ADVERTISEMENT
Health Outcomes From Assisted Living Facilities: A Cohort Study of a Primary Care Practice
Abstract
The population of older adults residing in assisted living facilities (ALFs) in the United States is growing, yet health data about this population is relatively sparse. We aimed to compare health outcomes of ALF residents with those of age- and sex-matched community-dwelling adults in a retrospective cohort study of 808 older adults. Linear regression analyses were conducted to describe the relationship between ALF residency and outcomes of hospitalizations within 1 year of the index date (earliest recorded date in the ALF), 30-day rehospitalization following index hospitalization, emergency department (ED) visits, and mortality at 1 year. Hospitalizations were significantly greater for ALF residents than for controls. The odds of death for ALF residents were approximately twice that of controls. Falls and ED visits were also significantly greater for ALF residents. The ALF population requires targeted geriatric and primary care models if the health care system is to effectively meet the needs of this growing population.
Introduction
Assisted living facilities (ALFs) provide care for older adults no longer able to live in their own homes and to bridge the gap between community and nursing home–level care. In Minnesota, “assisted living” refers to services or service packages available within a housing structure, as defined by statute. These services include having an on-call registered nurse available for staff, a protocol for daily checks of residents, a client request/staff response system, and health services from a Minnesota-licensed home-care agency.1,2 Generally, the time for transition to an ALF is prompted by a consequential event in a person’s life, hence establishing a vulnerable ALF population.3 ALFs are heterogeneous places on many levels, especially in terms of resident and facility staffing characteristics.4 This heterogeneity poses a challenge for providers and for health service research in this area.
According to national survey data, ALFs are home to many of the “oldest old,” with the average age of residents being 86.9 years compared with 78.8 years for residents of nursing homes.5,6 Although some residents may live in ALFs until they die, many others will require transfer to skilled care facilities, usually because of cognitive or functional needs.7 Data are lacking about use of acute health care services by ALF residents because, similar to nursing homes, ALFs are not regulated. Even less is known about rates of advance care planning (ACP) in this group. More data for ALFs is urgently needed if providers are to efficiently meet the needs of this growing, high-risk population.
Previous research using survey data showed that approximately one in four ALF residents had been hospitalized in the previous year. The risk was even greater across all age groups for falls and certain chronic medical conditions.8 In Canada, ALF residents with dementia had hospitalization rates almost 4 times that of nursing home residents with dementia as well as statistically significant higher rates of emergency department (ED) use.9,10 These unplanned events are unfavorable for patients, can be expensive, and may be preventable.11
The primary aim of this study was to characterize the association between ALF residency and hospitalization over a year and to compare the results with those of an age- and sex-matched community cohort by using outcomes data retrieved from electronic health records (EHRs). Second, we aimed to describe the association between ALF residents and ED visits. Third, we aimed to identify mortality outcomes and to compare rates of ACP documentation.
Methods
Participants and Study Design
This was a retrospective cohort study of ALF residents empaneled in Employee and Community Health (ECH) at Mayo Clinic, Rochester, Minnesota. ECH encompasses primary care providers in family medicine and primary care internal medicine and provides longitudinal primary care to patients in the greater Rochester area, including those in ALFs. All adults aged 60 years and older living in eight ALFs served by ECH between January 1, 2012, and June 30, 2015, were eligible for inclusion. ALF addresses and room numbers were identified by nurse practitioners from the care transitions program who were familiar with the ALFs and then confirmed by review of the EHR.12 The earliest EHR record of residence in an ALF was taken as the index date for each person. Patients were excluded if they declined research authorization, if they did not have a confirmed ALF address, if a control could not be identified, or if they were not empaneled at ECH.
A referent cohort was generated from patients empaneled in ECH and living independently in the community. These patients were identified from their first primary care visit after January 1, 2012, and before June 30, 2015. The referent cohort was matched to the ALF cohort for age (±2 years), sex, and time of entry into the study (±2 months of index visit). To match the time of entry, we used the first clinic visit closest to the ALF index date as the index date for patients in the referent cohort. The study protocol was approved by the Mayo Clinic Institutional Review Board, and only patients with valid research authorization were included.
Outcome Measures
Our primary outcome was hospitalizations within the first year of the index date; secondary outcomes were observation stays, 30-day rehospitalizations, ED visits, and mortality within the first year. Hospitalizations and 30-day rehospitalizations were determined using International Classification of Diseases (ICD)-9 and ICD-10 hospital billing codes from the EHRs. Data for observation visits were also collected using ICD-9 and ICD-10 codes. Any observation stay that led to a hospitalization was included as a single hospitalization to avoid double counting. ED visits were determined in a similar fashion using ICD codes for ED visits. Mortality outcomes were determined from the EHR for 1 year beyond the index date. The EHR at Mayo Clinic is updated for mortality outcome from the hospital and from family notification as well as from news outlets and hospice.
Predictors
Demographic predictors of age, sex, ethnicity, and race were obtained from the EHR. Marital status at index date was obtained by our health science research department’s review of records and used as a proxy measure of live-in caregiver status for the purposes of our analysis. Control patients were age- and sex-matched to case patients. Comorbid illness burden at index date was assessed using the Charlson Comorbidity Index (CCI).13 Data were obtained with ICD-9 and ICD-10 codes about the following comorbid conditions for 2 years before the person’s index date: dementia, diabetes mellitus, congestive heart failure, chronic obstructive pulmonary disease, chronic kidney disease, cirrhosis, sepsis, pneumonia, myocardial infarction/coronary heart disease, stroke, Parkinson disease, anemia, cancer (nonskin), and depression. The presence of an advance directive (AD) and a provider order for life-sustaining treatment (POLST) in the EHR were noted and dated.
Statistical Analysis
Demographic and clinical variables between ALF residents and community-dwelling older adults were compared using Pearson χ2 tests designed for categorical variables and Kruskal-Wallis tests for continuous variables. Patients were followed for 1 year from the index date. Single and multiple linear regression analyses were performed to examine the potential influence of comorbidity variables that were unequally balanced between groups (namely Parkinson disease, pneumonia, dementia, anemia, nonskin cancer, and depression). Adjustment was made for comorbid health conditions and marital status. For marital status, we dichotomized to still married or not (ie, divorced, widowed, single) for the purposes of our analysis. The odds ratio (OR) and 95% CI were computed using R software, version 3.4.0 (The R Foundation).14P values <.05 were considered significant.
Results
Cohort Characteristics
We initially reviewed the records of 587 patients. This number was reduced to 404 because of exclusions for patients not empaneled in ECH or not having an appointment within the specified period (n=93), identifying later that they were not in an ALF during the specified time (n=68), outside our age or date range (n=5), and not having an available control (n=17).
Of the 808 people (404 ALF residents and 404 community-dwelling controls) included in this study, the mean (standard deviation [SD]) age was 86 (6.4) years, and 30.9% were women. Community dwellers were more likely to be married than ALF residents (46.3% vs 29.7%, P<.001). The mean (SD) CCI did not differ between the 2 groups (5.94 [1.99] vs 5.70 [2.00]; P=.09). Among individual medical conditions considered, anemia (44.3%), myocardial infarction/chronic heart disease (39.9%), dementia (33.9%), and depression (32.9%) were most prevalent in the ALF population. When compared with community-dwelling older adults, several comorbid conditions were significantly more common in ALF residents: dementia, depression, pneumonia, nonskin cancer, and Parkinson disease. Demographic and clinical characteristics of our cohort are shown in Table 1.
Article continues after Table 1.
Outcomes
Hospitalizations. Among the ALF cohort, 195 of 404 (48.3%) had at least one hospitalization in the year following the ALF index date entry, compared with 127 (31.4%) community dwellers; 52 ALF residents had two or more hospitalizations. ALF residents were twice as likely as controls to be hospitalized one or more times in the year (OR, 2.03 [95% CI, 1.5-2.7]). Table 2 shows unadjusted and adjusted analyses (for CCI and marital status). We constructed a separate regression model to determine whether outcomes were influenced by certain comorbid conditions. Patients who had a history of pneumonia were 1.8 times more likely to be admitted regardless of where they lived (P=.003). Other comorbid conditions were not associated with an increased rate of hospitalization (P≥.10). No significant difference in median length of stay overall was noted between the two groups (P=.08). Numbers for readmission were small and not significantly different (Table 2).
Mortality. Over the 1-year period, 20.3% (82/404) of the ALF cohort died compared with 9.4% of the community cohort (38/404). The odds of mortality in the first year for ALF residents vs community dwellers was 2.5 (95% CI, 1.6-3.8). Including comorbid conditions in the model adjusted the OR to 1.7 (95% CI, 1.3-2.2). People with a history of anemia, dementia, and nonskin cancers were 2.8 times, 2.2 times, and 1.9 times more likely, respectively, to have died at 1 year regardless of place of residence (P<.001). Other comorbid conditions were not associated with an increased risk of death in the ALF group (P>.10).
ED visits and falls. ED visits were significantly higher for ALF residents (OR, 2.25 [95% CI, 1.7-3.0]). Similarly, the number of falls was significantly higher for ALF residents (OR, 2.42 [95% CI, 1.6-3.7]). This significance remained for both ED visits and falls after correction for comorbid conditions
(Table 2). People with dementia were 2.1 times more likely to fall regardless of place of residence (P=.001). Other comorbid conditions were not associated with an increased risk of falls (P >.10).
Advance care planning. ALF residents were more likely to have an AD (n=281, 69.6%) or POLST (n=246, 60.9%) on file than controls (AD: n=164, 40.6%; POLST: n=107, 26.5%) (P<.01).
Discussion
In this retrospective cohort study, we found that people living in ALFs had two-fold higher rates of hospitalization and death within the first year than age- and sex-matched community dwellers, even when adjusting for comorbid health and marital status. Almost half (48.3%) of those in our ALF cohort were hospitalized within 1 year.
Gimm and Kisantas previously examined data from a national survey of residential care facilities and found that almost a quarter of residents were hospitalized in a year and that risk was greater for those with higher levels of debility, fall-related injuries, and chronic medical conditions but not for those with Alzheimer disease dementia.8 Their study was based on survey data collected from facility administrators and facility records and not, as our study, on data directly from EHRs, which might explain our higher rate of hospitalization. Zimmerman et al found a hospitalization rate of 12.7% over a 100-day quarter per 100 residents in ALF facilities across four states. However, medical outcome data in that study was collected by surveying staff caregivers at the facilities.15 Hedrick et al identified a hospitalization rate of 40% in a predominantly male Veterans Affairs cohort in an assisted living pilot program.16 In a Canadian cohort, the cumulative incidence of hospital admission over 1 year was 38.9%, which was determined using data from the Alberta Inpatient Discharge Database.17 These variations reflect the diversity in ALFs and the different methods of collecting outcome data.
We previously showed high rates of multiple comorbid conditions and ED use, especially for ALF residents, and the current study results expand on this data.18 Our findings that 48.3% of the ALF cohort was hospitalized in the first year and 33.9% had dementia agrees with or is greater than findings from the above-mentioned studies. Importantly, our outcomes data were obtained from the EHR, which is a more objective means of data collection. Furthermore, we included a community-living control cohort for comparison.
Our secondary outcomes showed that ALF residents were at higher risk for ED use, falls, and mortality. We found that 20% of our ALF cohort died within the year, a rate similar to that of other cohorts.16,19 But in our study, the rate was two-fold higher than that of matched community dwellers. Although ACP data was more likely to be recorded for ALF residents, which is in keeping with the few earlier, small studies, notably over 30% of ALF residents did not have any AD.20,21 There were more than 500 ED visits in our ALF cohort during the time period. Our rates of 30-day rehospitalization and observation visits were low overall and not significantly different than community-dwelling patients, which may in part be due to our established care transitions program.12 Many ALF residents are in poor health, and many will have nursing-home-level care needs, thus prompting frequent ED visits that may not necessarily alter their treatment.22-24
Although we did not identify a difference from the CCI in our cohort, certain medical conditions had significantly higher rates in our ALF population. Of ALF residents, one in three had a dementia diagnosis compared with less than one in 10 community dwellers. However, dementia did not increase the risk of hospitalization. An earlier study showed greater hospitalization rates for ALF residents with dementia who had greater medical needs than nursing home residents.19 Because we relied on the EHR for documentation of a dementia diagnosis, even more people in our community and ALF cohorts likely had undiagnosed cognitive impairment. Pneumonia increased the likelihood of hospitalization, and dementia increased the risk of falls and death in our cohort. These findings have important implications for health care service planning in our area.
Because of the diversity in ALFs, providing medical care poses a challenge.25,26 Traditional models of care, such as outpatient office visits, may not be suited for ALF residents. We know from a Canadian study that potentially modifiable patient factors (health instability, recurrent admissions, and polypharmacy) and facility factors (facility size, nurse staffing) play an important part in influencing hospitalizations.17 Although altering facility factors may be difficult, patient factors may be more easily addressed. For example, geriatric care models that incorporate disease-specific care may be more optimal.
One disease state that lends itself to a specific care model is dementia; the behavioral symptoms and physical debility that ensue from dementia frequently require acute care visits. Innovative dementia care models have shown promise in terms of quality indicators for dementia care and caregiver outcomes.27-30 At the center of these care models is a dementia care manager (geriatric nurse practitioner, nurse, or social worker) who coordinates care and supports caregivers, working alongside primary care providers and with community resources. Such models could be applied to ALFs with a high prevalence of patients with dementia. At our institution, the palliative care homebound program targets frail older adults with functional impairment and serious illness with goals to manage symptoms, maximize quality of life, and facilitate advance care planning in the home. This program has been effective in reducing hospitalizations, length of hospital stay, and costs.31,32 Adapting programs such as this to specifically target the high-risk and frail population living in ALFs is likely to produce similar positive outcomes.
This study has limitations, including its retrospective design. Because we relied on data already collected, we did not have a measure for activities of daily living or falls or a standardized cognitive assessment. Our cohort was identified manually; therefore, we were not able to capture data for all ALF residents in the Rochester area. We do, however, believe our sample is representative, and importantly, the study includes a comparison group still living in the community. Most of the study population was white, which is typical of the population in our area.33 Also, we did not have a measure of socioeconomic status or caregiver status. Instead, we used marital status as a proxy measure for caregiver status.
Despite these limitations, our study adds to a sparse literature about the ALF population. We believe it offers important insight and identifies a need to prioritize the ALF population in plans for practice change in primary care and geriatric medicine.
Conclusion
Our study showed that ALF residents have many complex medical conditions and are significantly higher users of acute medical care, with higher odds of death at 1 year than age-matched, community-dwelling older adults. This study highlights the need to provide targeted geriatric care for this growing population to have a positive impact on outcomes and to better plan for the years ahead.
Affiliations, Disclosures, & Correspondence
Authors:
Mairead M Bartley, MD, MB, BCh1, Stephanie M Quigg2, Anupam Chandra, MD2, Paul Y Takahashi, MD
Affiliations:
1 Division of General Internal Medicine, Mayo Clinic, Rochester, MN
2 Division of Primary Care Internal Medicine, Mayo Clinic, Rochester, MN
Disclosures:
Dr Takahashi serves on the medical board for Axiall LLC.
Acknowledgements:
This publication was supported by Grant Number UL1 TR000135 from the National Center for Advancing Translational Sciences (NCATS). Its contents are solely the responsibility of the authors and do not necessarily represent the official views of the National Institutes of Health. The abstract was presented as a poster presentation at the 2018 annual conference of The Society for PostAcute and Long-Term Care Medicine, March 22-25, 2018, Grapevine, TX.
Address correspondence to:
Paul Y Takahashi, MD Division of Primary Care Internal Medicine Mayo Clinic
200 First Street SW Rochester, MN 55905
Phone: (507) 284-5184
Email: takahashi.paul@mayo.edu
References
1. Minnesota Legislature. Assisted living requirements, 144G.03. 2018. https://www.revisor.mn.gov/statutes/cite/144G.03. Accessed May 20, 2019.
2. Polzer K. Assisted living state regulatory review 2013. National Center for Assisted Living. https://www.ahcancal.org/ncal/advocacy/regs/Documents/2013_reg_review.pdf. ublished 2013. Accessed May 20, 2019.
3. Rockwood JKh, Richard M, Garden K, Hominick K, Mitnitski A, Rockwood K. Precipitating and predisposing events and symptoms for admission to assisted living or nursing home care.
Can Geriatr J. 2013;17(1):16-21.
4. Han K, Trinkoff AM, Storr CL, Lerner N, Yang BK. Variation across US assisted living facilities: admissions, resident care needs, and staffing. J Nurs Scholarsh. 2017;49(1):24-32.
5. American Association of Homes and Services for the Aging, American Seniors Housing Association, Assisted Living Federation of America, National Center for Assisted Living, National Investment Center for the Seniors Housing & Care Industry. 2009 overview of assisted living. https://www.ahcancal.org/ncal/facts/Documents/09%202009%20Overview%20of%20Assisted%20Living%20FINAL.pdf. Published 2009. Accessed May 20, 2019.
6. Centers for Medicare & Medicaid Services. Nursing home data compendium 2015 edition. https://www.cms.gov/Medicare/Provider-Enrollment-and-Certification/CertificationandComplianc/Downloads/nursinghomedatacompendium_508-2015.pdf. Accessed May 20, 2019.
7. Phillips CD, Munoz Y, Sherman M, Rose M, Spector W, Hawes C. Effects of facility characteristics on departures from assisted living: results from a national study. Gerontologist. 2003;43(5):690-696.
8. Gimm GW, Kitsantas P. Falls, depression, and other hospitalization risk factors for adults in residential care facilities. Int J Aging Hum Dev. 2016;83(1):44-62.
9. Maxwell CJ, Amuah JE, Hogan DB, et al. Elevated hospitalization risk of assisted living residents with dementia in Alberta, Canada. J Am Med Dir Assoc. 2015;16(7):568-577.
10. McGregor MJ, McGrail KM, Abu-Laban RB, et al. Emergency department visit rates and patterns in Canada’s Vancouver coastal health region. Can J Aging. 2014;33(2):154-162.
11. Becker M, Boaz T, Andel R, DeMuth A. Predictors of avoidable hospitalizations among assisted living residents. J Am Med Dir Assoc. 2012;13(4):355-359.
12. Takahashi PY, Naessens JM, Peterson SM, et al. Short-term and long-term effectiveness of a post-hospital care transitions program in an older, medically complex population. Healthc (Amst). 2016;4(1):30-35. doi:10.1016/j.hjdsi.2015.06.006
13. Charlson ME, Pompei P, Ales KL, MacKenzie CR. A new method of classifying prognostic comorbidity in longitudinal studies: development and validation. J Chronic Dis. 1987;40(5):373-383.
14. The R Foundation. The R Project for Statistical Computing. https://www.r-project.org/.
Accessed May 20, 2019.
15. Zimmerman S, Sloane PD, Eckert JK, et al. How good is assisted living? Findings and implications from an outcomes study. J Gerontol B Psychol Sci Soc Sci. 2005;60(4):S195-204.
16. Hedrick SC, Guihan M, Chapko MK, et al. Assisted living pilot program: health outcomes.
J Aging Health. 2009;21(1):190-207.
17. Hogan DB, Amuah JE, Strain LA, et al. High rates of hospital admission among older residents in assisted living facilities: opportunities for intervention and impact on acute care. Open Med. 2014;8(1):e33-45.
18. Costello M, Bartley MM, Joven MH, Takahashi PY, Tung EE. Emergency medical service utilization: A comparison of nursing home and assisted living facility residents. Ann Longterm Care. 2017;25(5):27-31. doi:10.25270/altc.2017.10.00002
19. Sloane PD, Zimmerman S, Gruber-Baldini AL, Hebel JR, Magaziner J, Konrad TR. Health and functional outcomes and health care utilization of persons with dementia in residential care and assisted living facilities: comparison with nursing homes. Gerontologist. 2005;45(suppl 1):124-132.
20. Hirschman KB, Abbott KM, Hanlon AL, Prvu Bettger J, Naylor MD. What factors are associated with having an advance directive among older adults who are new to long term care services? J Am Med Dir Assoc. 2012;13(1):82 e7-e11.
21. Daaleman TP, Williams CS, Preisser JS, Sloane PD, Biola H, Zimmerman S. Advance care planning in nursing homes and assisted living communities. J Am Med Dir Assoc. 2009;10(4):243-251.
22. Kistler CE, Zimmerman S, Ward KT, Reed D, Golin C, Lewis CL. Health of older adults in assisted living and implications for preventive care. Gerontologist. 2017;57(5):949-954.
23. Zimmerman S, Gruber-Baldini AL, Sloane PD, et al. Assisted living and nursing homes: apples and oranges? Gerontologist. 2003;43(suppl 2):107-117.
24. Sharpp TJ, Young HM. Experiences of frequent visits to the emergency department by residents with dementia in assisted living. Geriatr Nurs. 2016;37(1):30-35.
25. Caffrey C, Harris-Kojetin L, Rome V, Sengupta M. Characteristics of residents living in residential care communities, by community bed size: United States, 2012. NCHS Data Brief. 2014(171):1-8.
26. Sloane PD, Zimmerman S, Perez R, et al. Physician perspectives on medical care delivery in assisted living. J Am Geriatr Soc. 2011;59(12):2326-2331.
27. Tan ZS, Jennings L, Reuben D. Coordinated care management for dementia in a large academic health system. Health Aff (Millwood). 2014;33(4):619-625.
28. Jennings LA, Tan Z, Wenger NS, et al. Quality of care provided by a comprehensive dementia care comanagement program. J Am Geriatr Soc. 2016;64(8):1724-1730.
29. Callahan CM, Boustani MA, Weiner M, et al. Implementing dementia care models in primary care settings: The Aging Brain Care Medical Home. Aging Ment Health. 2011;15(1):5-12.
30. Vickrey BG, Mittman BS, Connor KI, et al. The effect of a disease management intervention on quality and outcomes of dementia care: a randomized, controlled trial. Ann Intern Med. 2006;145(10):713-726.
31. Chen CY, Naessens JM, Takahashi PY, et al. Improving value of care for older adults with advanced medical illness and functional decline: cost analyses of a home-based palliative care program. J Pain Symptom Manage. 2018;56(6):928-935.
32. Chen CY, Thorsteinsdottir B, Cha SS, et al. Health care outcomes and advance care planning in older adults who receive home-based palliative care: a pilot cohort study. J Palliat Med. 2015;18(1):38-44.
33. St Sauver JL, Grossardt BR, Leibson CL, Yawn BP, Melton LJ 3rd, Rocca WA. Generalizability of epidemiological findings and public health decisions: an illustration from the Rochester Epidemiology Project. Mayo Clin Proc. 2012;87(2):151-160.