Topic: Implementation of a Fall Prevention Bundle in Inpatient Rehabilitation Setting to Reduce Fall Incidence and Improve Patient Safety  For this assignment, you will submit your SYNTHESIZED COMPREHENSIVE LITERATURE REVIEW using the a

Rubric

NOTE: All submitted assignments are required to follow APA guidelines. “Current research” is considered within 5-years. Your Turnitin Score typically should be under 24%. 

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·       Write an 8-page paper EXCLUDING title page and references:

Topic: Implementation of a Fall Prevention Bundle in Inpatient Rehabilitation Setting to Reduce Fall Incidence and Improve Patient Safety 

For this assignment, you will submit your SYNTHESIZED COMPREHENSIVE LITERATURE REVIEW using the articles from the evaluation table below.

The reader should be able to distinguish how your scholarly project fits within the research and how it is significant.

 

Important components to include in the assignment are:

• You will use articles from the evaluation tables previously submitted. See evaluation tables below. Please select at least 10-15 articles from the evaluation tables provided below for this literature review.
• Theoretical framework: Describe any theoretical or conceptual frameworks that serve as a guide for your project, summarize the frameworks, and explain how they relate to and provide support for your problem or population of interest.
• Synthesis and analysis of evidence (research) related to the problem or population of interest: Address the overall strengths, weaknesses, limitations, and gaps of the research. It is very important that this section provide a comprehensive review of the literature and contain a minimum of 8 pages and 10-15 articles from the evaluation tables provided below.

·        For this assignment, you will submit your comprehensive literature review using the articles from the

·        evaluation table below.

·        Your literature review should present the strengths, weaknesses, and gaps in your current knowledge.

·        The reader should be able to distinguish how your scholarly project ts within the research and

·        how it is signicant. The literature review should provide a theoretical basis for your work, show what

·        has been done by others, and set the stage for your work. You should be able to identify the GAP in the

·        literature, which your project is going to be striving to !ll.

·        Important components to include in the assignment are:

·        · Theoretical framework:$Describe any theoretical or conceptual frameworks that serve as a guide

·        for your project, summarize the frameworks, and explain how they relate to and provide support for

·        your problem or population of interest.

·        · Synthesis and analysis of evidence (research) related to the problem or population of

·        interest:$Address the overall strengths, weaknesses, limitations, and gaps of the research. It is

·        very important that this section provide a comprehensive review of the literature and contain a

·        minimum of ten pages      with 10 articles

 

For this assignment, you will submit your comprehensive literature review using the articles from the

evaluation table below.

Your literature review should present the strengths, weaknesses, and gaps in your current knowledge.

The reader should be able to distinguish how your scholarly project ts within the research and

how it is signicant. The literature review should provide a theoretical basis for your work, show what

has been done by others, and set the stage for your work. You should be able to identify the GAP in the

literature, which your project is going to be striving to !ll.

Important components to include in the assignment are:

· Theoretical framework:$Describe any theoretical or conceptual frameworks that serve as a guide

for your project, summarize the frameworks, and explain how they relate to and provide support for

your problem or population of interest.

· Synthesis and analysis of evidence (research) related to the problem or population of

interest:$Address the overall strengths, weaknesses, limitations, and gaps of the research. It is

very important that this section provide a comprehensive review of the literature and contain a

minimum of ten pages      with 10 articles

For this assignment, you will submit your comprehensive literature review using the articles from the

evaluation table below.

Your literature review should present the strengths, weaknesses, and gaps in your current knowledge.

The reader should be able to distinguish how your scholarly project ts within the research and

how it is signicant. The literature review should provide a theoretical basis for your work, show what

has been done by others, and set the stage for your work. You should be able to identify the GAP in the

literature, which your project is going to be striving to !ll.

Important components to include in the assignment are:

· Theoretical framework:$Describe any theoretical or conceptual frameworks that serve as a guide

for your project, summarize the frameworks, and explain how they relate to and provide support for

your problem or population of interest.

· Synthesis and analysis of evidence (research) related to the problem or population of

interest:$Address the overall strengths, weaknesses, limitations, and gaps of the research. It is

very important that this section provide a comprehensive review of the literature and contain a

minimum of ten pages      with 10 articles. 

Rubric Criteria:

·       Thoroughly appraised appropriate evidence sources and provided a descriptive and detailed analysis of the research reviewed

·       Anchored the clinical problem or topic in a theoretical or conceptual model that is clearly described. Clearly and thoroughly described the components of the model and the relationship of the model to the problem or topic

·       Presented a literature review that is well organized and demonstrates logical sequencing based on the topic or clinical problem.

·       Reached detailed conclusions based on the literature reviewed and included the strengths and gaps of the current research.

·       Clearly demonstrated how the project fits within the existing evidence.

·       Used correct spelling, grammar, and professional vocabulary. Cited all sources using APA format.

 

 

 

 

 

 

 

 

 

 

 

Evaluation Table 1

First Author (Year)	Conceptual Framework	Design/Method	Sample& setting	Major Variables Studied (and Definitions)	Measurement	Data Analysis	Findings	Appraisal: Worth to Practice
Dykes et al. (2020)	Fall Tailoring Interventions for Patient Safety (Fall TIPS)	Nonrandomized controlled trial using stepped-wedge design and interrupted time-series analysis	37,231 patients; 14 medical units in 3 academic hospitals (Boston, New York City)	Fall TIPS toolkit; a patient and family engagement tool.   Fall rate: the number of falls per 1,000 patient days.   Injurious fall rate: number of falls causing injury per 1,000 patient-days.	Audits of patient/family engagement   Rate of injurious falls.   Rate of falls	Poisson regression; generalized estimating equations	15% reduction in overall falls; 34% reduction in injurious falls	Provides strong evidence for the implementation of the intervention to improve patient safety.
Guo et al. (2022)	Patient Engagement	Longitudinal quasi-experimental study	116 patients (58 intervention, 58 control) in a teaching hospital in China	Patient-centered fall prevention strategy.   Number of falls: frequency of falls during hospitalization.   Knowledge-Attitude-Practice (KAP) scores measuring patient understanding, attitudes, and behaviors;   Modified Fall Efficacy Scale (MFES)scores indicate patient confidence in avoiding falls.	Nurse-recorded fall data; standardized KAP and Modified Fall Efficacy Scale instruments	Descriptive statistics and inferential tests (t-tests, chi-square, rank-sum tests)	Falls reduced from 3 in the control group to 0 in the intervention group; significant improvements in KAP and efficacy scores	Effective intervention with clear outcome improvements.
Heng et al. (2022)	Falls Prevention Education	Mixed-methods study	37 patients (27 intervention, 10 control) and 7 health professional interviews in a private acute hospital in Australia	Falls prevention education intervention.   Patient knowledge about falls: self-reported understanding.   Behavior change: adoption of fall prevention measures.   Level of patient engagement; interaction during sessions	Pre- and post-test surveys; semi-structured qualitative interviews	Descriptive statistics; thematic analysis	Improved patient knowledge and engagement.	Practical insights for enhancing education-based falls prevention.
Montero-Odasso et al. (2021)	Clinical Practice Guidelines	Systematic review	15 clinical practice guidelines from various settings for adults aged 60 and older	Adoption of clinical practice guidelines for fall prevention.   Patient fall rate: Frequency of falls among older adults.   Patient injury rate: Incidence of injuries resulting from falls.   Risk stratification: Identification of high-risk individuals using assessment tools.	AGREE-II tool.   GRADE scores.	Descriptive statistics; inter-guideline agreement evaluation	High overall guideline quality with strong agreement on key recommendations. Inconsistencies in recommendations for cognitive factors, and fall prevention education	Provides a reference for developing evidence-based interventions.
Scheidenhelm et al. (2020)	Donabedian Quality Model	Retrospective review	Adult inpatients from a 149-bed community hospital across multiple units	Fall incidence:  number of falls per patient day. Occurrence of fall-related injuries. Patient fall risk score, rounding time: time between patient checks. Restroom time.  Use of medications affecting the central nervous/cardiovascular systems.	Standardized fall reports and detailed chart reviews	Descriptive statistics; univariate and multivariate regression, including logistic regression	Reduction in falls from 0.0033 to 0.0024 falls per patient day. Lower injury rates, reduced injury risk.   The risk for older adults remained high.	Supports the use of a bundle in reducing falls and injuries.

 

 

 

 

References

Dykes, P. C., Burns, Z., Adelman, J., Benneyan, J., Bogaisky, M., Carter, E., Ergai, A., Lindros, M. E., Lipsitz, S. R., Scanlan, M., Shaykevich, S., & Bates, D. W. (2020). Evaluation of a patient-centered fall-prevention tool kit to reduce falls and injuries. JAMA Network Open, 3(11), 1–10. https://doi.org/10.1001/jamanetworkopen.2020.25889

Guo, X., Wang, Y., Wang, L., Yang, X., Yang, W., Lu, Z., & He, M. (2022). Effect of a fall prevention strategy for the older patients: A quasi‐experimental study. Nursing Open, 10(2). https://doi.org/10.1002/nop2.1379

Heng, H., Kiegaldie, D., Shaw, L., Jazayeri, D., Hill, A.-M., & Morris, M. E. (2022). Implementing patient falls education in hospitals: a mixed-methods trial. Healthcare, 10(7), 1298. https://doi.org/10.3390/healthcare10071298

Montero-Odasso, M. M., Kamkar, N., Pieruccini-Faria, F., Osman, A., Sarquis-Adamson, Y., Close, J., Hogan, D. B., Hunter, S. W., Kenny, R. A., Lipsitz, L. A., Lord, S. R., Madden, K. M., Petrovic, M., Ryg, J., Speechley, M., Sultana, M., Tan, M. P., van der Velde, N., Verghese, J., & Masud, T. (2021). Evaluation of clinical practice guidelines on fall prevention and management for older adults: a systematic review. JAMA Network Open, 4(12), e2138911–e2138911. https://doi.org/10.1001/jamanetworkopen.2021.38911

Scheidenhelm, S., Astroth, K. S., DeLong, K., Starkey, C., & Wolfe, D. (2020). Retrospective analysis of factors associated with a revised fall prevention bundle in hospitalized patients. JONA: The Journal of Nursing Administration, 50(11), 571–577. https://doi.org/10.1097/nna.0000000000000939

 

 

 

 

 

Evaluation Table 2

First Author (Year)	Conceptual Framework	Design/Method	Sample & Setting	Major Variables Studied (and Definitions)	Measurement	Data Analysis	Findings	Appraisal: Worth to Practice
Bargmann & Brundrett (2020)	Iowa Model	Evidence-based practice	26-bed medical-surgical telemetry unit in a 352-bed Level 1 military trauma center	Fall rate: the number of falls per 1,000 patient days.   Patient education:  Structured education on fall risk and prevention.   Staff compliance: adherence to fall prevention interventions.	Audit of adherence to fall prevention interventions, patient surveys, fall rate tracking	Comparison of pre-and post-implementation fall rates, staff compliance rates, and patient understanding of fall risk	55% decrease in fall rate.   89% staff compliance with interventions.   Longest consecutive fall-free days since 2015: 87 and 88 days.	Proves that the implementation of a fall prevention bundle reduces fall incidence and improves patient safety.
Davenport et al. (2020)	Modifiable fall-risk factors	Secondary analysis	400 older adult patients in an academic urban emergency department	Fall-risk factors: modifiable conditions contributing to falls.   Provider identification: the rate of missed opportunities to diagnose risk factors.   Intervention strategies: actions taken to mitigate fall risk.	Chart review of patient records, comparison with standardized fall assessment	Quantification of missed opportunities, statistical comparison of identified vs. unidentified risk factors	96% of modifiable fall-risk factors were missed by providers.   Specifically, visual acuity and high-risk medications are the most overlooked factors.	Highlights that significant gaps in fall-risk identification exist and thus emphasizes the need for improved screening protocols.
Goldberg et al. (2020)	Geriatric Acute and Post-acute Fall Prevention	Randomized controlled trial	110 noninstitutionalized older adults over 65 years old in two urban academic emergency departments	Fall-related emergency department visits: the number of visits within six months.   Hospitalizations: all-cause and fall-related.   Adherence to pharmacy and physical therapy recommendations	Patient surveys, electronic health record review, adherence tracking	Negative binomial regression models, adjusted incidence rate ratios, sensitivity analyses	55% reduction in fall-related emergency department visits. 57% reduction in all hospitalizations.   Moderate adherence to recommendations: pharmacy at 73% and physical therapy at 68%.	Provides evidence that a structured, multidisciplinary approach improves patient safety and reduces costly fall-related events.
Kelley et al. (2023)	Fall safety agreement	Quality improvement project	Three surgical units in an urban hospital	Fall rate: the number of falls reported.   Staff adherence: compliance with fall prevention interventions.   Patient education: structured education and agreement signing.	Weekly data collection on staff adherence, patient education completion, and fall rates	Comparison of pre-and post-implementation adherence rates, patient education rates, and fall incidence	80.8% staff adherence.   92% patient education completion.   67.1% implementation of the Fall T.I.P.S. tool and no falls were reported during the project.	Provides evidence that a fall prevention bundle is effective in reducing fall incidence and improving patient safety.
Pop et al. (2020)	Multifactorial fall prevention	Quality improvement project	Emergency department (ED) in a 676-bed urban academic medical center	Fall risk screening: Identification of at-risk patients.   Multifactorial interventions: fall prevention measures.   Staff engagement: involvement in implementation.	Audit of adherence to fall prevention interventions, patient education completion, fall rate tracking	Comparison of pre-and post-implementation fall rates, staff compliance rates, and patient education effectiveness	96% of ED arrivals screened for fall risk.   86% of at-risk patients received fall precautions.   The quarterly fall rate reduced to 0.27 falls per 1,000 visits.	Provides evidence that a tailored fall prevention bundle that incorporates multifactorial interventions and staff engagement improves fall risk identification and prevention.

References

Bargmann, A. L., & Brundrett, S. M. (2020). Implementation of a Multicomponent Fall Prevention Program: Contracting With Patients for Fall Safety. Military Medicine, 185(2), 28–34. https://doi.org/10.1093/milmed/usz411

Davenport, K., Alazemi, M., Sri-On, J., & Liu, S. (2020). Missed Opportunities to Diagnose and Intervene in Modifiable Risk Factors for Older Emergency Department Patients Presenting After a Fall. Annals of Emergency Medicine, 0(0). https://doi.org/10.1016/j.annemergmed.2020.06.020

Goldberg, E. M., Marks, S. J., Resnik, L. J., Long, S., Mellott, H., & Merchant, R. C. (2020). Can an emergency department–initiated intervention prevent subsequent falls and health care use in older adults? A randomized controlled trial. Annals of Emergency Medicine, 76(6). https://doi.org/10.1016/j.annemergmed.2020.07.025

Kelley, R. J., Gutchell, V., & O’Neill, K. (2023). Preventing Falls in the Surgical Setting by Implementing a Fall Prevention Bundle. Journal of PeriAnesthesia Nursing, 38(4), e27. https://doi.org/10.1016/j.jopan.2023.06.025

Pop, H., Lamb, K., Livesay, S., Altman, P., Sanchez, A., & Nora, M. E. (2020). Tailoring a Comprehensive Bundled Intervention for ED Fall Prevention. Journal of Emergency Nursing, 46(2), 225-232.e3. https://doi.org/10.1016/j.jen.2019.11.010

 

 

 

 

 

Evaluation Table 3

First Author (Year)	Conceptual framework	Design/Method	Sample & setting	Major Variables (and Definitions)	Measurement	Data Analysis	Findings	Appraisal: Worth to Practice
Burns et al. (2022)	Fall risk screening	Prospective longitudinal cohort study	1,905 community-dwelling older adults in the U.S.	Fall incidence: occurrence of falls within 12 months. Screening tool effectiveness: sensitivity and specificity of fall-risk tools.	Monthly fall-tracking surveys; baseline and final assessments	Sensitivity, specificity, likelihood ratios, logistic regression	Sensitivity ranged between 22.5 and 68.7%; specificity ranged between 57.9 and 89.4% with variation by age and sex.	Highlights that no screening tool is a one-size-fits-all. Thus, risk screening should be tailored to patient characteristics.
Ganz & Latham (2020)	Multifactorial fall prevention.	Clinical practice review.	Community-dwelling older adults who are over 65 years old.	Fall incidence: rate of falls per year.   Injury severity: fractures, dislocations, concussions. Fear of falling: psychological impact post-fall.	Patient surveys; ED visit records; cost analysis	Statistical comparison of fall rates, intervention effectiveness, cost-benefit	Falls occur in 29% annually.   10% have multiple falls.   Exercise programs and multifactorial interventions reduce risk.	Suggests that an effective fall prevention bundle should combine exercise with a comprehensive risk assessment.
Montero-Odasso et al. (2022)	Multifactorial fall prevention.	Expert consensus guidelines.	Global recommendations for older adults in healthcare.	Fall risk assessment: identification of high-risk individuals. Intervention strategies: tailored multidomain approaches. Patient engagement: involvement in planning.	A systematic review of guidelines; expert voting; and stakeholder feedback.	Delphi process; comparison of existing vs. new evidence	Multidomain interventions reduce incidence; patient-centered approaches enhance adherence	Emphasizes that fall prevention bundles should contain tailored components and patient engagement.
Morris et al. (2022)	Fall prevention interventions.	Systematic review and meta-analysis.	Hospitalized adults across 43 studies.	Falls rate ratios (RaR): falls per 1,000 bed days. Falls risk: odds of being a faller; intervention vs control.	Falls rate tracking; odds ratio calculations; review criteria.	Meta-analysis of 23 studies; statistical comparison of intervention effectiveness	Education of patients and staff reduced falls (RaR = 0.70; OR = 0.62).   Bed/chair alarms and sensors showed no significant impact.	Highlights that technology alone provides limited benefits. Instead, education is the most effective component of a rehab fall bundle.
Spoon et al. (2024)	ERIC implementation strategies.	Systematic review.	48 hospital-based fall prevention studies.	Implementation strategies: methods promoting interventions. Adherence rates: compliance with interventions. Fall rate reduction: change in falls per 1,000 patient days.	Adherence audits; fall rate tracking; strategy classification.	Pre- vs post-implementation comparisons of fall rates, adherence, and strategy effectiveness.	Median fall-rate decline of 0.9 per 1,000 patient days. Median adherence is 65%; most studies employed educational strategies.	Reiterates that need to apply strategies, such as education, for consistent fall reduction in rehab settings.

 

 

 

 

References

Burns, E. R., Lee, R., Hodge, S. E., Pineau, V. J., Welch, B., & Zhu, M. (2022). Validation and comparison of fall screening tools for predicting future falls among older adults. Archives of Gerontology and Geriatrics, 101, 104713. https://doi.org/10.1016/j.archger.2022.104713

Ganz, D. A., & Latham, N. K. (2020). Prevention of falls in community-dwelling older adults. New England Journal of Medicine, 382(8), 734–743. https://doi.org/10.1056/nejmcp1903252

Montero-Odasso, M., van der Velde, N., Martin, F. C., Petrovic, M., Tan, M. P., Ryg, J., Aguilar-Navarro, S., Alexander, N. B., Becker, C., Blain, H., Bourke, R., Cameron, I. D., Camicioli, R., Clemson, L., Close, J., Delbaere, K., Duan, L., Duque, G., Dyer, S. M., & Freiberger, E. (2022). World guidelines for falls prevention and management for older adults: A global initiative. Age and Ageing, 51(9), 1–36. https://doi.org/10.1093/ageing/afac205

Morris, M., Webster, K., Jones, C., Hill, A.-M., Haines, T., McPhail, S., Kiegaldie, D., Slade, S., Jazayeri, D., Heng, H., Shorr, R., Carey, L., Barker, A., & Cameron, I. (2022). Interventions to reduce falls in hospitals: A systematic review and meta-analysis. Age and Ageing, 51(5), 1–12. https://doi.org/10.1093/ageing/afac077

Spoon, D., de Legé, T., Oudshoorn, C., van Dijk, M., & Ista, E. (2024). Implementation strategies of fall prevention interventions in hospitals: a systematic review. BMJ Open Quality, 13(4), e003006. https://doi.org/10.1136/bmjoq-2024-003006

 

 

 

 

 

 

Evaluation Table 4

First Author (Year)	Conceptual Framework	Design/Method	Sample & Setting	Major Variables Studied (and Their Definitions)	Measurement	Data Analysis	Findings	Appraisal
Dykes et al. (2023)	Evidence-based fall prevention.	Economic evaluation.	10,176 patients with falls and 29,161 matched controls in 8 U.S. hospitals.	Fall incidence: number of falls pre/post-intervention. Cost of falls: financial burden per event. Cost savings: net avoided costs per 1,000 patient days.	Interrupted time series; matched case-control cost analysis.	Pre/post-fall-rate comparison; economic impact assessment.	19% reduction in falls; 20% reduction in injurious falls; $14,600 net savings per 1,000 patient days.	Demonstrates substantial cost benefits of fall prevention bundles.
Heng et al. (2020)	Patient education model.	Scoping review.	43 studies on hospital fall prevention interventions.	Falls incidence: rate per 1,000 bed-days.   Patient education: structured risk/prevention teaching. Educational design quality: effectiveness and delivery mode.	Systematic review of education programs; thematic intervention analysis.	Comparison of design principles; assessment of engagement and knowledge retention.	Education reduces falls and injuries; program quality and delivery mode influence outcomes; well-designed education improves risk perception.	Highlights that high-quality, structured patient education is critical for effective fall prevention in rehab.
Li & Surineni (2024)	Comprehensive fall prevention.	Narrative review.	Hospitalized patients in inpatient settings.	Fall incidence: annual number of falls. Injury severity: fractures, TBIs. Prevention strategies: alarms, sitters, video, sensors.	A literature synthesis of intervention studies.	Comparative analysis of traditional vs. emerging strategies.	Nearly 1 million falls annually; 250,000 injuries; emerging tech shows promise alongside traditional measures.	Emphasizes the need for multifaceted bundles combining education, tailored interventions, and technology in rehab fall prevention.
Randell et al. (2024)	Multifactorial risk assessment.	Realist review & multisite case study.	Three NHS Trusts; orthopaedic and older person wards.	Leadership: resource authority. Shared responsibility: nursing supervision. Facilitation: risk assessment documentation. Patient participation: communication of risk.	Observations; 50 staff and 31 patient/carer interviews; 60 record reviews.	Theory testing/refinement via stakeholder data; realist synthesis.	Unclear leadership roles; documentation burden; limited multidisciplinary approaches; need better patient communication strategies.	Identifies organizational and communication barriers, guiding structured leadership and engagement in rehab fall prevention bundles.
Turner et al. (2022)	Fall prevention strategies	Cross-sectional descriptive study	60 general adult hospital units in the U.S.	Practices: visibility, bed modifications, monitoring, education. Implementation strategies: quality management, planning, education, restructuring.	Survey of practice adherence and strategy use.	Comparison of practice consistency across units.	Wide variation in practices; resource-intensive strategies underused; limited interdisciplinary approaches.	Reveals the need for tailored, resource-appropriate strategies and interdisciplinary collaboration in inpatient rehab settings.

 

References

Dykes, P. C., Bowen, M. C., Lipsitz, S., Franz, C., Adelman, J., Adkison, L., Bogaisky, M., Carroll, D., Carter, E., Herlihy, L., Lindros, M. E., Ryan, V., Scanlan, M., Walsh, M.-A., Wien, M., & Bates, D. W. (2023). Cost of inpatient falls and cost-benefit analysis of implementation of an evidence-based fall prevention program. JAMA Health Forum, 4(1), e225125. https://doi.org/10.1001/jamahealthforum.2022.5125

Heng, H., Jazayeri, D., Shaw, L., Kiegaldie, D., Hill, A.-M., & Morris, M. E. (2020). Hospital falls prevention with patient education: A scoping review. BMC Geriatrics, 20(1), 1–12. https://doi.org/10.1186/s12877-020-01515-w

Li, S., & Surineni, K. (2024). Falls in hospitalized patients and preventive strategies: A narrative review. The American Journal of Geriatric Psychiatry: Open Science, Education, and Practice, 5, 1–9. https://doi.org/10.1016/j.osep.2024.10.004

Randell, R., McVey, L., Wright, J., Zaman, H., Cheong, V.-L., Woodcock, D. M., Healey, F., Dowding, D., Gardner, P., Hardiker, N. R., Lynch, A., Todd, C., Davey, C., & Alvarado, N. (2024). Practices of falls risk assessment and prevention in acute hospital settings: a realist investigation. Health and Social Care Delivery Research, 12(5), 1–194. https://doi.org/10.3310/JWQC5771

Turner, K., Staggs, V. S., Potter, C., Cramer, E., Shorr, R. I., & Mion, L. C. (2022). Fall prevention practices and implementation strategies. Journal of Patient Safety, 18(1), e236–e242. https://doi.org/10.1097/pts.0000000000000758