stroke.

The baseline characteristics of patients in the evening and morning administration groups were similar, but statistically significant differences existed in BMI (29.6 vs 29.7; P = .030) and sleep-time systolic BP percent decline (9.3 vs 9.0; P < .001). Mean baseline 48-hour BP was 132/77 mm Hg. Hypertension was defined as an awake systolic BP ≥ 135 mm Hg or diastolic BP ≥ 85 mm Hg, or asleep systolic BP ≥ 120 mm Hg or diastolic BP ≥ 70 mm Hg. BP readings were confirmed with 48-hour ABPM. Exclusion criteria included pregnancy, a history of substance use disorder, night-shift work, and cardiovascular disease (defined as unstable angina, heart failure, life-threatening arrhythmia, atrial fibrillation, kidney failure, and grade III-IV retinopathy).

Prescribers were free to prescribe medicines from 5 classes (diuretic, angiotensin-converting enzyme inhibitor, angiotensin receptor blocker, calcium channel blocker, or beta-blocker) as they thought appropriate, were encouraged to use fixed-dose combination pills, and were told not to use split (eg, twice per day) dosing. Annual ­48-hour ABPM was completed, and patients’ electronic health records were analyzed by blinded investigators. Median follow-up was 6.3 years, and only 84 participants failed to complete the minimum 1-year participation requirement.

Continue to: The primary outcome...

 

 

The primary outcome—a composite of cardiovascular death, myocardial infarction, coronary revascularization, heart failure, or stroke—occurred in 1752 patients, favoring the bedtime group (HR = 0.55; 95% CI, 0.50-0.61; P < .001). The calculated number of events was 1130 in the morning administration group and 622 in the evening administration group; the authors did not explicitly report the event numbers in each group. Each component of the composite outcome also favored evening administration (P < .001 for all): cardiovascular death (HR = 0.44; 95% CI, 0.34-0.56), myocardial infarction (HR = 0.66; 95% CI, 0.52-0.84), coronary revascularization (HR = 0.60; 95% CI, 0.47-0.75), heart failure (HR = 0.58; 95% CI, 0.49-0.70), and stroke (HR = 0.51; 95% CI, 0.41-0.63).

The complicated, layered study design and randomization methods limit the ability to critically appraise the study.

Smaller Spanish study also supported evening administration

A prior, smaller, prospective randomized trial conducted by the same researchers as the Hygia Project found even greater benefits to evening BP medication administration.4 The 2156 Spanish patients (52% men; average age, 55 years) from multiple primary care offices were randomized 1:1 to BP medication administration either upon awakening or at bedtime. Dozens of baseline characteristics were evenly distributed except for age (55.0 vs 56.3; P = .021) and creatinine (0.96 vs 0.98; P = .028), both of which were lower in the evening group.

After a median follow-up of 5.6 years, the bedtime group had significantly lower total events (187 events in the morning group vs 68 in the evening group; relative risk [RR] = 0.39; 95% CI, 0.29-0.51; P < .001). Individual cardiovascular outcomes also dramatically favored the evening group: total deaths (12 vs 28; P = .008), cardiovascular deaths (3 vs 14; P = .006), cardiovascular disease events (30 vs 74; P < .001), stroke (7 vs 24; P = .001), and heart failure (8 vs 33; P < .001).

Limits of both the UK trial and the Hygia Project trial included single countries of study with a lack of racial and ethnic diversity, and greater nonadherence to the evening administration of the medications.

Recommendations from others

A 2022 consensus statement from the International Society of Hypertension, published before the UK trial, recommended against bedtime dosing until more high-quality data became available. They pointed to evidence showing higher medication adherence with morning dosing, risk for asleep BP dropping, and worsening daytime BP control as reasons to continue morning administration.5 Other reviewers have questioned the Hygia Project results due to their reported implausibly large effects on cardiovascular outcomes, noting that independent attempts to verify the methods and the data have proven challenging and are not completed.6

Editor’s takeaway

I confess that I was swayed by the results of the Hygia Project; for a year or so, I advised my patients to take at least 1 BP pill at night. But after the UK study came out, I needed to reconsider. I began to worry that the great outcomes of nocturnal therapy may have been a mirage. I have returned to counseling patients to take their BP medications in whichever way fosters consistency while minimizing adverse effects for them.

Evidence summary

Recent UK study shows no difference by timing

A 2022 UK prospective, randomized, multicenter trial assigned 21,104 predominantly White adults (58% men) with hypertension to take their usual antihypertensive medication either in the morning (6 am to 10 am) or evening (8 pm to midnight).1 A computer algorithm randomized patients, but neither the patients nor the investigators were masked to allocation.

All patient baseline characteristics were equivalent between groups. If troubled by nocturia, patients in the evening group taking diuretics were told to take only the diuretic earlier (6 pm) and subsequently to change to morning if they experienced persistent bothersome symptoms. More patients in the evening administration group than in the morning administration group reported having to change the time of day that they took their diuretic (546 [5.2%] vs 71 [0.7%]; P < .0001).

The median follow-up was 5.2 years. Data were collected at regular intervals through patient completion of online questionnaires and researcher analysis of ­National Health Service data on hospitalization and death. The intention-to-treat analysis showed no difference in the primary outcome (a composite of vascular death, nonfatal myocardial infarction, or nonfatal stroke) between the evening and morning administration groups (0.69 events vs 0.72 events per 100 person-years; hazard ratio [HR] = 0.95; 95% CI, 0.83-1.10; P = .53).

The controversial Hygia Project favored evening

Prior to the UK study was the Hygia Chronotherapy Trial, a prospective, controlled, multicenter study conducted within the primary care setting in Spain. Caucasian Spanish adults (N = 19,168; mean age, 61 years; 56% men) with hypertension were randomly assigned to take all prescribed antihypertensive medication either at bedtime or upon waking.2

The Hygia Project initially sought to establish the value of ambulatory blood pressure monitoring (ABPM) compared to office blood pressure (BP) monitoring and to explore the prognostic value of sleeping BP.3 The study objectives evolved over time. The randomization process was not clearly described,2,3 but multiple randomizations were alluded to. The authors stated that “for any of these chronotherapy trials” randomizations were done separately for “each participating center” and “randomization of participants to treatment-time regimen is done separately for each hypertension medication or combination being tested.”

A 2022 UK multicenter trial found no difference between the evening and morning administration groups in a composite outcome of vascular death, nonfatal myocardial infarction, or nonfatal stroke.

The baseline characteristics of patients in the evening and morning administration groups were similar, but statistically significant differences existed in BMI (29.6 vs 29.7; P = .030) and sleep-time systolic BP percent decline (9.3 vs 9.0; P < .001). Mean baseline 48-hour BP was 132/77 mm Hg. Hypertension was defined as an awake systolic BP ≥ 135 mm Hg or diastolic BP ≥ 85 mm Hg, or asleep systolic BP ≥ 120 mm Hg or diastolic BP ≥ 70 mm Hg. BP readings were confirmed with 48-hour ABPM. Exclusion criteria included pregnancy, a history of substance use disorder, night-shift work, and cardiovascular disease (defined as unstable angina, heart failure, life-threatening arrhythmia, atrial fibrillation, kidney failure, and grade III-IV retinopathy).

Prescribers were free to prescribe medicines from 5 classes (diuretic, angiotensin-converting enzyme inhibitor, angiotensin receptor blocker, calcium channel blocker, or beta-blocker) as they thought appropriate, were encouraged to use fixed-dose combination pills, and were told not to use split (eg, twice per day) dosing. Annual ­48-hour ABPM was completed, and patients’ electronic health records were analyzed by blinded investigators. Median follow-up was 6.3 years, and only 84 participants failed to complete the minimum 1-year participation requirement.

Continue to: The primary outcome...

 

 

The primary outcome—a composite of cardiovascular death, myocardial infarction, coronary revascularization, heart failure, or stroke—occurred in 1752 patients, favoring the bedtime group (HR = 0.55; 95% CI, 0.50-0.61; P < .001). The calculated number of events was 1130 in the morning administration group and 622 in the evening administration group; the authors did not explicitly report the event numbers in each group. Each component of the composite outcome also favored evening administration (P < .001 for all): cardiovascular death (HR = 0.44; 95% CI, 0.34-0.56), myocardial infarction (HR = 0.66; 95% CI, 0.52-0.84), coronary revascularization (HR = 0.60; 95% CI, 0.47-0.75), heart failure (HR = 0.58; 95% CI, 0.49-0.70), and stroke (HR = 0.51; 95% CI, 0.41-0.63).

The complicated, layered study design and randomization methods limit the ability to critically appraise the study.

Smaller Spanish study also supported evening administration

A prior, smaller, prospective randomized trial conducted by the same researchers as the Hygia Project found even greater benefits to evening BP medication administration.4 The 2156 Spanish patients (52% men; average age, 55 years) from multiple primary care offices were randomized 1:1 to BP medication administration either upon awakening or at bedtime. Dozens of baseline characteristics were evenly distributed except for age (55.0 vs 56.3; P = .021) and creatinine (0.96 vs 0.98; P = .028), both of which were lower in the evening group.

After a median follow-up of 5.6 years, the bedtime group had significantly lower total events (187 events in the morning group vs 68 in the evening group; relative risk [RR] = 0.39; 95% CI, 0.29-0.51; P < .001). Individual cardiovascular outcomes also dramatically favored the evening group: total deaths (12 vs 28; P = .008), cardiovascular deaths (3 vs 14; P = .006), cardiovascular disease events (30 vs 74; P < .001), stroke (7 vs 24; P = .001), and heart failure (8 vs 33; P < .001).

Limits of both the UK trial and the Hygia Project trial included single countries of study with a lack of racial and ethnic diversity, and greater nonadherence to the evening administration of the medications.

Recommendations from others

A 2022 consensus statement from the International Society of Hypertension, published before the UK trial, recommended against bedtime dosing until more high-quality data became available. They pointed to evidence showing higher medication adherence with morning dosing, risk for asleep BP dropping, and worsening daytime BP control as reasons to continue morning administration.5 Other reviewers have questioned the Hygia Project results due to their reported implausibly large effects on cardiovascular outcomes, noting that independent attempts to verify the methods and the data have proven challenging and are not completed.6

Editor’s takeaway

I confess that I was swayed by the results of the Hygia Project; for a year or so, I advised my patients to take at least 1 BP pill at night. But after the UK study came out, I needed to reconsider. I began to worry that the great outcomes of nocturnal therapy may have been a mirage. I have returned to counseling patients to take their BP medications in whichever way fosters consistency while minimizing adverse effects for them.

References

1. Mackenzie IS, Rogers A, Poulter NR, et al; TIME Study Group. Cardiovascular outcomes in adults with hypertension with evening versus morning dosing of usual antihypertensives in the UK (TIME study): a prospective, randomised, open-label, blinded-endpoint clinical trial. Lancet. 2022;400:1417-1425. doi: 10.1016/S0140-6736(22)01786-X

2. Hermida RC, Crespo JJ, Domínguez-Sardiña M, et al; Hygia Project Investigators. Bedtime hypertension treatment improves cardiovascular risk reduction: the Hygia Chronotherapy Trial. Eur Heart J. 2020;41:4565-4576. doi: 10.1093/eurheartj/ehz754

3. Hermida RC. Sleep-time ambulatory blood pressure as a prognostic marker of vascular and other risks and therapeutic target for prevention by hypertension chronotherapy: rationale and design of the Hygia Project. Chronobiol Int. 2016;33:906-936. doi: 10.1080/07420528.2016.1181078

4. Hermida RC, Ayala DE, Mojón A, et al. Influence of circadian time of hypertension treatment on cardiovascular risk: results of the MAPEC study. Chronobiol Int. 2010;27:1629-1651. doi: 10.3109/07420528.2010.510230

5. Stergiou G, Brunström M, MacDonald T, et al. Bedtime dosing of antihypertensive medications: systematic review and consensus statement: International Society of Hypertension position paper endorsed by World Hypertension League and European Society of Hypertension. J Hypertens. 2022;40:1847-1858. doi: 10.1097/HJH.0000000000003240

6. Brunström M, Kjeldsen SE, Kreutz R, et al. Missing verification of source data in hypertension research: The HYGIA PROJECT in Perspective. Hypertension. 2021;78:555-558. doi: 10.1161/HYPERTENSIONAHA.121.17356

References

1. Mackenzie IS, Rogers A, Poulter NR, et al; TIME Study Group. Cardiovascular outcomes in adults with hypertension with evening versus morning dosing of usual antihypertensives in the UK (TIME study): a prospective, randomised, open-label, blinded-endpoint clinical trial. Lancet. 2022;400:1417-1425. doi: 10.1016/S0140-6736(22)01786-X

2. Hermida RC, Crespo JJ, Domínguez-Sardiña M, et al; Hygia Project Investigators. Bedtime hypertension treatment improves cardiovascular risk reduction: the Hygia Chronotherapy Trial. Eur Heart J. 2020;41:4565-4576. doi: 10.1093/eurheartj/ehz754

3. Hermida RC. Sleep-time ambulatory blood pressure as a prognostic marker of vascular and other risks and therapeutic target for prevention by hypertension chronotherapy: rationale and design of the Hygia Project. Chronobiol Int. 2016;33:906-936. doi: 10.1080/07420528.2016.1181078

4. Hermida RC, Ayala DE, Mojón A, et al. Influence of circadian time of hypertension treatment on cardiovascular risk: results of the MAPEC study. Chronobiol Int. 2010;27:1629-1651. doi: 10.3109/07420528.2010.510230

5. Stergiou G, Brunström M, MacDonald T, et al. Bedtime dosing of antihypertensive medications: systematic review and consensus statement: International Society of Hypertension position paper endorsed by World Hypertension League and European Society of Hypertension. J Hypertens. 2022;40:1847-1858. doi: 10.1097/HJH.0000000000003240

6. Brunström M, Kjeldsen SE, Kreutz R, et al. Missing verification of source data in hypertension research: The HYGIA PROJECT in Perspective. Hypertension. 2021;78:555-558. doi: 10.1161/HYPERTENSIONAHA.121.17356

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Does taking BP medicine at night (vs morning) result in fewer cardiovascular events?
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EVIDENCE-BASED ANSWER:

Probably not. In patients who have hypertension, the timing of administration of antihypertensive medications does not appear to impact cardiovascular outcomes (strength of recommendation: B; contradictory randomized controlled trials).

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Trial shows utility of small-volume blood collection tubes

Article Type
Changed
Thu, 11/16/2023 - 12:16

A large Canadian clinical trial has found that using small-volume tubes to collect blood samples for laboratory testing of intensive care unit patients can reduce blood transfusions without affecting lab results.

“We showed in a large pragmatic cluster trial that automatically collect less blood for laboratory testing reduced red blood cell transfusions by about 10 units of red blood cells per 100 patients in the ICU,” lead study author Deborah M. Siegal, MD, associate professor at the University of Ottawa and scientist at the Ottawa Hospital Research Institute, said.

The study was coordinated by the Population Health Research Institute, an affiliate of McMaster University in Hamilton (Ont.) Health Sciences, where Dr. Siegal worked before moving to Ottawa.

Dr. Deborah M. Siegal

The STRATUS randomized clinical trial, published in JAMA, involved 25 adult medical-surgical ICUs across Canada, where 21,201 patients were randomized to either standard-volume or small-volume tubes for collecting blood samples. During the course of the study, each site switched to the small-volume collection tubes.

“We also showed there were no negative effects on lab testing, and by that we measured the sufficiency of  the specimens,” Dr. Siegal added. “We were able to show that there wasn’t a problem with the amount of blood that was available for the tests to be done.”

The samples were collected from February 2019 through January 2021, through the period of COVID-19 restrictions. Dr. Siegal explained that 6,210 patients admitted early in the COVID-19 pandemic were excluded from the primary analysis, but were included in secondary analyses.

 

Study results

While the study found no significant difference in RBC units per patient per ICU stage – a relative risk of .91 (95% confidence interval, 0.79-1.05; P = .19), it did find an absolute reduction of 7.24 RBC units/100 patients per ICU stay. 

Findings from the secondary analyses, which included 27,411 patients, were:

  • A 12% reduction in RBC units per patient per ICU stay after switching from standard-volume to small-volume tubes (RR, 0.88; 95%  CI, 0.77-1; P = .04).
  • An absolute reduction of 9.84 RBC units/100 patients per ICU stay (95% CI, 0.24-20.76).

In the primary analysis population, the median transfusion-adjusted hemoglobin was not statistically different between the standard- and small-volume collection tube groups, with an average difference of 0.1 g/dL (95% CI, –0.04 to .23), but it was lower in the secondary population, with a mean difference of .17 g/dL (95% CI, 0.05-0.29).

“Those patients that we analyzed in the secondary analysis population received about 36,000 units of blood, just in 25 ICU units in Canada in less than 2 years,” Dr. Siegal said. “If we saved 10 units per 100 patients, that’s 1,500 units of blood. That really speaks to a small effect at the individual patient level but really potential for widespread effect. We are now in a period of blood product shortage not only in Canada but worldwide.”

 

First clinical trial for small tubes

Dr. Siegal noted this was the first clinical trial to compare standard- and small-volume blood collection tools, “and also to show there is both a benefit and a lack of harm,” Dr. Siegal said. “We thought that a randomized trial was the best way to move the needle. If we could design a trial of a large population of patients to show benefit and no harm, it would be a win, and that’s in fact what happened.”

She added, “The tubes essentially have the same cost, work the same, and go on the same equipment the same way the standard-volume tubes do, so it wasn’t a practice change for people in the hospital.”

The study also found an identical low rate of unusable specimens did not differ regardless of the type of collection tube: less than .03%.

Dr. Siegal said the study group is collaborating with hematology stakeholders in Canada, including Canadian Blood Services, which provides blood plasma to the country’s provincial and territorial health systems, and is reaching out to the American Society of Hematology.

“We’re going to target both hematologists and critical  care providers and, even more broadly than the critical care community, hospitals, because anemia is big problem in hospitals,” Dr. Siegal said. “I think we can think about this more broadly.”

The study received funding from the Hamilton Academic Health Sciences Organization. Dr. Siegal disclosed relationships with Bristol-Myers Squibb-Pfizer, AstraZeneca and Roche.

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A large Canadian clinical trial has found that using small-volume tubes to collect blood samples for laboratory testing of intensive care unit patients can reduce blood transfusions without affecting lab results.

“We showed in a large pragmatic cluster trial that automatically collect less blood for laboratory testing reduced red blood cell transfusions by about 10 units of red blood cells per 100 patients in the ICU,” lead study author Deborah M. Siegal, MD, associate professor at the University of Ottawa and scientist at the Ottawa Hospital Research Institute, said.

The study was coordinated by the Population Health Research Institute, an affiliate of McMaster University in Hamilton (Ont.) Health Sciences, where Dr. Siegal worked before moving to Ottawa.

Dr. Deborah M. Siegal

The STRATUS randomized clinical trial, published in JAMA, involved 25 adult medical-surgical ICUs across Canada, where 21,201 patients were randomized to either standard-volume or small-volume tubes for collecting blood samples. During the course of the study, each site switched to the small-volume collection tubes.

“We also showed there were no negative effects on lab testing, and by that we measured the sufficiency of  the specimens,” Dr. Siegal added. “We were able to show that there wasn’t a problem with the amount of blood that was available for the tests to be done.”

The samples were collected from February 2019 through January 2021, through the period of COVID-19 restrictions. Dr. Siegal explained that 6,210 patients admitted early in the COVID-19 pandemic were excluded from the primary analysis, but were included in secondary analyses.

 

Study results

While the study found no significant difference in RBC units per patient per ICU stage – a relative risk of .91 (95% confidence interval, 0.79-1.05; P = .19), it did find an absolute reduction of 7.24 RBC units/100 patients per ICU stay. 

Findings from the secondary analyses, which included 27,411 patients, were:

  • A 12% reduction in RBC units per patient per ICU stay after switching from standard-volume to small-volume tubes (RR, 0.88; 95%  CI, 0.77-1; P = .04).
  • An absolute reduction of 9.84 RBC units/100 patients per ICU stay (95% CI, 0.24-20.76).

In the primary analysis population, the median transfusion-adjusted hemoglobin was not statistically different between the standard- and small-volume collection tube groups, with an average difference of 0.1 g/dL (95% CI, –0.04 to .23), but it was lower in the secondary population, with a mean difference of .17 g/dL (95% CI, 0.05-0.29).

“Those patients that we analyzed in the secondary analysis population received about 36,000 units of blood, just in 25 ICU units in Canada in less than 2 years,” Dr. Siegal said. “If we saved 10 units per 100 patients, that’s 1,500 units of blood. That really speaks to a small effect at the individual patient level but really potential for widespread effect. We are now in a period of blood product shortage not only in Canada but worldwide.”

 

First clinical trial for small tubes

Dr. Siegal noted this was the first clinical trial to compare standard- and small-volume blood collection tools, “and also to show there is both a benefit and a lack of harm,” Dr. Siegal said. “We thought that a randomized trial was the best way to move the needle. If we could design a trial of a large population of patients to show benefit and no harm, it would be a win, and that’s in fact what happened.”

She added, “The tubes essentially have the same cost, work the same, and go on the same equipment the same way the standard-volume tubes do, so it wasn’t a practice change for people in the hospital.”

The study also found an identical low rate of unusable specimens did not differ regardless of the type of collection tube: less than .03%.

Dr. Siegal said the study group is collaborating with hematology stakeholders in Canada, including Canadian Blood Services, which provides blood plasma to the country’s provincial and territorial health systems, and is reaching out to the American Society of Hematology.

“We’re going to target both hematologists and critical  care providers and, even more broadly than the critical care community, hospitals, because anemia is big problem in hospitals,” Dr. Siegal said. “I think we can think about this more broadly.”

The study received funding from the Hamilton Academic Health Sciences Organization. Dr. Siegal disclosed relationships with Bristol-Myers Squibb-Pfizer, AstraZeneca and Roche.

A large Canadian clinical trial has found that using small-volume tubes to collect blood samples for laboratory testing of intensive care unit patients can reduce blood transfusions without affecting lab results.

“We showed in a large pragmatic cluster trial that automatically collect less blood for laboratory testing reduced red blood cell transfusions by about 10 units of red blood cells per 100 patients in the ICU,” lead study author Deborah M. Siegal, MD, associate professor at the University of Ottawa and scientist at the Ottawa Hospital Research Institute, said.

The study was coordinated by the Population Health Research Institute, an affiliate of McMaster University in Hamilton (Ont.) Health Sciences, where Dr. Siegal worked before moving to Ottawa.

Dr. Deborah M. Siegal

The STRATUS randomized clinical trial, published in JAMA, involved 25 adult medical-surgical ICUs across Canada, where 21,201 patients were randomized to either standard-volume or small-volume tubes for collecting blood samples. During the course of the study, each site switched to the small-volume collection tubes.

“We also showed there were no negative effects on lab testing, and by that we measured the sufficiency of  the specimens,” Dr. Siegal added. “We were able to show that there wasn’t a problem with the amount of blood that was available for the tests to be done.”

The samples were collected from February 2019 through January 2021, through the period of COVID-19 restrictions. Dr. Siegal explained that 6,210 patients admitted early in the COVID-19 pandemic were excluded from the primary analysis, but were included in secondary analyses.

 

Study results

While the study found no significant difference in RBC units per patient per ICU stage – a relative risk of .91 (95% confidence interval, 0.79-1.05; P = .19), it did find an absolute reduction of 7.24 RBC units/100 patients per ICU stay. 

Findings from the secondary analyses, which included 27,411 patients, were:

  • A 12% reduction in RBC units per patient per ICU stay after switching from standard-volume to small-volume tubes (RR, 0.88; 95%  CI, 0.77-1; P = .04).
  • An absolute reduction of 9.84 RBC units/100 patients per ICU stay (95% CI, 0.24-20.76).

In the primary analysis population, the median transfusion-adjusted hemoglobin was not statistically different between the standard- and small-volume collection tube groups, with an average difference of 0.1 g/dL (95% CI, –0.04 to .23), but it was lower in the secondary population, with a mean difference of .17 g/dL (95% CI, 0.05-0.29).

“Those patients that we analyzed in the secondary analysis population received about 36,000 units of blood, just in 25 ICU units in Canada in less than 2 years,” Dr. Siegal said. “If we saved 10 units per 100 patients, that’s 1,500 units of blood. That really speaks to a small effect at the individual patient level but really potential for widespread effect. We are now in a period of blood product shortage not only in Canada but worldwide.”

 

First clinical trial for small tubes

Dr. Siegal noted this was the first clinical trial to compare standard- and small-volume blood collection tools, “and also to show there is both a benefit and a lack of harm,” Dr. Siegal said. “We thought that a randomized trial was the best way to move the needle. If we could design a trial of a large population of patients to show benefit and no harm, it would be a win, and that’s in fact what happened.”

She added, “The tubes essentially have the same cost, work the same, and go on the same equipment the same way the standard-volume tubes do, so it wasn’t a practice change for people in the hospital.”

The study also found an identical low rate of unusable specimens did not differ regardless of the type of collection tube: less than .03%.

Dr. Siegal said the study group is collaborating with hematology stakeholders in Canada, including Canadian Blood Services, which provides blood plasma to the country’s provincial and territorial health systems, and is reaching out to the American Society of Hematology.

“We’re going to target both hematologists and critical  care providers and, even more broadly than the critical care community, hospitals, because anemia is big problem in hospitals,” Dr. Siegal said. “I think we can think about this more broadly.”

The study received funding from the Hamilton Academic Health Sciences Organization. Dr. Siegal disclosed relationships with Bristol-Myers Squibb-Pfizer, AstraZeneca and Roche.

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Reimagining rehabilitation: In-home physical therapy gets a boost

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Wed, 11/08/2023 - 14:33

 

As the aging population grows and telehealth expands in the wake of the COVID-19 pandemic, an emerging trend of in-home care is reshaping how patients access and receive physical therapy services.

Partnerships between hospitals and home health companies are increasing access to rehabilitation services not only for older adults but also for people in rural areas, those without reliable transportation, and patients with injuries that hinder their driving abilities.

“We find more and more that physical therapy at their home, instead of coming to an outpatient facility, is something more and more folks are requesting,” said Bill Benoit, MBA, chief operating officer of University Hospitals, Cleveland. “In this post-COVID environment, people are getting all different types of services in their home when they’re available, and this is one of them. The pandemic sped up the process of us moving away from the traditional brick and mortar hospital.”

UH recently announced a partnership with Luna Physical Therapy, a company founded in 2018 that provides home services. Luna has teamed up with more than two dozen other hospitals in the United States to offer home-based rehabilitation, according to the company.

The process for arranging in-home therapies through hospital-clinic partnerships is like any other inpatient or outpatient rehabilitation, Mr. Benoit said: A patient meets with a specialist or primary care practitioner, they discuss options, and eventually the clinician recommends physical therapy. The only difference here, he said, is rather than going to a separate facility or a hospital, the patient logs onto a mobile app that matches them with a physical therapist on the basis of their location, needs, and the times they are available.

The prescribing physician oversees the patient’s progress through notes provided by the therapist.

“For the primary care physician or surgeon, they’re not going to see much of a difference,” Mr. Benoit said. “This just adds to that list of options for patients.”
 

Safer, more productive PT

A study, published in the journal Family Practice, found that 76% of patients who are prescribed physical therapy do not initiate the services after it has been recommended.

Aside from the convenience and expanded accessibility for patients, the home therapy option can be more productive, said Denise Wagner, PT, DPT, a physical therapist with Johns Hopkins, Baltimore.

“Home is safer for many patients, but home is also more engaging and motivating,” she said. “Home health clinicians are experts in using whatever they find in the home environment as equipment; many people have stairs in their home, so we can use the rail as something to hold. If patient likes to walk their dog, we can use putting a leash on dog as balance activity.”

Therapy in the home setting helps physical therapists customize programs to fit each patient’s lifestyle, said Gira Shah, PT, a physical therapist with Providence Home Services in Seattle.

For example, patients generally want to know how to function within their own space – navigate their kitchens to make food or get in and out of their bathtubs. Staying in that space allows therapists to focus on those specific goals, Ms. Shah said. “It’s more of a functional therapy. The beauty of this [is that] as therapists we’re trying to assess, ‘what does the patient need to be independent?’ ”

The consulting firm McKinsey predicts that as much as $265 billion in health care services for Medicare recipients will be provided within the home by 2025.

The obvious question is: Why would hospitals partner with clinics rather than offer in-home services on their own?

The answer, like most things in health care, boils down to money.

The billing and documentation system that they use is more efficient than anything hospitals have, said John Brickley, PT, MA, vice president and physical therapist at MedStar Health, a health care system in Maryland and the Washington, D.C., area. MedStar and Luna announced a partnership last June.

“We would financially fall on our face if we tried to use our own billing systems; it would take too much time,” Mr. Brickley said. “Do we need them from a quality-of-care standpoint? No. They have the type of technology that’s not at our disposal.”

Patients should be aware of the difference between home-based PT and other health services for homebound patients, Mr. Brickley said. Medicare considers a patient homebound if they need the help of another person or medical equipment to leave their home or if their doctor believes their condition would worsen with greater mobility.

From the perspective of an insurance company, a home therapy session arranged by a hospital-clinic partnership is an ambulatory appointment and uses the same charging mechanism as most other visits. For a home health care visit, patients must qualify as homebound.

Home-based PT can be used for conditions including neurologic issues, bone and joint problems, balance, and fall deconditioning and prevention. But if a patient needs heavy equipment that cannot be transported, outpatient services are more practical.

That should be determined by the primary care practitioner or specialist evaluating each patient, said Palak Shah, PT, cofounder and head of clinical services at Luna.

“Primary care physicians play a huge role – that’s where patients express their initial concerns,” she said. “It’s up to them to make patients aware about all the options.”

A version of this article first appeared on Medscape.com.

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As the aging population grows and telehealth expands in the wake of the COVID-19 pandemic, an emerging trend of in-home care is reshaping how patients access and receive physical therapy services.

Partnerships between hospitals and home health companies are increasing access to rehabilitation services not only for older adults but also for people in rural areas, those without reliable transportation, and patients with injuries that hinder their driving abilities.

“We find more and more that physical therapy at their home, instead of coming to an outpatient facility, is something more and more folks are requesting,” said Bill Benoit, MBA, chief operating officer of University Hospitals, Cleveland. “In this post-COVID environment, people are getting all different types of services in their home when they’re available, and this is one of them. The pandemic sped up the process of us moving away from the traditional brick and mortar hospital.”

UH recently announced a partnership with Luna Physical Therapy, a company founded in 2018 that provides home services. Luna has teamed up with more than two dozen other hospitals in the United States to offer home-based rehabilitation, according to the company.

The process for arranging in-home therapies through hospital-clinic partnerships is like any other inpatient or outpatient rehabilitation, Mr. Benoit said: A patient meets with a specialist or primary care practitioner, they discuss options, and eventually the clinician recommends physical therapy. The only difference here, he said, is rather than going to a separate facility or a hospital, the patient logs onto a mobile app that matches them with a physical therapist on the basis of their location, needs, and the times they are available.

The prescribing physician oversees the patient’s progress through notes provided by the therapist.

“For the primary care physician or surgeon, they’re not going to see much of a difference,” Mr. Benoit said. “This just adds to that list of options for patients.”
 

Safer, more productive PT

A study, published in the journal Family Practice, found that 76% of patients who are prescribed physical therapy do not initiate the services after it has been recommended.

Aside from the convenience and expanded accessibility for patients, the home therapy option can be more productive, said Denise Wagner, PT, DPT, a physical therapist with Johns Hopkins, Baltimore.

“Home is safer for many patients, but home is also more engaging and motivating,” she said. “Home health clinicians are experts in using whatever they find in the home environment as equipment; many people have stairs in their home, so we can use the rail as something to hold. If patient likes to walk their dog, we can use putting a leash on dog as balance activity.”

Therapy in the home setting helps physical therapists customize programs to fit each patient’s lifestyle, said Gira Shah, PT, a physical therapist with Providence Home Services in Seattle.

For example, patients generally want to know how to function within their own space – navigate their kitchens to make food or get in and out of their bathtubs. Staying in that space allows therapists to focus on those specific goals, Ms. Shah said. “It’s more of a functional therapy. The beauty of this [is that] as therapists we’re trying to assess, ‘what does the patient need to be independent?’ ”

The consulting firm McKinsey predicts that as much as $265 billion in health care services for Medicare recipients will be provided within the home by 2025.

The obvious question is: Why would hospitals partner with clinics rather than offer in-home services on their own?

The answer, like most things in health care, boils down to money.

The billing and documentation system that they use is more efficient than anything hospitals have, said John Brickley, PT, MA, vice president and physical therapist at MedStar Health, a health care system in Maryland and the Washington, D.C., area. MedStar and Luna announced a partnership last June.

“We would financially fall on our face if we tried to use our own billing systems; it would take too much time,” Mr. Brickley said. “Do we need them from a quality-of-care standpoint? No. They have the type of technology that’s not at our disposal.”

Patients should be aware of the difference between home-based PT and other health services for homebound patients, Mr. Brickley said. Medicare considers a patient homebound if they need the help of another person or medical equipment to leave their home or if their doctor believes their condition would worsen with greater mobility.

From the perspective of an insurance company, a home therapy session arranged by a hospital-clinic partnership is an ambulatory appointment and uses the same charging mechanism as most other visits. For a home health care visit, patients must qualify as homebound.

Home-based PT can be used for conditions including neurologic issues, bone and joint problems, balance, and fall deconditioning and prevention. But if a patient needs heavy equipment that cannot be transported, outpatient services are more practical.

That should be determined by the primary care practitioner or specialist evaluating each patient, said Palak Shah, PT, cofounder and head of clinical services at Luna.

“Primary care physicians play a huge role – that’s where patients express their initial concerns,” she said. “It’s up to them to make patients aware about all the options.”

A version of this article first appeared on Medscape.com.

 

As the aging population grows and telehealth expands in the wake of the COVID-19 pandemic, an emerging trend of in-home care is reshaping how patients access and receive physical therapy services.

Partnerships between hospitals and home health companies are increasing access to rehabilitation services not only for older adults but also for people in rural areas, those without reliable transportation, and patients with injuries that hinder their driving abilities.

“We find more and more that physical therapy at their home, instead of coming to an outpatient facility, is something more and more folks are requesting,” said Bill Benoit, MBA, chief operating officer of University Hospitals, Cleveland. “In this post-COVID environment, people are getting all different types of services in their home when they’re available, and this is one of them. The pandemic sped up the process of us moving away from the traditional brick and mortar hospital.”

UH recently announced a partnership with Luna Physical Therapy, a company founded in 2018 that provides home services. Luna has teamed up with more than two dozen other hospitals in the United States to offer home-based rehabilitation, according to the company.

The process for arranging in-home therapies through hospital-clinic partnerships is like any other inpatient or outpatient rehabilitation, Mr. Benoit said: A patient meets with a specialist or primary care practitioner, they discuss options, and eventually the clinician recommends physical therapy. The only difference here, he said, is rather than going to a separate facility or a hospital, the patient logs onto a mobile app that matches them with a physical therapist on the basis of their location, needs, and the times they are available.

The prescribing physician oversees the patient’s progress through notes provided by the therapist.

“For the primary care physician or surgeon, they’re not going to see much of a difference,” Mr. Benoit said. “This just adds to that list of options for patients.”
 

Safer, more productive PT

A study, published in the journal Family Practice, found that 76% of patients who are prescribed physical therapy do not initiate the services after it has been recommended.

Aside from the convenience and expanded accessibility for patients, the home therapy option can be more productive, said Denise Wagner, PT, DPT, a physical therapist with Johns Hopkins, Baltimore.

“Home is safer for many patients, but home is also more engaging and motivating,” she said. “Home health clinicians are experts in using whatever they find in the home environment as equipment; many people have stairs in their home, so we can use the rail as something to hold. If patient likes to walk their dog, we can use putting a leash on dog as balance activity.”

Therapy in the home setting helps physical therapists customize programs to fit each patient’s lifestyle, said Gira Shah, PT, a physical therapist with Providence Home Services in Seattle.

For example, patients generally want to know how to function within their own space – navigate their kitchens to make food or get in and out of their bathtubs. Staying in that space allows therapists to focus on those specific goals, Ms. Shah said. “It’s more of a functional therapy. The beauty of this [is that] as therapists we’re trying to assess, ‘what does the patient need to be independent?’ ”

The consulting firm McKinsey predicts that as much as $265 billion in health care services for Medicare recipients will be provided within the home by 2025.

The obvious question is: Why would hospitals partner with clinics rather than offer in-home services on their own?

The answer, like most things in health care, boils down to money.

The billing and documentation system that they use is more efficient than anything hospitals have, said John Brickley, PT, MA, vice president and physical therapist at MedStar Health, a health care system in Maryland and the Washington, D.C., area. MedStar and Luna announced a partnership last June.

“We would financially fall on our face if we tried to use our own billing systems; it would take too much time,” Mr. Brickley said. “Do we need them from a quality-of-care standpoint? No. They have the type of technology that’s not at our disposal.”

Patients should be aware of the difference between home-based PT and other health services for homebound patients, Mr. Brickley said. Medicare considers a patient homebound if they need the help of another person or medical equipment to leave their home or if their doctor believes their condition would worsen with greater mobility.

From the perspective of an insurance company, a home therapy session arranged by a hospital-clinic partnership is an ambulatory appointment and uses the same charging mechanism as most other visits. For a home health care visit, patients must qualify as homebound.

Home-based PT can be used for conditions including neurologic issues, bone and joint problems, balance, and fall deconditioning and prevention. But if a patient needs heavy equipment that cannot be transported, outpatient services are more practical.

That should be determined by the primary care practitioner or specialist evaluating each patient, said Palak Shah, PT, cofounder and head of clinical services at Luna.

“Primary care physicians play a huge role – that’s where patients express their initial concerns,” she said. “It’s up to them to make patients aware about all the options.”

A version of this article first appeared on Medscape.com.

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Marijuana use dramatically increases risk of heart problems, stroke

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Changed
Tue, 11/07/2023 - 09:22

Regularly using marijuana can significantly increase a person’s risk of heart attack, heart failure, and stroke, according to a pair of new studies that will be presented at a major upcoming medical conference.

People who use marijuana daily have a 34% increased risk of heart failure, compared with people who don’t use the drug, according to one of the new studies.

The new findings leverage health data from 157,000 people in the National Institutes of Health “All of Us” research program. Researchers analyzed whether marijuana users were more likely to experience heart failure than nonusers over the course of nearly 4 years. The results indicated that coronary artery disease was behind marijuana users’ increased risk. (Coronary artery disease is the buildup of plaque on the walls of the arteries that supply blood to the heart.)

The research was conducted by a team at Medstar Health, a large Maryland health care system that operates 10 hospitals plus hundreds of clinics. The findings will be presented at the American Heart Association’s Scientific Sessions 2023 in Philadelphia.

“Our results should encourage more researchers to study the use of marijuana to better understand its health implications, especially on cardiovascular risk,” said researcher Yakubu Bene-Alhasan, MD, MPH, a doctor at Medstar Health in Baltimore. “We want to provide the population with high-quality information on marijuana use and to help inform policy decisions at the state level, to educate patients, and to guide health care professionals.”

About one in five people in the United States use marijuana, according to the Centers for Disease Control and Prevention. The majority of U.S. states allow marijuana to be used legally for medical purposes, and more than 20 states have legalized recreational marijuana, a tracker from the National Conference of State Legislatures shows. 

A second study that will be presented at the conference shows that older people with any combination of type 2 diabetes, high blood pressure, and high cholesterol who use marijuana have an increased risk for a major heart or brain event, compared with people who never used the drug. 

The researchers analyzed data for more than 28,000 people age 65 and older who had health conditions that put them at risk for heart problems and whose medical records showed they were marijuana users but not tobacco users. The results showed at least a 20% increased risk of heart attack, stroke, cardiac arrest, or arrhythmia (irregular heartbeat). 

The findings are significant because medical professionals have long said that research on the long-term health effects of using marijuana are limited. 

“The latest research about cannabis use indicates that smoking and inhaling cannabis increases concentrations of blood carboxyhemoglobin (carbon monoxide, a poisonous gas), tar (partly burned combustible matter) similar to the effects of inhaling a tobacco cigarette, both of which have been linked to heart muscle disease, chest pain, heart rhythm disturbances, heart attacks and other serious conditions,” said Robert L. Page II, PharmD, MSPH, chair of the volunteer writing group for the 2020 American Heart Association Scientific Statement: Medical Marijuana, Recreational Cannabis, and Cardiovascular Health, in a statement. “Together with the results of these two research studies, the cardiovascular risks of cannabis use are becoming clearer and should be carefully considered and monitored by health care professionals and the public.”

A version of this article first appeared on WebMD.com.

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Regularly using marijuana can significantly increase a person’s risk of heart attack, heart failure, and stroke, according to a pair of new studies that will be presented at a major upcoming medical conference.

People who use marijuana daily have a 34% increased risk of heart failure, compared with people who don’t use the drug, according to one of the new studies.

The new findings leverage health data from 157,000 people in the National Institutes of Health “All of Us” research program. Researchers analyzed whether marijuana users were more likely to experience heart failure than nonusers over the course of nearly 4 years. The results indicated that coronary artery disease was behind marijuana users’ increased risk. (Coronary artery disease is the buildup of plaque on the walls of the arteries that supply blood to the heart.)

The research was conducted by a team at Medstar Health, a large Maryland health care system that operates 10 hospitals plus hundreds of clinics. The findings will be presented at the American Heart Association’s Scientific Sessions 2023 in Philadelphia.

“Our results should encourage more researchers to study the use of marijuana to better understand its health implications, especially on cardiovascular risk,” said researcher Yakubu Bene-Alhasan, MD, MPH, a doctor at Medstar Health in Baltimore. “We want to provide the population with high-quality information on marijuana use and to help inform policy decisions at the state level, to educate patients, and to guide health care professionals.”

About one in five people in the United States use marijuana, according to the Centers for Disease Control and Prevention. The majority of U.S. states allow marijuana to be used legally for medical purposes, and more than 20 states have legalized recreational marijuana, a tracker from the National Conference of State Legislatures shows. 

A second study that will be presented at the conference shows that older people with any combination of type 2 diabetes, high blood pressure, and high cholesterol who use marijuana have an increased risk for a major heart or brain event, compared with people who never used the drug. 

The researchers analyzed data for more than 28,000 people age 65 and older who had health conditions that put them at risk for heart problems and whose medical records showed they were marijuana users but not tobacco users. The results showed at least a 20% increased risk of heart attack, stroke, cardiac arrest, or arrhythmia (irregular heartbeat). 

The findings are significant because medical professionals have long said that research on the long-term health effects of using marijuana are limited. 

“The latest research about cannabis use indicates that smoking and inhaling cannabis increases concentrations of blood carboxyhemoglobin (carbon monoxide, a poisonous gas), tar (partly burned combustible matter) similar to the effects of inhaling a tobacco cigarette, both of which have been linked to heart muscle disease, chest pain, heart rhythm disturbances, heart attacks and other serious conditions,” said Robert L. Page II, PharmD, MSPH, chair of the volunteer writing group for the 2020 American Heart Association Scientific Statement: Medical Marijuana, Recreational Cannabis, and Cardiovascular Health, in a statement. “Together with the results of these two research studies, the cardiovascular risks of cannabis use are becoming clearer and should be carefully considered and monitored by health care professionals and the public.”

A version of this article first appeared on WebMD.com.

Regularly using marijuana can significantly increase a person’s risk of heart attack, heart failure, and stroke, according to a pair of new studies that will be presented at a major upcoming medical conference.

People who use marijuana daily have a 34% increased risk of heart failure, compared with people who don’t use the drug, according to one of the new studies.

The new findings leverage health data from 157,000 people in the National Institutes of Health “All of Us” research program. Researchers analyzed whether marijuana users were more likely to experience heart failure than nonusers over the course of nearly 4 years. The results indicated that coronary artery disease was behind marijuana users’ increased risk. (Coronary artery disease is the buildup of plaque on the walls of the arteries that supply blood to the heart.)

The research was conducted by a team at Medstar Health, a large Maryland health care system that operates 10 hospitals plus hundreds of clinics. The findings will be presented at the American Heart Association’s Scientific Sessions 2023 in Philadelphia.

“Our results should encourage more researchers to study the use of marijuana to better understand its health implications, especially on cardiovascular risk,” said researcher Yakubu Bene-Alhasan, MD, MPH, a doctor at Medstar Health in Baltimore. “We want to provide the population with high-quality information on marijuana use and to help inform policy decisions at the state level, to educate patients, and to guide health care professionals.”

About one in five people in the United States use marijuana, according to the Centers for Disease Control and Prevention. The majority of U.S. states allow marijuana to be used legally for medical purposes, and more than 20 states have legalized recreational marijuana, a tracker from the National Conference of State Legislatures shows. 

A second study that will be presented at the conference shows that older people with any combination of type 2 diabetes, high blood pressure, and high cholesterol who use marijuana have an increased risk for a major heart or brain event, compared with people who never used the drug. 

The researchers analyzed data for more than 28,000 people age 65 and older who had health conditions that put them at risk for heart problems and whose medical records showed they were marijuana users but not tobacco users. The results showed at least a 20% increased risk of heart attack, stroke, cardiac arrest, or arrhythmia (irregular heartbeat). 

The findings are significant because medical professionals have long said that research on the long-term health effects of using marijuana are limited. 

“The latest research about cannabis use indicates that smoking and inhaling cannabis increases concentrations of blood carboxyhemoglobin (carbon monoxide, a poisonous gas), tar (partly burned combustible matter) similar to the effects of inhaling a tobacco cigarette, both of which have been linked to heart muscle disease, chest pain, heart rhythm disturbances, heart attacks and other serious conditions,” said Robert L. Page II, PharmD, MSPH, chair of the volunteer writing group for the 2020 American Heart Association Scientific Statement: Medical Marijuana, Recreational Cannabis, and Cardiovascular Health, in a statement. “Together with the results of these two research studies, the cardiovascular risks of cannabis use are becoming clearer and should be carefully considered and monitored by health care professionals and the public.”

A version of this article first appeared on WebMD.com.

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Nightmare on CIL Street: A Simulation Series to Increase Confidence and Skill in Responding to Clinical Emergencies

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Fri, 11/17/2023 - 08:39

The Central Texas Veteran’s Health Care System (CTVHCS) in Temple, Texas, is a 189-bed teaching hospital. CTVHCS opened the Center for Innovation and Learning (CIL) in 2022. The CIL has about 279 m2 of simulation space that includes high- and low-fidelity simulation equipment and multiple laboratories, which can be used to simulate inpatient and outpatient settings. The CIL high-fidelity manikins and environment allow learners to be immersed in the simulation for maximum realism. Computer and video systems provide clear viewing of training, which allows for more in-depth debriefing and learning. CIL simulation training is used by CTVHCS staff, medical residents, and medical and physician assistant students.

The utility of technology in medical education is rapidly evolving. As noted in many studies, simulation creates an environment that can imitate real patients in the format of a lifelike manikin, anatomic regions stations, clinical tasks, and many real-life circumstances.1 Task trainers for procedure simulation have been widely used and studied. A 2020 study noted that simulation training is effective for developing procedural skills in surgery and prevents the decay of surgical skills.2

In reviewing health care education curriculums, we noted that most of the rapid response situations are learned through active patient experiences. Rapid responses are managed by the intensive care unit and primary care teams during the day but at night are run primarily by the postgraduate year 2 (PGY2) night resident and intern. Knowing these logistics and current studies, we decided to build a rapid response simulation curriculum to improve preparedness for PGY1 residents, medical students, and physician assistant students.

Curriculum Planning

Planning the simulation curriculum began with the CTVHCS internal medicine chief resident and registered nurse (RN) educator. CTVHCS data were reviewed to identify the 3 most common rapid response calls from the past 3 years; research on the most common systems affected by rapid responses also was evaluated.

A 2019 study by Lyons and colleagues evaluated 402,023 rapid response activations across 360 hospitals and found that respiratory scenarios made up 38% and cardiac scenarios made up 37%.3 In addition, the CTVHCS has limited support in stroke neurology. Therefore, the internal medicine chief resident and RN educator decided to run 3 evolving rapid response scenarios per session that included cardiac, respiratory, and neurological scenarios. Capabilities and limitations of different high-fidelity manikins were discussed to identify and use the most appropriate simulator for each situation. Objectives that met both general medicine and site-specific education were discussed, and the program was formulated.

 

 

Program Description

Nightmare on CIL Street is a simulation-based program designed for new internal medicine residents and students to encounter difficult situations (late at night, on call, or when resources are limited; ie, weekends/holidays) in a controlled simulation environment. During the simulation, learners will be unable to transfer the patient and no additional help is available. Each learner must determine a differential diagnosis and make appropriate medical interventions with only the assistance of a nurse. Scenarios are derived from common rapid response team calls and low-volume/high-impact situations where clinical decisions must be made quickly to ensure the best patient outcomes. High-fidelity manikins that have abilities to respond to questions, simulate breathing, reproduce pathological heart and breath sounds and more are used to create a realistic patient environment.

This program aligns with 2 national Veterans Health Administration priorities: (1) connect veterans to the soonest and best care; and (2) accelerate the Veterans Health Administration journey to be a high-reliability organization (sensitivity to operations, preoccupation with failure, commitment to resilience, and deference to expertise). Nightmare on CIL Street has 3 clinical episodes: 2 cardiac (A Tell-Tale Heart), respiratory (Don’t Breathe), and neurologic (Brain Scan). Additional clinical episodes will be added based on learner feedback and assessed need.

Each simulation event encompassed all 3 episodes that an individual or a team of 2 learners rotate through in a round-robin fashion. The overarching theme for each episode was a rapid response team call with minimal resources that the learner would have to provide care and stabilization. A literature search for rapid response team training programs found few results, but the literature assisted with providing a foundation for Nightmare on CIL Street.4,5 The goal was to completely envelop the learners in a nightmare scenario that required a solution.

After the safety brief and predata collection, learners received a phone call with minimal information about a patient in need of care. The learners responded to the requested area and provided treatment to the emergency over 25 minutes with the bedside nurse (who is an embedded participant). At the conclusion of the scenario, a physician subject matter expert who has been observing, provided a personalized 10-minute debriefing to the learner, which presented specific learning points and opportunities for the learner’s educational development. After the debriefing, learners returned to a conference room and awaited the next call. After all learners completed the 3 episodes, a group debriefing was conducted using the gather, analyze, summarize debriefing framework. The debriefing begins with an open-ended forum for learners to express their thoughts. Then, each scenario is discussed and broken down by key learning objectives. Starting with cardiac and ending with neurology, the logistics of the cases are discussed based on the trajectory of the learners during the scenarios. Each objective is discussed, and learners are allowed to ask questions before moving to the next scenario. After the debriefing, postevent data were gathered.

Objectives

table

The program objective was to educate residents and students on common rapid response scenarios. We devised each scenario as an evolving simulation where various interventions would improve or worsen vital signs and symptoms. Each scenario had an end goal: cardioversion (cardiac), intubation (respiratory), and transfer (neurologic). Objectives were tailored to the trainees present during the specific simulation (Table).

 

 

IMPLEMENTATION

The initial run of the simulation curriculum was implemented on February 22, 2023, and ended on May 17, 2023, with 5 events. Participants included internal medicine PGY1 residents, third-year medical students, and fourth-year physician assistant students. Internal medicine residents ran each scenario with a subject matter expert monitoring; the undergraduate medical trainees partnered with another student. Students were pulled from their ward rotations to attend the simulation, and residents were pulled from electives and wards. Each trainee was able to experience each planned scenario. They were then briefed, participated in each scenario, and ended with a debriefing, discussing each case in detail. Two subject matter experts were always available, and occasionally 4 were present to provide additional knowledge transfer to learners. These included board-certified physicians in internal medicine and pulmonary critical care. Most scenarios were conducted on Wednesday afternoon or Thursday.

The CIL provided 6 staff minimum for every event. The staff controlled the manikins and acted as embedded players for the learners to interact and work with at the bedside. Every embedded RN was provided the same script: They were a new nurse just off orientation and did not know what to do. In addition, they were instructed that no matter who the learner wanted to call/page, that person or service was not answering or unavailable. This forced learners to respond and treat the simulated patient on their own.

Survey Responses

appendix

To evaluate the effect of this program on medical education, we administered surveys to the trainees before and after the simulation (Appendix). All questions were evaluated on a 10-point Likert scale (1, minimal comfort; 10, maximum comfort). The postsurvey added an additional Likert scale question and an open-ended question.

Sixteen trainees underwent the simulation curriculum during the 2022 to 2023 academic year, 9 internal medicine PGY1 residents, 4 medical students, and 3 physician assistant students. Postsimulation surveys indicated a mean 2.2 point increase in comfort compared with the presimulation surveys across all questions and participants.

DISCUSSION

The simulation curriculum proved to be successful for all parties, including trainees, medical educators, and simulation staff. Trainees expressed gratitude for the teaching ability of the simulation and the challenge of confronting an evolving scenario. Students also stated that the simulation allowed them to identify knowledge weaknesses.

Medical technology is rapidly advancing. A study evaluating high-fidelity medical simulations between 1969 and 2003 found that they are educationally effective and complement other medical education modalities.6 It is also noted that care provided by junior physicians with a lack of prior exposure to emergencies and unusual clinical syndromes can lead to more adverse effects.7 Simulation curriculums can be used to educate junior physicians as well as trainees on a multitude of medical emergencies, teach systematic approaches to medical scenarios, and increase exposure to unfamiliar experiences.

The goals of this article are to share program details and encourage other training programs with similar capabilities to incorporate simulation into medical education. Using pre- and postsimulation surveys, there was a concrete improvement in the value obtained by participating in this simulation. The Nightmare on CIL Street learners experienced a mean 2.2 point improvement from presimulation survey to postsimulation survey. Some notable improvements were the feelings of preparedness for rapid response situations and developing a systematic approach. As the students who participated in our Nightmare on CIL Street simulation were early in training, we believe the improvement in preparation and developing a systematic approach can be key to their success in their practical environments.

From a site-specific standpoint, improvement in confidence working through cardiac, respiratory, and neurological emergencies will be very useful. The anesthesiology service intubates during respiratory failures and there is no stroke neurologist available at the CTVHCS hospital. Giving trainees experience in these conditions may allow them to better understand their role in coordination during these times and potentially improve patient outcomes. A follow-up questionnaire administered a year after this simulation may be useful in ascertaining the usefulness of the simulation and what items may have been approached differently. We encourage other institutions to build in aspects of their site-specific challenges to improve trainee awareness in approaches to critical scenarios.

 

 

Challenges

The greatest challenge for Nightmare on CIL Street was the ability to pull internal medicine residents from their clinical duties to participate in the simulation. As there are many moving parts to their clinical scheduling, residents do not always have sufficient coverage to participate in training. There were also instances where residents needed to cover for another resident preventing them from attending the simulation. In the future, this program will schedule residents months in advance and will have the simulation training built into their rotations.

Medical and physician assistant students were pulled from their ward rotations as well. They rotate on a 2-to-4-week basis and often had already experienced the simulation the week prior, leaving out students for the following week. With more longitudinal planning, students can be pulled on a rotating monthly basis to maximize their participation. Another challenge was deciding whether residents should partner or experience the simulation on their own. After some feedback, it was noted that residents preferred to experience the simulation on their own as this improves their learning value. With the limited resources available, only rotating 3 residents on a scenario limits the number of trainees who can be reached with the program. Running this program throughout an academic year can help to reach more trainees.

CONCLUSIONS

Educating trainees on rapid response scenarios by using a simulation curriculum provides many benefits. Our trainees reported improvement in addressing cardiac, respiratory, and neurological rapid response scenarios after experiencing the simulation. They felt better prepared and had developed a better systematic approach for the future.

Acknowledgments

The authors thank Pawan Sikka, MD, George Martinez, MD and Braden Anderson, MD for participating as physician experts and educating our students. We thank Naomi Devers; Dinetra Jones; Stephanie Garrett; Sara Holton; Evelina Bartnick; Tanelle Smith; Michael Lomax; Shaun Kelemen for their participation as nurses, assistants, and simulation technology experts.

References

1. Guze PA. Using technology to meet the challenges of medical education. Trans Am Clin Climatol Assoc. 2015;126:260-270.

2. Higgins M, Madan C, Patel R. Development and decay of procedural skills in surgery: a systematic review of the effectiveness of simulation-based medical education interventions. Surgeon. 2021;19(4):e67-e77. doi:10.1016/j.surge.2020.07.013

3. Lyons PG, Edelson DP, Carey KA, et al. Characteristics of rapid response calls in the United States: an analysis of the first 402,023 adult cases from the Get With the Guidelines Resuscitation-Medical Emergency Team registry. Crit Care Med. 2019;47(10):1283-1289. doi:10.1097/CCM.0000000000003912

4. McMurray L, Hall AK, Rich J, Merchant S, Chaplin T. The nightmares course: a longitudinal, multidisciplinary, simulation-based curriculum to train and assess resident competence in resuscitation. J Grad Med Educ. 2017;9(4):503-508. doi:10.4300/JGME-D-16-00462.1

5. Gilic F, Schultz K, Sempowski I, Blagojevic A. “Nightmares-Family Medicine” course is an effective acute care teaching tool for family medicine residents. Simul Healthc. 2019;14(3):157-162. doi:10.1097/SIH.0000000000000355

6. Issenberg SB, McGaghie WC, Petrusa ER, Lee Gordon D, Scalese RJ. Features and uses of high-fidelity medical simulations that lead to effective learning: a BEME systematic review. Med Teach. 2005;27(1):10-28. doi:10.1080/01421590500046924

7. Datta R, Upadhyay K, Jaideep C. Simulation and its role in medical education. Med J Armed Forces India. 2012;68(2):167-172. doi:10.1016/S0377-1237(12)60040-9

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Author disclosures

The authors report no actual or potential conflicts of interest or outside sources of funding with regard to this article.

Disclaimer

The opinions expressed herein are those of the authors and do not necessarily reflect those of Federal Practitioner, Frontline Medical Communications Inc., the US Government, or any of its agencies.

Ethics and consent

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Author and Disclosure Information

Nikhil Seth, MDa; Michael T. Finch, MSN, RN, CNLa

Correspondence: Nikhil Seth ([email protected])

Author affiliations

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Author disclosures

The authors report no actual or potential conflicts of interest or outside sources of funding with regard to this article.

Disclaimer

The opinions expressed herein are those of the authors and do not necessarily reflect those of Federal Practitioner, Frontline Medical Communications Inc., the US Government, or any of its agencies.

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The Central Texas Veteran’s Health Care System (CTVHCS) in Temple, Texas, is a 189-bed teaching hospital. CTVHCS opened the Center for Innovation and Learning (CIL) in 2022. The CIL has about 279 m2 of simulation space that includes high- and low-fidelity simulation equipment and multiple laboratories, which can be used to simulate inpatient and outpatient settings. The CIL high-fidelity manikins and environment allow learners to be immersed in the simulation for maximum realism. Computer and video systems provide clear viewing of training, which allows for more in-depth debriefing and learning. CIL simulation training is used by CTVHCS staff, medical residents, and medical and physician assistant students.

The utility of technology in medical education is rapidly evolving. As noted in many studies, simulation creates an environment that can imitate real patients in the format of a lifelike manikin, anatomic regions stations, clinical tasks, and many real-life circumstances.1 Task trainers for procedure simulation have been widely used and studied. A 2020 study noted that simulation training is effective for developing procedural skills in surgery and prevents the decay of surgical skills.2

In reviewing health care education curriculums, we noted that most of the rapid response situations are learned through active patient experiences. Rapid responses are managed by the intensive care unit and primary care teams during the day but at night are run primarily by the postgraduate year 2 (PGY2) night resident and intern. Knowing these logistics and current studies, we decided to build a rapid response simulation curriculum to improve preparedness for PGY1 residents, medical students, and physician assistant students.

Curriculum Planning

Planning the simulation curriculum began with the CTVHCS internal medicine chief resident and registered nurse (RN) educator. CTVHCS data were reviewed to identify the 3 most common rapid response calls from the past 3 years; research on the most common systems affected by rapid responses also was evaluated.

A 2019 study by Lyons and colleagues evaluated 402,023 rapid response activations across 360 hospitals and found that respiratory scenarios made up 38% and cardiac scenarios made up 37%.3 In addition, the CTVHCS has limited support in stroke neurology. Therefore, the internal medicine chief resident and RN educator decided to run 3 evolving rapid response scenarios per session that included cardiac, respiratory, and neurological scenarios. Capabilities and limitations of different high-fidelity manikins were discussed to identify and use the most appropriate simulator for each situation. Objectives that met both general medicine and site-specific education were discussed, and the program was formulated.

 

 

Program Description

Nightmare on CIL Street is a simulation-based program designed for new internal medicine residents and students to encounter difficult situations (late at night, on call, or when resources are limited; ie, weekends/holidays) in a controlled simulation environment. During the simulation, learners will be unable to transfer the patient and no additional help is available. Each learner must determine a differential diagnosis and make appropriate medical interventions with only the assistance of a nurse. Scenarios are derived from common rapid response team calls and low-volume/high-impact situations where clinical decisions must be made quickly to ensure the best patient outcomes. High-fidelity manikins that have abilities to respond to questions, simulate breathing, reproduce pathological heart and breath sounds and more are used to create a realistic patient environment.

This program aligns with 2 national Veterans Health Administration priorities: (1) connect veterans to the soonest and best care; and (2) accelerate the Veterans Health Administration journey to be a high-reliability organization (sensitivity to operations, preoccupation with failure, commitment to resilience, and deference to expertise). Nightmare on CIL Street has 3 clinical episodes: 2 cardiac (A Tell-Tale Heart), respiratory (Don’t Breathe), and neurologic (Brain Scan). Additional clinical episodes will be added based on learner feedback and assessed need.

Each simulation event encompassed all 3 episodes that an individual or a team of 2 learners rotate through in a round-robin fashion. The overarching theme for each episode was a rapid response team call with minimal resources that the learner would have to provide care and stabilization. A literature search for rapid response team training programs found few results, but the literature assisted with providing a foundation for Nightmare on CIL Street.4,5 The goal was to completely envelop the learners in a nightmare scenario that required a solution.

After the safety brief and predata collection, learners received a phone call with minimal information about a patient in need of care. The learners responded to the requested area and provided treatment to the emergency over 25 minutes with the bedside nurse (who is an embedded participant). At the conclusion of the scenario, a physician subject matter expert who has been observing, provided a personalized 10-minute debriefing to the learner, which presented specific learning points and opportunities for the learner’s educational development. After the debriefing, learners returned to a conference room and awaited the next call. After all learners completed the 3 episodes, a group debriefing was conducted using the gather, analyze, summarize debriefing framework. The debriefing begins with an open-ended forum for learners to express their thoughts. Then, each scenario is discussed and broken down by key learning objectives. Starting with cardiac and ending with neurology, the logistics of the cases are discussed based on the trajectory of the learners during the scenarios. Each objective is discussed, and learners are allowed to ask questions before moving to the next scenario. After the debriefing, postevent data were gathered.

Objectives

table

The program objective was to educate residents and students on common rapid response scenarios. We devised each scenario as an evolving simulation where various interventions would improve or worsen vital signs and symptoms. Each scenario had an end goal: cardioversion (cardiac), intubation (respiratory), and transfer (neurologic). Objectives were tailored to the trainees present during the specific simulation (Table).

 

 

IMPLEMENTATION

The initial run of the simulation curriculum was implemented on February 22, 2023, and ended on May 17, 2023, with 5 events. Participants included internal medicine PGY1 residents, third-year medical students, and fourth-year physician assistant students. Internal medicine residents ran each scenario with a subject matter expert monitoring; the undergraduate medical trainees partnered with another student. Students were pulled from their ward rotations to attend the simulation, and residents were pulled from electives and wards. Each trainee was able to experience each planned scenario. They were then briefed, participated in each scenario, and ended with a debriefing, discussing each case in detail. Two subject matter experts were always available, and occasionally 4 were present to provide additional knowledge transfer to learners. These included board-certified physicians in internal medicine and pulmonary critical care. Most scenarios were conducted on Wednesday afternoon or Thursday.

The CIL provided 6 staff minimum for every event. The staff controlled the manikins and acted as embedded players for the learners to interact and work with at the bedside. Every embedded RN was provided the same script: They were a new nurse just off orientation and did not know what to do. In addition, they were instructed that no matter who the learner wanted to call/page, that person or service was not answering or unavailable. This forced learners to respond and treat the simulated patient on their own.

Survey Responses

appendix

To evaluate the effect of this program on medical education, we administered surveys to the trainees before and after the simulation (Appendix). All questions were evaluated on a 10-point Likert scale (1, minimal comfort; 10, maximum comfort). The postsurvey added an additional Likert scale question and an open-ended question.

Sixteen trainees underwent the simulation curriculum during the 2022 to 2023 academic year, 9 internal medicine PGY1 residents, 4 medical students, and 3 physician assistant students. Postsimulation surveys indicated a mean 2.2 point increase in comfort compared with the presimulation surveys across all questions and participants.

DISCUSSION

The simulation curriculum proved to be successful for all parties, including trainees, medical educators, and simulation staff. Trainees expressed gratitude for the teaching ability of the simulation and the challenge of confronting an evolving scenario. Students also stated that the simulation allowed them to identify knowledge weaknesses.

Medical technology is rapidly advancing. A study evaluating high-fidelity medical simulations between 1969 and 2003 found that they are educationally effective and complement other medical education modalities.6 It is also noted that care provided by junior physicians with a lack of prior exposure to emergencies and unusual clinical syndromes can lead to more adverse effects.7 Simulation curriculums can be used to educate junior physicians as well as trainees on a multitude of medical emergencies, teach systematic approaches to medical scenarios, and increase exposure to unfamiliar experiences.

The goals of this article are to share program details and encourage other training programs with similar capabilities to incorporate simulation into medical education. Using pre- and postsimulation surveys, there was a concrete improvement in the value obtained by participating in this simulation. The Nightmare on CIL Street learners experienced a mean 2.2 point improvement from presimulation survey to postsimulation survey. Some notable improvements were the feelings of preparedness for rapid response situations and developing a systematic approach. As the students who participated in our Nightmare on CIL Street simulation were early in training, we believe the improvement in preparation and developing a systematic approach can be key to their success in their practical environments.

From a site-specific standpoint, improvement in confidence working through cardiac, respiratory, and neurological emergencies will be very useful. The anesthesiology service intubates during respiratory failures and there is no stroke neurologist available at the CTVHCS hospital. Giving trainees experience in these conditions may allow them to better understand their role in coordination during these times and potentially improve patient outcomes. A follow-up questionnaire administered a year after this simulation may be useful in ascertaining the usefulness of the simulation and what items may have been approached differently. We encourage other institutions to build in aspects of their site-specific challenges to improve trainee awareness in approaches to critical scenarios.

 

 

Challenges

The greatest challenge for Nightmare on CIL Street was the ability to pull internal medicine residents from their clinical duties to participate in the simulation. As there are many moving parts to their clinical scheduling, residents do not always have sufficient coverage to participate in training. There were also instances where residents needed to cover for another resident preventing them from attending the simulation. In the future, this program will schedule residents months in advance and will have the simulation training built into their rotations.

Medical and physician assistant students were pulled from their ward rotations as well. They rotate on a 2-to-4-week basis and often had already experienced the simulation the week prior, leaving out students for the following week. With more longitudinal planning, students can be pulled on a rotating monthly basis to maximize their participation. Another challenge was deciding whether residents should partner or experience the simulation on their own. After some feedback, it was noted that residents preferred to experience the simulation on their own as this improves their learning value. With the limited resources available, only rotating 3 residents on a scenario limits the number of trainees who can be reached with the program. Running this program throughout an academic year can help to reach more trainees.

CONCLUSIONS

Educating trainees on rapid response scenarios by using a simulation curriculum provides many benefits. Our trainees reported improvement in addressing cardiac, respiratory, and neurological rapid response scenarios after experiencing the simulation. They felt better prepared and had developed a better systematic approach for the future.

Acknowledgments

The authors thank Pawan Sikka, MD, George Martinez, MD and Braden Anderson, MD for participating as physician experts and educating our students. We thank Naomi Devers; Dinetra Jones; Stephanie Garrett; Sara Holton; Evelina Bartnick; Tanelle Smith; Michael Lomax; Shaun Kelemen for their participation as nurses, assistants, and simulation technology experts.

The Central Texas Veteran’s Health Care System (CTVHCS) in Temple, Texas, is a 189-bed teaching hospital. CTVHCS opened the Center for Innovation and Learning (CIL) in 2022. The CIL has about 279 m2 of simulation space that includes high- and low-fidelity simulation equipment and multiple laboratories, which can be used to simulate inpatient and outpatient settings. The CIL high-fidelity manikins and environment allow learners to be immersed in the simulation for maximum realism. Computer and video systems provide clear viewing of training, which allows for more in-depth debriefing and learning. CIL simulation training is used by CTVHCS staff, medical residents, and medical and physician assistant students.

The utility of technology in medical education is rapidly evolving. As noted in many studies, simulation creates an environment that can imitate real patients in the format of a lifelike manikin, anatomic regions stations, clinical tasks, and many real-life circumstances.1 Task trainers for procedure simulation have been widely used and studied. A 2020 study noted that simulation training is effective for developing procedural skills in surgery and prevents the decay of surgical skills.2

In reviewing health care education curriculums, we noted that most of the rapid response situations are learned through active patient experiences. Rapid responses are managed by the intensive care unit and primary care teams during the day but at night are run primarily by the postgraduate year 2 (PGY2) night resident and intern. Knowing these logistics and current studies, we decided to build a rapid response simulation curriculum to improve preparedness for PGY1 residents, medical students, and physician assistant students.

Curriculum Planning

Planning the simulation curriculum began with the CTVHCS internal medicine chief resident and registered nurse (RN) educator. CTVHCS data were reviewed to identify the 3 most common rapid response calls from the past 3 years; research on the most common systems affected by rapid responses also was evaluated.

A 2019 study by Lyons and colleagues evaluated 402,023 rapid response activations across 360 hospitals and found that respiratory scenarios made up 38% and cardiac scenarios made up 37%.3 In addition, the CTVHCS has limited support in stroke neurology. Therefore, the internal medicine chief resident and RN educator decided to run 3 evolving rapid response scenarios per session that included cardiac, respiratory, and neurological scenarios. Capabilities and limitations of different high-fidelity manikins were discussed to identify and use the most appropriate simulator for each situation. Objectives that met both general medicine and site-specific education were discussed, and the program was formulated.

 

 

Program Description

Nightmare on CIL Street is a simulation-based program designed for new internal medicine residents and students to encounter difficult situations (late at night, on call, or when resources are limited; ie, weekends/holidays) in a controlled simulation environment. During the simulation, learners will be unable to transfer the patient and no additional help is available. Each learner must determine a differential diagnosis and make appropriate medical interventions with only the assistance of a nurse. Scenarios are derived from common rapid response team calls and low-volume/high-impact situations where clinical decisions must be made quickly to ensure the best patient outcomes. High-fidelity manikins that have abilities to respond to questions, simulate breathing, reproduce pathological heart and breath sounds and more are used to create a realistic patient environment.

This program aligns with 2 national Veterans Health Administration priorities: (1) connect veterans to the soonest and best care; and (2) accelerate the Veterans Health Administration journey to be a high-reliability organization (sensitivity to operations, preoccupation with failure, commitment to resilience, and deference to expertise). Nightmare on CIL Street has 3 clinical episodes: 2 cardiac (A Tell-Tale Heart), respiratory (Don’t Breathe), and neurologic (Brain Scan). Additional clinical episodes will be added based on learner feedback and assessed need.

Each simulation event encompassed all 3 episodes that an individual or a team of 2 learners rotate through in a round-robin fashion. The overarching theme for each episode was a rapid response team call with minimal resources that the learner would have to provide care and stabilization. A literature search for rapid response team training programs found few results, but the literature assisted with providing a foundation for Nightmare on CIL Street.4,5 The goal was to completely envelop the learners in a nightmare scenario that required a solution.

After the safety brief and predata collection, learners received a phone call with minimal information about a patient in need of care. The learners responded to the requested area and provided treatment to the emergency over 25 minutes with the bedside nurse (who is an embedded participant). At the conclusion of the scenario, a physician subject matter expert who has been observing, provided a personalized 10-minute debriefing to the learner, which presented specific learning points and opportunities for the learner’s educational development. After the debriefing, learners returned to a conference room and awaited the next call. After all learners completed the 3 episodes, a group debriefing was conducted using the gather, analyze, summarize debriefing framework. The debriefing begins with an open-ended forum for learners to express their thoughts. Then, each scenario is discussed and broken down by key learning objectives. Starting with cardiac and ending with neurology, the logistics of the cases are discussed based on the trajectory of the learners during the scenarios. Each objective is discussed, and learners are allowed to ask questions before moving to the next scenario. After the debriefing, postevent data were gathered.

Objectives

table

The program objective was to educate residents and students on common rapid response scenarios. We devised each scenario as an evolving simulation where various interventions would improve or worsen vital signs and symptoms. Each scenario had an end goal: cardioversion (cardiac), intubation (respiratory), and transfer (neurologic). Objectives were tailored to the trainees present during the specific simulation (Table).

 

 

IMPLEMENTATION

The initial run of the simulation curriculum was implemented on February 22, 2023, and ended on May 17, 2023, with 5 events. Participants included internal medicine PGY1 residents, third-year medical students, and fourth-year physician assistant students. Internal medicine residents ran each scenario with a subject matter expert monitoring; the undergraduate medical trainees partnered with another student. Students were pulled from their ward rotations to attend the simulation, and residents were pulled from electives and wards. Each trainee was able to experience each planned scenario. They were then briefed, participated in each scenario, and ended with a debriefing, discussing each case in detail. Two subject matter experts were always available, and occasionally 4 were present to provide additional knowledge transfer to learners. These included board-certified physicians in internal medicine and pulmonary critical care. Most scenarios were conducted on Wednesday afternoon or Thursday.

The CIL provided 6 staff minimum for every event. The staff controlled the manikins and acted as embedded players for the learners to interact and work with at the bedside. Every embedded RN was provided the same script: They were a new nurse just off orientation and did not know what to do. In addition, they were instructed that no matter who the learner wanted to call/page, that person or service was not answering or unavailable. This forced learners to respond and treat the simulated patient on their own.

Survey Responses

appendix

To evaluate the effect of this program on medical education, we administered surveys to the trainees before and after the simulation (Appendix). All questions were evaluated on a 10-point Likert scale (1, minimal comfort; 10, maximum comfort). The postsurvey added an additional Likert scale question and an open-ended question.

Sixteen trainees underwent the simulation curriculum during the 2022 to 2023 academic year, 9 internal medicine PGY1 residents, 4 medical students, and 3 physician assistant students. Postsimulation surveys indicated a mean 2.2 point increase in comfort compared with the presimulation surveys across all questions and participants.

DISCUSSION

The simulation curriculum proved to be successful for all parties, including trainees, medical educators, and simulation staff. Trainees expressed gratitude for the teaching ability of the simulation and the challenge of confronting an evolving scenario. Students also stated that the simulation allowed them to identify knowledge weaknesses.

Medical technology is rapidly advancing. A study evaluating high-fidelity medical simulations between 1969 and 2003 found that they are educationally effective and complement other medical education modalities.6 It is also noted that care provided by junior physicians with a lack of prior exposure to emergencies and unusual clinical syndromes can lead to more adverse effects.7 Simulation curriculums can be used to educate junior physicians as well as trainees on a multitude of medical emergencies, teach systematic approaches to medical scenarios, and increase exposure to unfamiliar experiences.

The goals of this article are to share program details and encourage other training programs with similar capabilities to incorporate simulation into medical education. Using pre- and postsimulation surveys, there was a concrete improvement in the value obtained by participating in this simulation. The Nightmare on CIL Street learners experienced a mean 2.2 point improvement from presimulation survey to postsimulation survey. Some notable improvements were the feelings of preparedness for rapid response situations and developing a systematic approach. As the students who participated in our Nightmare on CIL Street simulation were early in training, we believe the improvement in preparation and developing a systematic approach can be key to their success in their practical environments.

From a site-specific standpoint, improvement in confidence working through cardiac, respiratory, and neurological emergencies will be very useful. The anesthesiology service intubates during respiratory failures and there is no stroke neurologist available at the CTVHCS hospital. Giving trainees experience in these conditions may allow them to better understand their role in coordination during these times and potentially improve patient outcomes. A follow-up questionnaire administered a year after this simulation may be useful in ascertaining the usefulness of the simulation and what items may have been approached differently. We encourage other institutions to build in aspects of their site-specific challenges to improve trainee awareness in approaches to critical scenarios.

 

 

Challenges

The greatest challenge for Nightmare on CIL Street was the ability to pull internal medicine residents from their clinical duties to participate in the simulation. As there are many moving parts to their clinical scheduling, residents do not always have sufficient coverage to participate in training. There were also instances where residents needed to cover for another resident preventing them from attending the simulation. In the future, this program will schedule residents months in advance and will have the simulation training built into their rotations.

Medical and physician assistant students were pulled from their ward rotations as well. They rotate on a 2-to-4-week basis and often had already experienced the simulation the week prior, leaving out students for the following week. With more longitudinal planning, students can be pulled on a rotating monthly basis to maximize their participation. Another challenge was deciding whether residents should partner or experience the simulation on their own. After some feedback, it was noted that residents preferred to experience the simulation on their own as this improves their learning value. With the limited resources available, only rotating 3 residents on a scenario limits the number of trainees who can be reached with the program. Running this program throughout an academic year can help to reach more trainees.

CONCLUSIONS

Educating trainees on rapid response scenarios by using a simulation curriculum provides many benefits. Our trainees reported improvement in addressing cardiac, respiratory, and neurological rapid response scenarios after experiencing the simulation. They felt better prepared and had developed a better systematic approach for the future.

Acknowledgments

The authors thank Pawan Sikka, MD, George Martinez, MD and Braden Anderson, MD for participating as physician experts and educating our students. We thank Naomi Devers; Dinetra Jones; Stephanie Garrett; Sara Holton; Evelina Bartnick; Tanelle Smith; Michael Lomax; Shaun Kelemen for their participation as nurses, assistants, and simulation technology experts.

References

1. Guze PA. Using technology to meet the challenges of medical education. Trans Am Clin Climatol Assoc. 2015;126:260-270.

2. Higgins M, Madan C, Patel R. Development and decay of procedural skills in surgery: a systematic review of the effectiveness of simulation-based medical education interventions. Surgeon. 2021;19(4):e67-e77. doi:10.1016/j.surge.2020.07.013

3. Lyons PG, Edelson DP, Carey KA, et al. Characteristics of rapid response calls in the United States: an analysis of the first 402,023 adult cases from the Get With the Guidelines Resuscitation-Medical Emergency Team registry. Crit Care Med. 2019;47(10):1283-1289. doi:10.1097/CCM.0000000000003912

4. McMurray L, Hall AK, Rich J, Merchant S, Chaplin T. The nightmares course: a longitudinal, multidisciplinary, simulation-based curriculum to train and assess resident competence in resuscitation. J Grad Med Educ. 2017;9(4):503-508. doi:10.4300/JGME-D-16-00462.1

5. Gilic F, Schultz K, Sempowski I, Blagojevic A. “Nightmares-Family Medicine” course is an effective acute care teaching tool for family medicine residents. Simul Healthc. 2019;14(3):157-162. doi:10.1097/SIH.0000000000000355

6. Issenberg SB, McGaghie WC, Petrusa ER, Lee Gordon D, Scalese RJ. Features and uses of high-fidelity medical simulations that lead to effective learning: a BEME systematic review. Med Teach. 2005;27(1):10-28. doi:10.1080/01421590500046924

7. Datta R, Upadhyay K, Jaideep C. Simulation and its role in medical education. Med J Armed Forces India. 2012;68(2):167-172. doi:10.1016/S0377-1237(12)60040-9

References

1. Guze PA. Using technology to meet the challenges of medical education. Trans Am Clin Climatol Assoc. 2015;126:260-270.

2. Higgins M, Madan C, Patel R. Development and decay of procedural skills in surgery: a systematic review of the effectiveness of simulation-based medical education interventions. Surgeon. 2021;19(4):e67-e77. doi:10.1016/j.surge.2020.07.013

3. Lyons PG, Edelson DP, Carey KA, et al. Characteristics of rapid response calls in the United States: an analysis of the first 402,023 adult cases from the Get With the Guidelines Resuscitation-Medical Emergency Team registry. Crit Care Med. 2019;47(10):1283-1289. doi:10.1097/CCM.0000000000003912

4. McMurray L, Hall AK, Rich J, Merchant S, Chaplin T. The nightmares course: a longitudinal, multidisciplinary, simulation-based curriculum to train and assess resident competence in resuscitation. J Grad Med Educ. 2017;9(4):503-508. doi:10.4300/JGME-D-16-00462.1

5. Gilic F, Schultz K, Sempowski I, Blagojevic A. “Nightmares-Family Medicine” course is an effective acute care teaching tool for family medicine residents. Simul Healthc. 2019;14(3):157-162. doi:10.1097/SIH.0000000000000355

6. Issenberg SB, McGaghie WC, Petrusa ER, Lee Gordon D, Scalese RJ. Features and uses of high-fidelity medical simulations that lead to effective learning: a BEME systematic review. Med Teach. 2005;27(1):10-28. doi:10.1080/01421590500046924

7. Datta R, Upadhyay K, Jaideep C. Simulation and its role in medical education. Med J Armed Forces India. 2012;68(2):167-172. doi:10.1016/S0377-1237(12)60040-9

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ILD: Time lost is lung lost

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Fri, 11/03/2023 - 17:35

First launched in 2022 in partnership with Three Lakes Foundation, Bridging Specialties™: Timely Diagnosis for ILD is a collaborative initiative hinged on bringing together pulmonary and primary care experts. To shorten the time to diagnosis for interstitial lung diseases (ILDs) like pulmonary fibrosis, the initiative illustrates that there is a need for clinicians to work collaboratively, utilizing the unique strengths of all involved. The steering committee of experts from both fields created a clinician-facing toolkit that, with support of two quality improvement grants, will be introduced into health care institutions in 2024.

Kavitha Selvan, MD, Pulmonary and Critical Care Fellow at the University of Chicago School of Medicine, and Amirahwaty Abdullah, MBBS, Assistant Professor & Critical Care Medicine Associate Program Director at the West Virginia University School of Medicine, are the recipients of the grants. Each recipient will receive funding to implement strategic quality improvement projects designed to work closely with primary care partners and address the needs of their communities to shorten the time to diagnosis for patients with ILD.

Dr. Selvan’s project leverages the diverse population of Chicago and will engage primary care physicians by working closely with the Medical Director of the Primary Care Group within the University of Chicago. “There is a growing body of research that illustrates vast racial and ethnic disparities in ILD outcomes, including time to diagnosis and survival. The diverse community we serve in Chicago provided the inspiration for our project, which we hope will enable us to take a meaningful step toward achieving equity in health care,” Dr. Selvan said. “Through close collaboration with the dedicated physicians in our Primary Care Group, we aim to increase recognition of signs and symptoms suggestive of ILD earlier in the course of disease and streamline the thoughtful, multidisciplinary care our patients need.”

Affecting 400,000 people in the United States, ILDs are often overlooked as a potential diagnosis given their rarity. A proper diagnosis for this disease is further complicated by ubiquitous presenting symptoms that are common in many other diseases, including asthma, COPD, and cardiac conditions, and often leads to a misdiagnosis. This delay in diagnosis, or an outright misdiagnosis, leads to additional delays in receiving proper treatment and, subsequently, a degradation in the patient’s quality of life. For Dr. Abdullah, the rarity of the disease is not the issue; rather, there is an access issue. Because of this, their project will focus on telemedicine implementation to meet the needs of their area. “While ILD is a rare disease, the state of West Virginia has a disproportionately increased prevalence due to a variety of societal factors,” Dr. Abdullah said. “Despite this prevalence, there is one ILD clinic in the state of West Virginia in comparison to 1,253 primary care providers throughout the state. To address this gap, the project will focus on expanding telemedicine capabilities in order to reach these patients virtually through their primary care physicians who would help us to facilitate the video-assisted visits.”

To learn more about the toolkit they will be implementing, visit the CHEST website.

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First launched in 2022 in partnership with Three Lakes Foundation, Bridging Specialties™: Timely Diagnosis for ILD is a collaborative initiative hinged on bringing together pulmonary and primary care experts. To shorten the time to diagnosis for interstitial lung diseases (ILDs) like pulmonary fibrosis, the initiative illustrates that there is a need for clinicians to work collaboratively, utilizing the unique strengths of all involved. The steering committee of experts from both fields created a clinician-facing toolkit that, with support of two quality improvement grants, will be introduced into health care institutions in 2024.

Kavitha Selvan, MD, Pulmonary and Critical Care Fellow at the University of Chicago School of Medicine, and Amirahwaty Abdullah, MBBS, Assistant Professor & Critical Care Medicine Associate Program Director at the West Virginia University School of Medicine, are the recipients of the grants. Each recipient will receive funding to implement strategic quality improvement projects designed to work closely with primary care partners and address the needs of their communities to shorten the time to diagnosis for patients with ILD.

Dr. Selvan’s project leverages the diverse population of Chicago and will engage primary care physicians by working closely with the Medical Director of the Primary Care Group within the University of Chicago. “There is a growing body of research that illustrates vast racial and ethnic disparities in ILD outcomes, including time to diagnosis and survival. The diverse community we serve in Chicago provided the inspiration for our project, which we hope will enable us to take a meaningful step toward achieving equity in health care,” Dr. Selvan said. “Through close collaboration with the dedicated physicians in our Primary Care Group, we aim to increase recognition of signs and symptoms suggestive of ILD earlier in the course of disease and streamline the thoughtful, multidisciplinary care our patients need.”

Affecting 400,000 people in the United States, ILDs are often overlooked as a potential diagnosis given their rarity. A proper diagnosis for this disease is further complicated by ubiquitous presenting symptoms that are common in many other diseases, including asthma, COPD, and cardiac conditions, and often leads to a misdiagnosis. This delay in diagnosis, or an outright misdiagnosis, leads to additional delays in receiving proper treatment and, subsequently, a degradation in the patient’s quality of life. For Dr. Abdullah, the rarity of the disease is not the issue; rather, there is an access issue. Because of this, their project will focus on telemedicine implementation to meet the needs of their area. “While ILD is a rare disease, the state of West Virginia has a disproportionately increased prevalence due to a variety of societal factors,” Dr. Abdullah said. “Despite this prevalence, there is one ILD clinic in the state of West Virginia in comparison to 1,253 primary care providers throughout the state. To address this gap, the project will focus on expanding telemedicine capabilities in order to reach these patients virtually through their primary care physicians who would help us to facilitate the video-assisted visits.”

To learn more about the toolkit they will be implementing, visit the CHEST website.

First launched in 2022 in partnership with Three Lakes Foundation, Bridging Specialties™: Timely Diagnosis for ILD is a collaborative initiative hinged on bringing together pulmonary and primary care experts. To shorten the time to diagnosis for interstitial lung diseases (ILDs) like pulmonary fibrosis, the initiative illustrates that there is a need for clinicians to work collaboratively, utilizing the unique strengths of all involved. The steering committee of experts from both fields created a clinician-facing toolkit that, with support of two quality improvement grants, will be introduced into health care institutions in 2024.

Kavitha Selvan, MD, Pulmonary and Critical Care Fellow at the University of Chicago School of Medicine, and Amirahwaty Abdullah, MBBS, Assistant Professor & Critical Care Medicine Associate Program Director at the West Virginia University School of Medicine, are the recipients of the grants. Each recipient will receive funding to implement strategic quality improvement projects designed to work closely with primary care partners and address the needs of their communities to shorten the time to diagnosis for patients with ILD.

Dr. Selvan’s project leverages the diverse population of Chicago and will engage primary care physicians by working closely with the Medical Director of the Primary Care Group within the University of Chicago. “There is a growing body of research that illustrates vast racial and ethnic disparities in ILD outcomes, including time to diagnosis and survival. The diverse community we serve in Chicago provided the inspiration for our project, which we hope will enable us to take a meaningful step toward achieving equity in health care,” Dr. Selvan said. “Through close collaboration with the dedicated physicians in our Primary Care Group, we aim to increase recognition of signs and symptoms suggestive of ILD earlier in the course of disease and streamline the thoughtful, multidisciplinary care our patients need.”

Affecting 400,000 people in the United States, ILDs are often overlooked as a potential diagnosis given their rarity. A proper diagnosis for this disease is further complicated by ubiquitous presenting symptoms that are common in many other diseases, including asthma, COPD, and cardiac conditions, and often leads to a misdiagnosis. This delay in diagnosis, or an outright misdiagnosis, leads to additional delays in receiving proper treatment and, subsequently, a degradation in the patient’s quality of life. For Dr. Abdullah, the rarity of the disease is not the issue; rather, there is an access issue. Because of this, their project will focus on telemedicine implementation to meet the needs of their area. “While ILD is a rare disease, the state of West Virginia has a disproportionately increased prevalence due to a variety of societal factors,” Dr. Abdullah said. “Despite this prevalence, there is one ILD clinic in the state of West Virginia in comparison to 1,253 primary care providers throughout the state. To address this gap, the project will focus on expanding telemedicine capabilities in order to reach these patients virtually through their primary care physicians who would help us to facilitate the video-assisted visits.”

To learn more about the toolkit they will be implementing, visit the CHEST website.

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Gen Z is hooked on vaping

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Changed
Fri, 11/03/2023 - 17:29

Exploring the obstacles to nicotine cessation among teens

Pulmonologist Evan Stepp, MD, FCCP, has a teenage daughter who doesn’t smoke or vape – as far as he knows, Stepp will admit – but the statistics on youth smoking are alarming enough to have him worried.

On one hand, fewer Americans are smoking today than ever before. Since 1992, the percentage of people who told Gallup that they’d had a cigarette in the past week has dropped from 28% to 11%. Meanwhile, the rate of new lung cancer cases declined from 65 per every 100,000 people in 1992 to 34 per 100,000 in 2020, according to the National Cancer Institute.

While those statistics are worth celebrating, they hide an alarming reality: A disproportionate number of teens and young adults today are addicted to nicotine.

According to a November 2022 report from the Centers for Disease Control and Prevention (CDC), 1 in 6 high school students and 1 in 20 middle schoolers are using a nicotine product at least once every day.

“It’s a completely different picture for nicotine cessation in youth,” Dr. Stepp, who is an associate professor at National Jewish Health in Denver, said. “Because of the fact that the nicotine addiction is occurring in a developing brain, which raises many other nicotine-related harms.”
 

Why teens vape

Today’s teens are smoking less actual tobacco, and, instead, overwhelmingly prefer e-cigarettes or vaping. In fact, 85% of high school–aged smokers and 72% of middle school smokers reach for a vape over regular cigarettes or smokeless tobacco, according to the CDC.

It’s not hard to understand why: e-cigarettes use a heating element to turn a nicotine-infused liquid into an aerosol, with no open flame, ash, or lingering smoke. The vapes themselves are easy to conceal, and if someone needed to hide an e-cigarette from particularly perceptive parents or teachers, they can find vapes built into hoodies, fake smartwatches, and USB drives.

Plus, the liquids often come in flavors like fruit, bubble gum, mint, and vanilla, because unflavored nicotine isn’t exactly appealing. “Huge concentrations of nicotine salts are just miserable to breathe in,” Dr. Stepp said. “Flavors are necessary to make these products palatable, and those flavors end up being a huge draw for youth users to get exposed to nicotine addiction.”
 

Challenges surrounding smoking cessation in youth

The powerful effect of nicotine in youth means the need for effective cessation strategies is both more urgent and more difficult. But while physicians can prescribe to adults the antidepressants varenicline and bupropion, along with nicotine replacement therapy, to help ease withdrawal symptoms, the US Food and Drug Administration (FDA) has not approved those medications for anyone under the age of 18.

Research on cessation medications in young people is limited: A recent meta-analysis found only four studies on people between the ages of 12 and 21. In teens, antidepressants seem to help quitting for the first few weeks but are unproven as a long-term solution.

“That really has been a challenge for the 1 in 6 high school students who are current users of tobacco products,” said pediatrician, Susan Walley, MD, a co-author of the American Academy of Pediatrics’ recent position papers on children and smoking.

“One of the things that is important to keep at the forefront of the conversation is that nicotine addiction is a chronic medical disease, and it’s a form of substance abuse,” Dr. Walley said. “We know that we need more research in adolescent tobacco cessation, and it really is about the funding, about research dollars.”

Without medications, smoking cessation in teens relies largely on counseling strategies. A 2017 review published by Cochrane Library found that group counseling was the most effective quitting method, with teens participating in group sessions 35% more likely to stop using nicotine products up to a year later, compared with teens who did not receive any counseling.

Counseling can help educate teens (and parents) on some of the realities of e-cigarettes, bridging the gap between well-established anti-smoking campaigns and the anti-vape campaigns that have yet to catch up.

“We have done a great job promoting cigarette use as dangerous,” Dr. Walley said. “[But] many teens who would never pick up a cigarette –because they know the health risks – are vaping.”
 

 

 

How to get a teen to quit

Cessation and prevention strategies are closely linked, and interventions can start in middle school-aged children up through high school and young adults. Simply asking a 12-year-old, “Do you know anyone who smokes?” can help start a conversation that leads to an attempt to quit.

Teens may be compelled to smoke through digital advertising and influencer endorsements on social media platforms, but Gen Z is turned off by the idea that it’s being manipulated by the tobacco industry. Juul, for example, is partially owned by Altria, which makes Marlboros, and Vuse is wholly owned by R.J. Reynolds, which makes Camel cigarettes.

“If you can get somebody to understand that Big Tobacco is trying to manipulate you as a young person to want to illegally obtain and use their products, which are incredibly addictive, thus ensuring you will remain a loyal customer, that could be the thing that pushes them over the hump,” Dr. Stepp said. “You push it away like you would push away a parent trying to tell you how to park a car in the driveway.”

And just because a smoker relapses, it doesn’t mean the cessation was a complete failure. The younger someone is when they stop smoking, the less likely they are to suffer from the long-term health consequences of smoking, according to a 2021 study in the Journal of the American Medical Association. “With the right counseling,” Dr. Walley said, “each relapse is an opportunity for losing the habit permanently.”


This article was adapted from the Summer 2023 online issue of CHEST Advocates. For the full article – and to engage with the other content from this issue – visit https://chestnet.org/chest-­advocates.

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Exploring the obstacles to nicotine cessation among teens

Exploring the obstacles to nicotine cessation among teens

Pulmonologist Evan Stepp, MD, FCCP, has a teenage daughter who doesn’t smoke or vape – as far as he knows, Stepp will admit – but the statistics on youth smoking are alarming enough to have him worried.

On one hand, fewer Americans are smoking today than ever before. Since 1992, the percentage of people who told Gallup that they’d had a cigarette in the past week has dropped from 28% to 11%. Meanwhile, the rate of new lung cancer cases declined from 65 per every 100,000 people in 1992 to 34 per 100,000 in 2020, according to the National Cancer Institute.

While those statistics are worth celebrating, they hide an alarming reality: A disproportionate number of teens and young adults today are addicted to nicotine.

According to a November 2022 report from the Centers for Disease Control and Prevention (CDC), 1 in 6 high school students and 1 in 20 middle schoolers are using a nicotine product at least once every day.

“It’s a completely different picture for nicotine cessation in youth,” Dr. Stepp, who is an associate professor at National Jewish Health in Denver, said. “Because of the fact that the nicotine addiction is occurring in a developing brain, which raises many other nicotine-related harms.”
 

Why teens vape

Today’s teens are smoking less actual tobacco, and, instead, overwhelmingly prefer e-cigarettes or vaping. In fact, 85% of high school–aged smokers and 72% of middle school smokers reach for a vape over regular cigarettes or smokeless tobacco, according to the CDC.

It’s not hard to understand why: e-cigarettes use a heating element to turn a nicotine-infused liquid into an aerosol, with no open flame, ash, or lingering smoke. The vapes themselves are easy to conceal, and if someone needed to hide an e-cigarette from particularly perceptive parents or teachers, they can find vapes built into hoodies, fake smartwatches, and USB drives.

Plus, the liquids often come in flavors like fruit, bubble gum, mint, and vanilla, because unflavored nicotine isn’t exactly appealing. “Huge concentrations of nicotine salts are just miserable to breathe in,” Dr. Stepp said. “Flavors are necessary to make these products palatable, and those flavors end up being a huge draw for youth users to get exposed to nicotine addiction.”
 

Challenges surrounding smoking cessation in youth

The powerful effect of nicotine in youth means the need for effective cessation strategies is both more urgent and more difficult. But while physicians can prescribe to adults the antidepressants varenicline and bupropion, along with nicotine replacement therapy, to help ease withdrawal symptoms, the US Food and Drug Administration (FDA) has not approved those medications for anyone under the age of 18.

Research on cessation medications in young people is limited: A recent meta-analysis found only four studies on people between the ages of 12 and 21. In teens, antidepressants seem to help quitting for the first few weeks but are unproven as a long-term solution.

“That really has been a challenge for the 1 in 6 high school students who are current users of tobacco products,” said pediatrician, Susan Walley, MD, a co-author of the American Academy of Pediatrics’ recent position papers on children and smoking.

“One of the things that is important to keep at the forefront of the conversation is that nicotine addiction is a chronic medical disease, and it’s a form of substance abuse,” Dr. Walley said. “We know that we need more research in adolescent tobacco cessation, and it really is about the funding, about research dollars.”

Without medications, smoking cessation in teens relies largely on counseling strategies. A 2017 review published by Cochrane Library found that group counseling was the most effective quitting method, with teens participating in group sessions 35% more likely to stop using nicotine products up to a year later, compared with teens who did not receive any counseling.

Counseling can help educate teens (and parents) on some of the realities of e-cigarettes, bridging the gap between well-established anti-smoking campaigns and the anti-vape campaigns that have yet to catch up.

“We have done a great job promoting cigarette use as dangerous,” Dr. Walley said. “[But] many teens who would never pick up a cigarette –because they know the health risks – are vaping.”
 

 

 

How to get a teen to quit

Cessation and prevention strategies are closely linked, and interventions can start in middle school-aged children up through high school and young adults. Simply asking a 12-year-old, “Do you know anyone who smokes?” can help start a conversation that leads to an attempt to quit.

Teens may be compelled to smoke through digital advertising and influencer endorsements on social media platforms, but Gen Z is turned off by the idea that it’s being manipulated by the tobacco industry. Juul, for example, is partially owned by Altria, which makes Marlboros, and Vuse is wholly owned by R.J. Reynolds, which makes Camel cigarettes.

“If you can get somebody to understand that Big Tobacco is trying to manipulate you as a young person to want to illegally obtain and use their products, which are incredibly addictive, thus ensuring you will remain a loyal customer, that could be the thing that pushes them over the hump,” Dr. Stepp said. “You push it away like you would push away a parent trying to tell you how to park a car in the driveway.”

And just because a smoker relapses, it doesn’t mean the cessation was a complete failure. The younger someone is when they stop smoking, the less likely they are to suffer from the long-term health consequences of smoking, according to a 2021 study in the Journal of the American Medical Association. “With the right counseling,” Dr. Walley said, “each relapse is an opportunity for losing the habit permanently.”


This article was adapted from the Summer 2023 online issue of CHEST Advocates. For the full article – and to engage with the other content from this issue – visit https://chestnet.org/chest-­advocates.

Pulmonologist Evan Stepp, MD, FCCP, has a teenage daughter who doesn’t smoke or vape – as far as he knows, Stepp will admit – but the statistics on youth smoking are alarming enough to have him worried.

On one hand, fewer Americans are smoking today than ever before. Since 1992, the percentage of people who told Gallup that they’d had a cigarette in the past week has dropped from 28% to 11%. Meanwhile, the rate of new lung cancer cases declined from 65 per every 100,000 people in 1992 to 34 per 100,000 in 2020, according to the National Cancer Institute.

While those statistics are worth celebrating, they hide an alarming reality: A disproportionate number of teens and young adults today are addicted to nicotine.

According to a November 2022 report from the Centers for Disease Control and Prevention (CDC), 1 in 6 high school students and 1 in 20 middle schoolers are using a nicotine product at least once every day.

“It’s a completely different picture for nicotine cessation in youth,” Dr. Stepp, who is an associate professor at National Jewish Health in Denver, said. “Because of the fact that the nicotine addiction is occurring in a developing brain, which raises many other nicotine-related harms.”
 

Why teens vape

Today’s teens are smoking less actual tobacco, and, instead, overwhelmingly prefer e-cigarettes or vaping. In fact, 85% of high school–aged smokers and 72% of middle school smokers reach for a vape over regular cigarettes or smokeless tobacco, according to the CDC.

It’s not hard to understand why: e-cigarettes use a heating element to turn a nicotine-infused liquid into an aerosol, with no open flame, ash, or lingering smoke. The vapes themselves are easy to conceal, and if someone needed to hide an e-cigarette from particularly perceptive parents or teachers, they can find vapes built into hoodies, fake smartwatches, and USB drives.

Plus, the liquids often come in flavors like fruit, bubble gum, mint, and vanilla, because unflavored nicotine isn’t exactly appealing. “Huge concentrations of nicotine salts are just miserable to breathe in,” Dr. Stepp said. “Flavors are necessary to make these products palatable, and those flavors end up being a huge draw for youth users to get exposed to nicotine addiction.”
 

Challenges surrounding smoking cessation in youth

The powerful effect of nicotine in youth means the need for effective cessation strategies is both more urgent and more difficult. But while physicians can prescribe to adults the antidepressants varenicline and bupropion, along with nicotine replacement therapy, to help ease withdrawal symptoms, the US Food and Drug Administration (FDA) has not approved those medications for anyone under the age of 18.

Research on cessation medications in young people is limited: A recent meta-analysis found only four studies on people between the ages of 12 and 21. In teens, antidepressants seem to help quitting for the first few weeks but are unproven as a long-term solution.

“That really has been a challenge for the 1 in 6 high school students who are current users of tobacco products,” said pediatrician, Susan Walley, MD, a co-author of the American Academy of Pediatrics’ recent position papers on children and smoking.

“One of the things that is important to keep at the forefront of the conversation is that nicotine addiction is a chronic medical disease, and it’s a form of substance abuse,” Dr. Walley said. “We know that we need more research in adolescent tobacco cessation, and it really is about the funding, about research dollars.”

Without medications, smoking cessation in teens relies largely on counseling strategies. A 2017 review published by Cochrane Library found that group counseling was the most effective quitting method, with teens participating in group sessions 35% more likely to stop using nicotine products up to a year later, compared with teens who did not receive any counseling.

Counseling can help educate teens (and parents) on some of the realities of e-cigarettes, bridging the gap between well-established anti-smoking campaigns and the anti-vape campaigns that have yet to catch up.

“We have done a great job promoting cigarette use as dangerous,” Dr. Walley said. “[But] many teens who would never pick up a cigarette –because they know the health risks – are vaping.”
 

 

 

How to get a teen to quit

Cessation and prevention strategies are closely linked, and interventions can start in middle school-aged children up through high school and young adults. Simply asking a 12-year-old, “Do you know anyone who smokes?” can help start a conversation that leads to an attempt to quit.

Teens may be compelled to smoke through digital advertising and influencer endorsements on social media platforms, but Gen Z is turned off by the idea that it’s being manipulated by the tobacco industry. Juul, for example, is partially owned by Altria, which makes Marlboros, and Vuse is wholly owned by R.J. Reynolds, which makes Camel cigarettes.

“If you can get somebody to understand that Big Tobacco is trying to manipulate you as a young person to want to illegally obtain and use their products, which are incredibly addictive, thus ensuring you will remain a loyal customer, that could be the thing that pushes them over the hump,” Dr. Stepp said. “You push it away like you would push away a parent trying to tell you how to park a car in the driveway.”

And just because a smoker relapses, it doesn’t mean the cessation was a complete failure. The younger someone is when they stop smoking, the less likely they are to suffer from the long-term health consequences of smoking, according to a 2021 study in the Journal of the American Medical Association. “With the right counseling,” Dr. Walley said, “each relapse is an opportunity for losing the habit permanently.”


This article was adapted from the Summer 2023 online issue of CHEST Advocates. For the full article – and to engage with the other content from this issue – visit https://chestnet.org/chest-­advocates.

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Sedative use in older adults after critical illness

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Changed
Mon, 11/20/2023 - 14:49

Patients admitted to ICUs require modifications to their medication regimen due to their critical illness and rapidly changing clinical status. Modifications to medication regimens may include stopping home medications for chronic conditions, dose adjustments for altered organ function, or initiating new treatments for acute illness(es). Common examples of changes to a critically ill patient’s medication regimen are stopping a chronic antihypertensive drug in the setting of shock, holding an oral medication that cannot be crushed or administered through a feeding tube, and initiating sedatives and analgesics to support invasive mechanical ventilation. Medication regimens are especially vulnerable to errors and omissions at transition points (i.e., ICU to ward transfers and home discharge). As critical illness resolves and patients transition to different care teams, the hospital discharge medication regimen may differ from the preadmission list with the omission of prehospital medications and/or the continuation of acute medications no longer needed without thorough medication review and reconciliation.

Dr. Lisa D. Burry

While admitted to ICU, many critically ill patients – particularly those who are mechanically ventilated – receive intravenous or enteral sedatives such as benzodiazepines and antipsychotics. Sedatives are prescribed to more than two-thirds of critically ill patients for disturbing symptoms of agitation, delirium, anxiety, and insomnia and to facilitate invasive procedures (Burry LD, et al. J Crit Care. 2017;42:268). Current sedation practice guidelines endorse the use of sedatives when indicated for the shortest duration possible, given the known associated serious short- and long-term adverse drug events (Devlin JW, et al. Crit Care Med. 2018;46[9]:e825). Previous research has demonstrated that benzodiazepines initiated in-hospital are often continued on discharge for older adults and that patients from the ICU are at greater risk of benzodiazepine continuation than patients hospitalized without an ICU admission (Scales DC, et al. J Gen Intern Med. 2016;31[2]:196; Bell C, et al. J Gen Intern Med. 2007;22[7]:1024). This is particularly concerning for older adults as sedatives have been associated with serious adverse events in community-dwelling older adults, including falls and cognitive impairment (American Geriatrics Society. J Am Geriatr Soc. 2015;63[11]:2227)

Dr. David R. Williamson
Until recently, it was unknown which ICU survivors were at risk of new sedative prescriptions after hospital discharge and if all sedative drug classes were similarly continued. In a recent issue of the journal CHEST®, we addressed the clinical question “Among sedative-naive older adult ICU survivors, how common is the receipt of new and persistent sedative prescriptions, and what factors are associated with the receipt of such prescriptions?” (Burry LD, et al. Chest. 2023;163[6]:1425). We conducted a population-based cohort study using health administrative data between 2003 and 2019 in Ontario, Canada. Among sedative-naive older adults who had survived a hospitalization with ICU admission, we determined the frequency and risk factors associated with filled outpatient sedative prescriptions within 1 week of hospital discharge and persistent sedative prescriptions up to 6 months post-discharge.

The cohort of patients included all adults aged 66 years or more, who were discharged alive from the hospital and who were sedative-naive prior to hospitalization. Sedative-naive status was defined as no sedative prescription filled for any class, dose, or duration in the 180 days before hospital admission. The proportion of ICU survivors who filled a sedative prescription within 1 week of hospital discharge was the primary outcome. The secondary outcomes were the proportion of patients that filled each sedative class (e.g., antipsychotic, benzodiazepine, nonbenzodiazepine sedative) within 1 week of hospital discharge and persistent sedative prescription (additional prescriptions filled within 6 months after discharge).

The cohort included 250,428 sedative-naive older adults. The mean age was 75.8 years, 61.0% were male, 26.3% received invasive mechanical ventilation, and 14.8% had sepsis. In total, 6.1% (n=15,277) of patients filled a sedative prescription within 1 week of discharge; 57.7% (n = 8824) filled a benzodiazepine, 18.0% (n = 2749) filled a non-benzodiazepine sedative, 17.9% (n = 2745) filled an antipsychotic, and 6.2% (n = 959) filled more than 1 sedative drug class. Most patients filled prescriptions on the day of discharge (median 0 days (interquartile range (IQR) 0-3). The study found considerable variation in the primary outcome across the 153 hospitals: 2.1% (95% confidence interval [CI] 1.2% to 2.8%) to 44.0% (95% CI 3.0% to –57.8%) filled a sedative prescription within a week of hospital discharge. The factors strongly associated with an increased odds of a sedative prescription filled within a week of discharge included: discharge to long-term care (adjusted OR (aOR) 4.00, 95% CI 3.72 to 4.31), receipt of inpatient geriatric (aOR 1.95, 95% CI 1.80 to 2.10) or psychiatry consultation (aOR 2.76, 95% CI 2.62, 2.91), mechanical ventilation (aOR 1.59, 95% CI 1.53 to 1.66), and admitted ≥ 7 days to the ICU (aOR 1.50, 95% CI 1.42 to 1.58). Among hospital factors, a community hospital (vs academic) (aOR 1.40, 95% CI 1.16 to 1.70) and rural location (vs urban) (aOR 1.67, 95% CI 1.36 to 2.05) were also associated with new sedative prescriptions. Even after adjusting for patient and site characteristics, there was considerable remaining variability between sites quantified by the median odds ratio (aMOR) of 1.43. By drug class, there were similar findings with the exception of different associations for sex and frailty. For benzodiazepine prescriptions, female sex was associated with increased odds of a prescription (aOR 1.13, 95% CI 1.08 to 1.18), while frailty was inversely associated (aOR 0.82, 95% CI 0.75 to 0.89). The opposite associations were identified for antipsychotics: female sex (aOR 0.75, 95% CI 0.69 to 0.81) and frailty (aOR 1.41, 95% CI 1.28 to 1.55). No associations were identified for sex and frailty and non-benzodiazepine sedative prescriptions.

Persistent sedative prescription was common as 55% met the definition of persistence, filling a median of 2 prescriptions (IQR 1,3) in the 6 months after hospital discharge. The factors associated with persistent sedative prescriptions were similar to those identified above except female sex was associated with persistent sedative prescription (sHR 1.07, 95% CI 1.02 to 1.13). Those who filled an antipsychotic prescription (sHR 1.45, 95% CI 1.35 to 1.56), a non-benzodiazepine sedative prescription (sHR 1.44, 955 CI 1.34 to 1.53), or prescriptions for more than 1 sedative class filled (sHR 2.16, 95% CI 1.97 to 2.37) were more likely to fill persistent prescriptions compared with those who filled a prescription for a benzodiazepine alone as their first sedative.

In summary, 1 in 15 sedative-naive older adults filled a sedative prescription within a week of hospital discharge following a critical illness, and many continued to fill sedative prescriptions in the next 6 months. We were able to identify factors associated with new sedative prescriptions that could be targeted for stewardship programs or quality improvement projects that focus on medication safety and reconciliation. Medication stewardship and reconciliation processes have been broadly studied in many patient care settings but not the ICU. There is still much to determine regarding de-escalating and discontinuing sedatives as critical illness resolves and patients are liberated from intensive clinical interventions as well as the consequences of sedative exposure after hospital discharge for this population.
 

Dr. Burry is with the Departments of Pharmacy and Medicine, Sinai Health; Leslie Dan Faculty of Pharmacy and Interdepartmental Division of Critical Care, University of Toronto, Toronto, Canada. Dr. Williamson is with the Faculté de Pharmacie, Université de Montréal; Pharmacy Département, Hôpital du Sacré-Cœur de Montréal; and Research center, CIUSSS du Nord-de-l’Île-de-Montréal, Canada.

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Patients admitted to ICUs require modifications to their medication regimen due to their critical illness and rapidly changing clinical status. Modifications to medication regimens may include stopping home medications for chronic conditions, dose adjustments for altered organ function, or initiating new treatments for acute illness(es). Common examples of changes to a critically ill patient’s medication regimen are stopping a chronic antihypertensive drug in the setting of shock, holding an oral medication that cannot be crushed or administered through a feeding tube, and initiating sedatives and analgesics to support invasive mechanical ventilation. Medication regimens are especially vulnerable to errors and omissions at transition points (i.e., ICU to ward transfers and home discharge). As critical illness resolves and patients transition to different care teams, the hospital discharge medication regimen may differ from the preadmission list with the omission of prehospital medications and/or the continuation of acute medications no longer needed without thorough medication review and reconciliation.

Dr. Lisa D. Burry

While admitted to ICU, many critically ill patients – particularly those who are mechanically ventilated – receive intravenous or enteral sedatives such as benzodiazepines and antipsychotics. Sedatives are prescribed to more than two-thirds of critically ill patients for disturbing symptoms of agitation, delirium, anxiety, and insomnia and to facilitate invasive procedures (Burry LD, et al. J Crit Care. 2017;42:268). Current sedation practice guidelines endorse the use of sedatives when indicated for the shortest duration possible, given the known associated serious short- and long-term adverse drug events (Devlin JW, et al. Crit Care Med. 2018;46[9]:e825). Previous research has demonstrated that benzodiazepines initiated in-hospital are often continued on discharge for older adults and that patients from the ICU are at greater risk of benzodiazepine continuation than patients hospitalized without an ICU admission (Scales DC, et al. J Gen Intern Med. 2016;31[2]:196; Bell C, et al. J Gen Intern Med. 2007;22[7]:1024). This is particularly concerning for older adults as sedatives have been associated with serious adverse events in community-dwelling older adults, including falls and cognitive impairment (American Geriatrics Society. J Am Geriatr Soc. 2015;63[11]:2227)

Dr. David R. Williamson
Until recently, it was unknown which ICU survivors were at risk of new sedative prescriptions after hospital discharge and if all sedative drug classes were similarly continued. In a recent issue of the journal CHEST®, we addressed the clinical question “Among sedative-naive older adult ICU survivors, how common is the receipt of new and persistent sedative prescriptions, and what factors are associated with the receipt of such prescriptions?” (Burry LD, et al. Chest. 2023;163[6]:1425). We conducted a population-based cohort study using health administrative data between 2003 and 2019 in Ontario, Canada. Among sedative-naive older adults who had survived a hospitalization with ICU admission, we determined the frequency and risk factors associated with filled outpatient sedative prescriptions within 1 week of hospital discharge and persistent sedative prescriptions up to 6 months post-discharge.

The cohort of patients included all adults aged 66 years or more, who were discharged alive from the hospital and who were sedative-naive prior to hospitalization. Sedative-naive status was defined as no sedative prescription filled for any class, dose, or duration in the 180 days before hospital admission. The proportion of ICU survivors who filled a sedative prescription within 1 week of hospital discharge was the primary outcome. The secondary outcomes were the proportion of patients that filled each sedative class (e.g., antipsychotic, benzodiazepine, nonbenzodiazepine sedative) within 1 week of hospital discharge and persistent sedative prescription (additional prescriptions filled within 6 months after discharge).

The cohort included 250,428 sedative-naive older adults. The mean age was 75.8 years, 61.0% were male, 26.3% received invasive mechanical ventilation, and 14.8% had sepsis. In total, 6.1% (n=15,277) of patients filled a sedative prescription within 1 week of discharge; 57.7% (n = 8824) filled a benzodiazepine, 18.0% (n = 2749) filled a non-benzodiazepine sedative, 17.9% (n = 2745) filled an antipsychotic, and 6.2% (n = 959) filled more than 1 sedative drug class. Most patients filled prescriptions on the day of discharge (median 0 days (interquartile range (IQR) 0-3). The study found considerable variation in the primary outcome across the 153 hospitals: 2.1% (95% confidence interval [CI] 1.2% to 2.8%) to 44.0% (95% CI 3.0% to –57.8%) filled a sedative prescription within a week of hospital discharge. The factors strongly associated with an increased odds of a sedative prescription filled within a week of discharge included: discharge to long-term care (adjusted OR (aOR) 4.00, 95% CI 3.72 to 4.31), receipt of inpatient geriatric (aOR 1.95, 95% CI 1.80 to 2.10) or psychiatry consultation (aOR 2.76, 95% CI 2.62, 2.91), mechanical ventilation (aOR 1.59, 95% CI 1.53 to 1.66), and admitted ≥ 7 days to the ICU (aOR 1.50, 95% CI 1.42 to 1.58). Among hospital factors, a community hospital (vs academic) (aOR 1.40, 95% CI 1.16 to 1.70) and rural location (vs urban) (aOR 1.67, 95% CI 1.36 to 2.05) were also associated with new sedative prescriptions. Even after adjusting for patient and site characteristics, there was considerable remaining variability between sites quantified by the median odds ratio (aMOR) of 1.43. By drug class, there were similar findings with the exception of different associations for sex and frailty. For benzodiazepine prescriptions, female sex was associated with increased odds of a prescription (aOR 1.13, 95% CI 1.08 to 1.18), while frailty was inversely associated (aOR 0.82, 95% CI 0.75 to 0.89). The opposite associations were identified for antipsychotics: female sex (aOR 0.75, 95% CI 0.69 to 0.81) and frailty (aOR 1.41, 95% CI 1.28 to 1.55). No associations were identified for sex and frailty and non-benzodiazepine sedative prescriptions.

Persistent sedative prescription was common as 55% met the definition of persistence, filling a median of 2 prescriptions (IQR 1,3) in the 6 months after hospital discharge. The factors associated with persistent sedative prescriptions were similar to those identified above except female sex was associated with persistent sedative prescription (sHR 1.07, 95% CI 1.02 to 1.13). Those who filled an antipsychotic prescription (sHR 1.45, 95% CI 1.35 to 1.56), a non-benzodiazepine sedative prescription (sHR 1.44, 955 CI 1.34 to 1.53), or prescriptions for more than 1 sedative class filled (sHR 2.16, 95% CI 1.97 to 2.37) were more likely to fill persistent prescriptions compared with those who filled a prescription for a benzodiazepine alone as their first sedative.

In summary, 1 in 15 sedative-naive older adults filled a sedative prescription within a week of hospital discharge following a critical illness, and many continued to fill sedative prescriptions in the next 6 months. We were able to identify factors associated with new sedative prescriptions that could be targeted for stewardship programs or quality improvement projects that focus on medication safety and reconciliation. Medication stewardship and reconciliation processes have been broadly studied in many patient care settings but not the ICU. There is still much to determine regarding de-escalating and discontinuing sedatives as critical illness resolves and patients are liberated from intensive clinical interventions as well as the consequences of sedative exposure after hospital discharge for this population.
 

Dr. Burry is with the Departments of Pharmacy and Medicine, Sinai Health; Leslie Dan Faculty of Pharmacy and Interdepartmental Division of Critical Care, University of Toronto, Toronto, Canada. Dr. Williamson is with the Faculté de Pharmacie, Université de Montréal; Pharmacy Département, Hôpital du Sacré-Cœur de Montréal; and Research center, CIUSSS du Nord-de-l’Île-de-Montréal, Canada.

Patients admitted to ICUs require modifications to their medication regimen due to their critical illness and rapidly changing clinical status. Modifications to medication regimens may include stopping home medications for chronic conditions, dose adjustments for altered organ function, or initiating new treatments for acute illness(es). Common examples of changes to a critically ill patient’s medication regimen are stopping a chronic antihypertensive drug in the setting of shock, holding an oral medication that cannot be crushed or administered through a feeding tube, and initiating sedatives and analgesics to support invasive mechanical ventilation. Medication regimens are especially vulnerable to errors and omissions at transition points (i.e., ICU to ward transfers and home discharge). As critical illness resolves and patients transition to different care teams, the hospital discharge medication regimen may differ from the preadmission list with the omission of prehospital medications and/or the continuation of acute medications no longer needed without thorough medication review and reconciliation.

Dr. Lisa D. Burry

While admitted to ICU, many critically ill patients – particularly those who are mechanically ventilated – receive intravenous or enteral sedatives such as benzodiazepines and antipsychotics. Sedatives are prescribed to more than two-thirds of critically ill patients for disturbing symptoms of agitation, delirium, anxiety, and insomnia and to facilitate invasive procedures (Burry LD, et al. J Crit Care. 2017;42:268). Current sedation practice guidelines endorse the use of sedatives when indicated for the shortest duration possible, given the known associated serious short- and long-term adverse drug events (Devlin JW, et al. Crit Care Med. 2018;46[9]:e825). Previous research has demonstrated that benzodiazepines initiated in-hospital are often continued on discharge for older adults and that patients from the ICU are at greater risk of benzodiazepine continuation than patients hospitalized without an ICU admission (Scales DC, et al. J Gen Intern Med. 2016;31[2]:196; Bell C, et al. J Gen Intern Med. 2007;22[7]:1024). This is particularly concerning for older adults as sedatives have been associated with serious adverse events in community-dwelling older adults, including falls and cognitive impairment (American Geriatrics Society. J Am Geriatr Soc. 2015;63[11]:2227)

Dr. David R. Williamson
Until recently, it was unknown which ICU survivors were at risk of new sedative prescriptions after hospital discharge and if all sedative drug classes were similarly continued. In a recent issue of the journal CHEST®, we addressed the clinical question “Among sedative-naive older adult ICU survivors, how common is the receipt of new and persistent sedative prescriptions, and what factors are associated with the receipt of such prescriptions?” (Burry LD, et al. Chest. 2023;163[6]:1425). We conducted a population-based cohort study using health administrative data between 2003 and 2019 in Ontario, Canada. Among sedative-naive older adults who had survived a hospitalization with ICU admission, we determined the frequency and risk factors associated with filled outpatient sedative prescriptions within 1 week of hospital discharge and persistent sedative prescriptions up to 6 months post-discharge.

The cohort of patients included all adults aged 66 years or more, who were discharged alive from the hospital and who were sedative-naive prior to hospitalization. Sedative-naive status was defined as no sedative prescription filled for any class, dose, or duration in the 180 days before hospital admission. The proportion of ICU survivors who filled a sedative prescription within 1 week of hospital discharge was the primary outcome. The secondary outcomes were the proportion of patients that filled each sedative class (e.g., antipsychotic, benzodiazepine, nonbenzodiazepine sedative) within 1 week of hospital discharge and persistent sedative prescription (additional prescriptions filled within 6 months after discharge).

The cohort included 250,428 sedative-naive older adults. The mean age was 75.8 years, 61.0% were male, 26.3% received invasive mechanical ventilation, and 14.8% had sepsis. In total, 6.1% (n=15,277) of patients filled a sedative prescription within 1 week of discharge; 57.7% (n = 8824) filled a benzodiazepine, 18.0% (n = 2749) filled a non-benzodiazepine sedative, 17.9% (n = 2745) filled an antipsychotic, and 6.2% (n = 959) filled more than 1 sedative drug class. Most patients filled prescriptions on the day of discharge (median 0 days (interquartile range (IQR) 0-3). The study found considerable variation in the primary outcome across the 153 hospitals: 2.1% (95% confidence interval [CI] 1.2% to 2.8%) to 44.0% (95% CI 3.0% to –57.8%) filled a sedative prescription within a week of hospital discharge. The factors strongly associated with an increased odds of a sedative prescription filled within a week of discharge included: discharge to long-term care (adjusted OR (aOR) 4.00, 95% CI 3.72 to 4.31), receipt of inpatient geriatric (aOR 1.95, 95% CI 1.80 to 2.10) or psychiatry consultation (aOR 2.76, 95% CI 2.62, 2.91), mechanical ventilation (aOR 1.59, 95% CI 1.53 to 1.66), and admitted ≥ 7 days to the ICU (aOR 1.50, 95% CI 1.42 to 1.58). Among hospital factors, a community hospital (vs academic) (aOR 1.40, 95% CI 1.16 to 1.70) and rural location (vs urban) (aOR 1.67, 95% CI 1.36 to 2.05) were also associated with new sedative prescriptions. Even after adjusting for patient and site characteristics, there was considerable remaining variability between sites quantified by the median odds ratio (aMOR) of 1.43. By drug class, there were similar findings with the exception of different associations for sex and frailty. For benzodiazepine prescriptions, female sex was associated with increased odds of a prescription (aOR 1.13, 95% CI 1.08 to 1.18), while frailty was inversely associated (aOR 0.82, 95% CI 0.75 to 0.89). The opposite associations were identified for antipsychotics: female sex (aOR 0.75, 95% CI 0.69 to 0.81) and frailty (aOR 1.41, 95% CI 1.28 to 1.55). No associations were identified for sex and frailty and non-benzodiazepine sedative prescriptions.

Persistent sedative prescription was common as 55% met the definition of persistence, filling a median of 2 prescriptions (IQR 1,3) in the 6 months after hospital discharge. The factors associated with persistent sedative prescriptions were similar to those identified above except female sex was associated with persistent sedative prescription (sHR 1.07, 95% CI 1.02 to 1.13). Those who filled an antipsychotic prescription (sHR 1.45, 95% CI 1.35 to 1.56), a non-benzodiazepine sedative prescription (sHR 1.44, 955 CI 1.34 to 1.53), or prescriptions for more than 1 sedative class filled (sHR 2.16, 95% CI 1.97 to 2.37) were more likely to fill persistent prescriptions compared with those who filled a prescription for a benzodiazepine alone as their first sedative.

In summary, 1 in 15 sedative-naive older adults filled a sedative prescription within a week of hospital discharge following a critical illness, and many continued to fill sedative prescriptions in the next 6 months. We were able to identify factors associated with new sedative prescriptions that could be targeted for stewardship programs or quality improvement projects that focus on medication safety and reconciliation. Medication stewardship and reconciliation processes have been broadly studied in many patient care settings but not the ICU. There is still much to determine regarding de-escalating and discontinuing sedatives as critical illness resolves and patients are liberated from intensive clinical interventions as well as the consequences of sedative exposure after hospital discharge for this population.
 

Dr. Burry is with the Departments of Pharmacy and Medicine, Sinai Health; Leslie Dan Faculty of Pharmacy and Interdepartmental Division of Critical Care, University of Toronto, Toronto, Canada. Dr. Williamson is with the Faculté de Pharmacie, Université de Montréal; Pharmacy Département, Hôpital du Sacré-Cœur de Montréal; and Research center, CIUSSS du Nord-de-l’Île-de-Montréal, Canada.

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High school students using less tobacco, vape products, CDC report shows

Article Type
Changed
Fri, 11/03/2023 - 11:34

 

TOPLINE:

Use of e-cigarettes among U.S. teens was down sharply, dropping from 14.1% in 2022 to 10% in 2023, government figures show, but the majority of these youth still used flavored products, which have been shown to both entice teens and keep them vaping.

METHODOLOGY:

  • The MMRW report from the U.S. Centers for Disease Control and Prevention presents data from an annual survey of U.S. middle and high school students of their use of tobacco products, including vapes.
  • The survey is a cross-sectional, school-based, self-administered web-based questionnaire that uses a stratified, three-stage cluster sampling procedure to generate a nationally representative sample based off the responses of 22,069 students in 2023.
  • The overall response rate was 30.5%.
  • “Ever use” was defined as using a product once or twice previously, and “current use” was defined as use in the past 30 days.
  • The survey queried students on their use of e-cigarettes, traditional cigarettes, cigars, smokeless tobacco, nicotine pouches, hookahs, pipe tobacco, and other oral nicotine products.

TAKEAWAY:

  • The use of tobacco products by high school students decreased by 540,000 people from 2022 to 2023 (2.51 million vs. 1.97 million students).
  • From 2022 to 2023, current e-cigarette use among high school students declined from 14.1% to 10.0%.
  • Among middle and high school students, e-cigarettes were the most used nicotine product in 2023 (7.7%; 2.13 million), followed by cigarettes (1.6%), cigars (1.6%), nicotine pouches (1.5%), smokeless tobacco (1.2%), other oral nicotine products (1.2%), hookahs (1.1%), heated tobacco products (1.0%), and pipe tobacco (0.5%).
  • Among students reporting current e-cigarette use, 89.4% said that they used flavored products, and 25.2% said they used an e-cigarette daily. The most commonly reported brands were Elf Bar, Esco Bar, Vuse, JUUL, and Mr. Fog. Fruit (63.4%) and candy (35%) were the most commonly reported flavors.

IN PRACTICE:

“Sustained efforts to prevent initiation of tobacco product use among young persons and strategies to help young tobacco users quit are critical to reducing U.S. youth tobacco product use,” the report states.

SOURCE:

The report was produced by the CDC and published in the Morbidity and Mortality Weekly Report for Nov. 3, 2023.

LIMITATIONS:

Data were obtained by students self-reporting their tobacco use, which can result in social desirability and recall biases, the report states. In addition, the responses were from students enrolled in school settings and may not be representative of teens who are in detention centers, alternative schools, have dropped out of school or are homeschooled. The response rate for the 2023 survey was also lower than in the previous year (30.5% in 2023 vs. 45.2% in 2022), increasing the potential for higher standard errors and reducing the power to detect significant differences.

DISCLOSURES:

No potential conflicts of interest were disclosed.

A version of this article first appeared on Medscape.com.

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TOPLINE:

Use of e-cigarettes among U.S. teens was down sharply, dropping from 14.1% in 2022 to 10% in 2023, government figures show, but the majority of these youth still used flavored products, which have been shown to both entice teens and keep them vaping.

METHODOLOGY:

  • The MMRW report from the U.S. Centers for Disease Control and Prevention presents data from an annual survey of U.S. middle and high school students of their use of tobacco products, including vapes.
  • The survey is a cross-sectional, school-based, self-administered web-based questionnaire that uses a stratified, three-stage cluster sampling procedure to generate a nationally representative sample based off the responses of 22,069 students in 2023.
  • The overall response rate was 30.5%.
  • “Ever use” was defined as using a product once or twice previously, and “current use” was defined as use in the past 30 days.
  • The survey queried students on their use of e-cigarettes, traditional cigarettes, cigars, smokeless tobacco, nicotine pouches, hookahs, pipe tobacco, and other oral nicotine products.

TAKEAWAY:

  • The use of tobacco products by high school students decreased by 540,000 people from 2022 to 2023 (2.51 million vs. 1.97 million students).
  • From 2022 to 2023, current e-cigarette use among high school students declined from 14.1% to 10.0%.
  • Among middle and high school students, e-cigarettes were the most used nicotine product in 2023 (7.7%; 2.13 million), followed by cigarettes (1.6%), cigars (1.6%), nicotine pouches (1.5%), smokeless tobacco (1.2%), other oral nicotine products (1.2%), hookahs (1.1%), heated tobacco products (1.0%), and pipe tobacco (0.5%).
  • Among students reporting current e-cigarette use, 89.4% said that they used flavored products, and 25.2% said they used an e-cigarette daily. The most commonly reported brands were Elf Bar, Esco Bar, Vuse, JUUL, and Mr. Fog. Fruit (63.4%) and candy (35%) were the most commonly reported flavors.

IN PRACTICE:

“Sustained efforts to prevent initiation of tobacco product use among young persons and strategies to help young tobacco users quit are critical to reducing U.S. youth tobacco product use,” the report states.

SOURCE:

The report was produced by the CDC and published in the Morbidity and Mortality Weekly Report for Nov. 3, 2023.

LIMITATIONS:

Data were obtained by students self-reporting their tobacco use, which can result in social desirability and recall biases, the report states. In addition, the responses were from students enrolled in school settings and may not be representative of teens who are in detention centers, alternative schools, have dropped out of school or are homeschooled. The response rate for the 2023 survey was also lower than in the previous year (30.5% in 2023 vs. 45.2% in 2022), increasing the potential for higher standard errors and reducing the power to detect significant differences.

DISCLOSURES:

No potential conflicts of interest were disclosed.

A version of this article first appeared on Medscape.com.

 

TOPLINE:

Use of e-cigarettes among U.S. teens was down sharply, dropping from 14.1% in 2022 to 10% in 2023, government figures show, but the majority of these youth still used flavored products, which have been shown to both entice teens and keep them vaping.

METHODOLOGY:

  • The MMRW report from the U.S. Centers for Disease Control and Prevention presents data from an annual survey of U.S. middle and high school students of their use of tobacco products, including vapes.
  • The survey is a cross-sectional, school-based, self-administered web-based questionnaire that uses a stratified, three-stage cluster sampling procedure to generate a nationally representative sample based off the responses of 22,069 students in 2023.
  • The overall response rate was 30.5%.
  • “Ever use” was defined as using a product once or twice previously, and “current use” was defined as use in the past 30 days.
  • The survey queried students on their use of e-cigarettes, traditional cigarettes, cigars, smokeless tobacco, nicotine pouches, hookahs, pipe tobacco, and other oral nicotine products.

TAKEAWAY:

  • The use of tobacco products by high school students decreased by 540,000 people from 2022 to 2023 (2.51 million vs. 1.97 million students).
  • From 2022 to 2023, current e-cigarette use among high school students declined from 14.1% to 10.0%.
  • Among middle and high school students, e-cigarettes were the most used nicotine product in 2023 (7.7%; 2.13 million), followed by cigarettes (1.6%), cigars (1.6%), nicotine pouches (1.5%), smokeless tobacco (1.2%), other oral nicotine products (1.2%), hookahs (1.1%), heated tobacco products (1.0%), and pipe tobacco (0.5%).
  • Among students reporting current e-cigarette use, 89.4% said that they used flavored products, and 25.2% said they used an e-cigarette daily. The most commonly reported brands were Elf Bar, Esco Bar, Vuse, JUUL, and Mr. Fog. Fruit (63.4%) and candy (35%) were the most commonly reported flavors.

IN PRACTICE:

“Sustained efforts to prevent initiation of tobacco product use among young persons and strategies to help young tobacco users quit are critical to reducing U.S. youth tobacco product use,” the report states.

SOURCE:

The report was produced by the CDC and published in the Morbidity and Mortality Weekly Report for Nov. 3, 2023.

LIMITATIONS:

Data were obtained by students self-reporting their tobacco use, which can result in social desirability and recall biases, the report states. In addition, the responses were from students enrolled in school settings and may not be representative of teens who are in detention centers, alternative schools, have dropped out of school or are homeschooled. The response rate for the 2023 survey was also lower than in the previous year (30.5% in 2023 vs. 45.2% in 2022), increasing the potential for higher standard errors and reducing the power to detect significant differences.

DISCLOSURES:

No potential conflicts of interest were disclosed.

A version of this article first appeared on Medscape.com.

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