key: cord-0809366-esze327s
authors: Jung, Hee-Won; Jang, Il-Young; Back, Ji Yeon; Park, Seunghyun; Park, Chan MI; Han, Seung Jun; Lee, Eunju
title: Validity of the Clinical Frailty Scale in Korean older patients at a geriatric clinic
date: 2020-12-30
journal: Korean J Intern Med
DOI: 10.3904/kjim.2020.652
sha: 0d7dd7923b8d5daea54c463731d7d1420464f30b
doc_id: 809366
cord_uid: esze327s

BACKGROUND/AIMS: We aimed to assess the validity of the Korean translated version of the Clinical Frailty Scale (CFS) in determining the frailty status in geriatric outpatients. METHODS: The records of 123 ambulatory outpatients who had undergone CFS and comprehensive geriatric assessments (CGAs) including measurements for the Cardiovascular Health Study (CHS) frailty scale and the frailty index (CGA-FI) were analyzed. Correlations between CFS, CHS frailty scale, and CGA-FI were assessed. The ability of CFS to classify frailty status was calculated using the CHS frailty scale and CGA-FI as references. RESULTS: The mean CFS score was 3.2 in the study population, with a mean age of 77.49 years (45.5% men). Individuals with higher CFS scores were older, had a greater burden of chronic diseases, and worse daily functions and cognitive performance. CFS scores positively correlated with CGA-FI (B = 0.78, p < 0.001) and CHS frailty scale (B = 0.67, p < 0.001) scores. For CFS, C-statistics to classify frailty by CGA-FI and CHS scale were 0.905 and 0.826, respectively. The cut-off value of CFS ≥ 4 maximized Youden’s J to classify frailty by both the CHS scale and CGAFI. CONCLUSIONS: The CFS is a valid screening tool to assess the frailty status in outpatients of a geriatric clinic in Korea. As a simple and quick measure, the CFS may facilitate frailty assessments in real-world clinical practice.

Frailty, a common geriatric syndrome that is closely related to human aging, is defined as a state of decreased physiological reserve and increased vulnerability to internal or external stressors [1] . Several studies have shown the impacts of frailty on the outcomes of fall, functional decline, institutionalization, and mortality in both community and hospital settings [2, 3] , with growing research interests in assessing frailty in various clinical conditions even among specialties other than geriatrics [4] . By virtue of its outcome prediction ability, frailty is factored in the decision-making processes of several clinical conditions [5, 6] . Furthermore, recent studies have shown the dynamic characteristics of frailty [7] and suggested that frailty can be improved with appropriate intervention strategies [8] . Therefore, frailty is a crucial clinical outcome measure as well as an outcome predictor.

Identifying frailty status can be the first step to prowww.kjim.org https://doi.org/10.3904/kjim.2020.652 vide centered, tailored care for older adults through multidimensional assessment and intervention [9, 10] . However, frailty statuses have been not commonly assessed in most acute hospitals, including those in Korea.

In acute care settings, performing comprehensive geriatric assessments (CGAs) for older patients is less feasible as CGAs frequently take > 30 minutes for a single patient. To address this unmet need, several screening measures of frailty for older adults have been developed and validated [11] [12] [13] [14] . Among these instruments, the ones requiring physical performance assessments might be less applicable for acute hospital settings where patients experience sudden deconditioning due to acute illnesses. Moreover, questionnaires validated in community-dwelling populations or primary care settings might be less reliable for identifying the vulnerable populations in acute or chronic hospitals. The Clinical Frailty Scale (CFS), a simple tool with brief descriptors and pictographs, to track frailty index, was developed to facilitate a broader application of frailty in real-world clinical practices [15] . Following an initial validation of outcome prediction abilities in a community-dwelling population [15] , numerous studies have employed this scale and found clinical validity in its outcome prediction, in settings ranging from long-term care facilities to emergency departments [16] . Hence, CFS has been used in wide range of clinical settings in western countries, in clinical decision making and outcome prediction [17] [18] [19] . Furthermore, CFS has been even suggested as a measure in evaluating older people or allocating scarce health resource in coronavirus disease 2019 (COVID-19) pandemic [5, 17] . Despite its validity and wide-adaptability, to the best of our knowledge, the screening value of the CFS has been not yet reported in the Korean population. Therefore, in this study, we aimed to assess the screening ability of the CFS for frailty determined by two widely used measures of frailty, the Cardiovascular Health Study (CHS) frailty scale and the CGA-frailty index (CGA-FI), in outpatients of a geriatric clinic in a tertiary hospital in Korea.

This was a cross-sectional analysis that used records of 123 outpatients who had undergone CFS and CGA assessments between February 2019 and April 2020 in a geriatric clinic at Asan Medical Center, Seoul, Korea. We included community-dwelling patients who were ambulatory with or without walking aids and were able to communicate with the examiners and agreed to participate in the prospective registry of CGA and aging biomarker study. Further, we excluded patients with apparent life expectancies of less than 1 year due to malignancies, patients with symptomatic heart failure or end-stage renal disease, patients unable to walk without assistance, and patients with cognitive dysfunction who could not follow the instructions of the physical performance tests.

We used a 9-score version of the original CFS (version 2.0) that translated into Korean by English-proficient geriatrician and reviewed by another clinical geriatrician who had clinical experience in both Korean and United States, and an independent bilingual geriatrician educated in United States (Supplementary Table 1) . After this process, words and descriptions were further reviewed for cultural aspects of Korean older people and clinical usability, by clinical geriatricians and nurses. CFS was administered by the experienced nurses in the geriatric clinic by interviewing the patients and their family members, during regular CGA. Most probable state of general health status during recent 1 to 2 weeks was selected in the scale.

The CGA included the common geriatric domains of comorbidities, fall history, polypharmacy, nutrition risk, mobility, cognition, and physical performance. The comorbidities were identified by reviewing medical records and through patient interviews. Polypharmacy was defined as the usage of five or more different medications per day. Mobility and basic physical activities were assessed using items suggested by Rosow and Breslau [20] and Nagi [21] , respectively. The presence of fall history in the previous 12 months was assessed. Cognitive function was assessed by the Korean version of the Mini-Mental Status Examination (MMSE), and cognitive impairment was defined as an MMSE score of less than 24 [22] . The participants were interviewed on The Korean Journal of Internal Medicine Vol. 36, No. 5, September 2021 difficulties in performing activities of daily living (ADL) functions (dressing, washing, bathing, eating, moving, and using the bathroom) and instrumental ADL functions (using transportation, using phones, buying groceries, managing medications, managing finances, preparing foods, performing basic household chores, and washing clothes). Individuals with impairments in 1 or more items were regarded to have disabilities in ADL or IADL. The grip strength of the dominant side was measured by a hydraulic dynamometer (Jamar, Patterson Medical, Warrenville, IL, USA). Four-meter usual gait speed and 5-time chair stand test were assessed using an electronic SPPB toolkit (eSPPB, Dyphi Inc., Daejeon, Korea). From these parameters of CGA, we established a 50-item CGA-FI from the components of CGA (Supplementary Table 2 ) that had been established in a standardized manner and used in other studies [4, 23, 24] . The sums of the scores of each item were calculated and divided by the total number of available items (50 if no items were missed), to produce CGA-FIs ranging from 0 (best) to 1 (worst). We considered frailty indices of 0.25 and higher as frail [3] .

The frailty phenotype was evaluated by the CHS frailty scale [25] that comprised the following items: (1) exhaustion determined by a patient health questionnaire-2 screening test total score > 2 [26] ; (2) low physical activity defined as a weekly activity amount < 494.65 kcal for men and < 283.50 kcal for women using the International Physical Activity Questionnaire [27] ; (3) low grip strength by the grip strength of the lowest quintile corresponding to sex and body mass index [27] ; (4) slowness by the gait speed of the lowest quintile corresponding to sex and height [27] ; and (5) unintentional weight loss of > 4.5 kg in the previous 12 months. For the CHS frailty score, the number of positive items was calculated and individuals with CHS frailty scores of 3 and higher were considered to be frail.

Independent t test and chi-square test or Fischer's exact test were used to compare the characteristics between the patients with CFS scores < 4 (lower CFS group) and ≥ 4 (higher CFS group), by taking into account the distribution of the CFS scores in the study population. Ad-ditionally, skewness tests and histograms were used to assess the distributions of frailty measures in the study population. We adopted Consensus-based Standards for the selection of health Measurement Instruments terms of construct and criterion validity to analyze and describe the validity of CFS in assessing the frailty status [28] . Using linear regression analyses, correlations between the CFS scores and geriatric parameters or the items of the CHS frailty scale were assessed, and standardized beta [B] was calculated as the regression coefficient. The correlations between the CFS scores, CHS frailty score, and frailty index were evaluated using linear regression analysis, and B was calculated as the regression coefficient. C-statistics were calculated for CFS scores to determine frailty by the CHS frailty scale and the frailty index using receiver operating characteristic (ROC) analysis. Additionally, sensitivities and specificities for specific CFS scores to classify frailty by the CHS frailty scale and frailty index were calculated. To suggest cut-offs of CFS scores to suspect frailty, we calculated Youden's J (sensitivity + specificity-1). We considered two-sided p values < 0.05 to be statistically significant and used Stata version 16.0 (Stata Corp., College Station, TX, USA) for analyses.

The study protocol was reviewed and approved by the Institutional Review Board of Asan Medical Center (2018-0673) and complied with the ethical rules for human experimentation stated in the Declaration of Helsinki [29] . Written informed consent was acquired from the participants or their proxies.

In the study population of 123 individuals, the mean age was 77.49 years, and 56 individuals (45.5%) were men. The mean ± standard deviation CFS score was 3.2 ± 1.1 and the mean frailty index was 0.15 ± 0.09. Most of the items included in the frailty index were present for the 123 individuals, data of physical activity and MMSE were available in 119 people, and those of BMI and five times chair stand test were available in 122. The mean CHS frailty scale score in the study population was 1. 8 By skewness test, both CFS scores and frailty index were right-skewed (both p < 0.001) whereas CHS frailty scale scores were not skewed (p = 0.366). Distributions of these three frailty measures are shown in Fig. 1 .

The study population was divided into two groups (CFS score < 4 and ≥ 4), considering the mean value of CFS. As shown in Table 1 , individuals with higher CFS scores tended to be older, were more likely to be women, had a greater burden of chronic diseases, had worse daily functions and cognitive performances, and higher 

Fourteen and thirty-six individuals were frail, as determined by the CGA-FI and CHS frailty scale respectively. By linear regression, CFS scores correlated with CGA-FI (B = 0.78, p < 0.001) and CHS frailty scale scores (B = 0.67, p < 0.001). Corresponding distributions of CGA-FI and CHS frailty scale scores are shown in Fig. 2 . The associations of CFS scores with CGA-FI and CHS frailty scale scores remained significant with age and sex introduced as covariables (B = 0.72, p < 0.001; and B = 0.60, p < 0.001, respectively).

ROC analysis was used to assess the discrimination ability of CFS for classifying frailty statuses (Fig. 3) . For CFS, the C-statistics to classify frailty by CGA-FI and CHS scale were 0.905 (95% confidence interval [CI], 0.833 to 0.977) and 0.826 (95% CI, 0.854 to 0.897), respectively. The sensitivity and specificity for each value of CFS are shown in Table 2 , and the cut-off value of CFS score ≥ 4 maximized Youden's J to classify frailty by both the CHS scale and CGA-FI.

In this cross-sectional study, we found that the CFS was correlated with geriatric parameters and two measures of frailty, the CHS frailty scale reflecting the frailty phenotype and CGA-FI reflecting the deficit accumulation model, in Korean outpatients who visited a geriatric clinic. Moreover, the discrimination ability of CFS to classify the frailty status was excellent for the frailty phenotype and outstanding for the frailty index [30] . To the authors' knowledge, this study is the first to report the clinical validity of the Korean translated version of the CFS.

Despite numerous efforts to develop valid and feasi- ble screening instruments for frailty, instruments have distinct drawbacks in clinical use. Screening questionnaires are usually validated in community-based studies rather than in acute or chronic care situations for older adults with complex care needs [14] , and they might not be suitable to capture the diverse spectrum of disabilities and comorbidities. For instance, the question about loss of body weight to screen the risk of malnutrition can be only effective if the person is in the course of losing weight, and it might not be able to capture an advanced frailty status with already decreased lean mass. Although physical performance measures can be assessed objec-tively and are excellent in determining the frailty status with high prediction ability for adverse outcomes in older adults [31] , issues exist due to the dynamic range of tools and feasibilities in applying them in varying circumstances of real-world clinical practice. For example, usual gait speed and the timed up and go test are excellent to screen the vulnerable population in primary care or community setting [32] [33] [34] ; however, these examinations are less feasible in acutely ill patients with tethers (e.g., intravenous access lines, urinary catheters, and endotracheal tubes) or unstable vital signs. Additionally, these physical performance measures are less likely to provide additional information for patients with apparent limitations in mobility both in acute and chronic care settings [35] . This study was performed to probe the possibility of using CFS in a Korean tertiary hospital for detecting and managing frailty in our hospital with the CFS as an initial screening measure. As a tool validated in various environments including emergency departments, intensive care units, and chronic care facilities, the authors believe that the CFS can be used as a tool of prognostication and a screening measure to identify individuals who are susceptible to develop complications in acute care settings [5] . Furthermore, with the rising evidence supporting the clinical efficacy and the cost-effectiveness of the CGA in acutely admitted patients [36] , the CFS can be used as an initial rapid-screening test to identify populations who might be benefited from CGA and downstream domain-specific, patient-centered interventions to improve the clinical outcomes of older patients with complex care needs [10] .

The adoption of the CFS can be especially valuable as a functional assessment measure at care transition in hospitals, while there is still a paucity of literature showing real world adoption of CFS in Korea in this setting. In older patients, the interactions between underlying diseases, disabilities, and physical or cognitive performance affect not only care needs in welfare aspects but also clinical outcomes. Consequently, older patients might be stranded in acute wards with unmet and unaddressed needs for functional and social issues even after the acute medical problems resolve, increasing both lengths of stays and possibilities of unwanted geriatric or iatrogenic complications. Since the CFS focuses on the spectrums of generalized functional status among older adults on top of physical performance, this instrument might be used as a facile communication tool linking medical problems and functional care needs. With researchers currently developing an electronic pathway using CFA as an initial screening measure, clinical benefits of CFS in care coordination can be evaluated further in the future. Hospital and community-based care resources, filling the current gap between medical care and welfare in older adults, and making care transitions more efficient and effective.

Since this was a cross-sectional analysis of a small number of outpatients who visited a geriatric outpa-tient clinic of a tertiary hospital, some limitations exist. Outcome validity could not be assessed due to the study design. Additionally, the validities of the CFS in inpatients or patients in other care settings in Korea cannot be assured by the current data. A recently published that performed in parallel with the participation of authors of the present study focusing on the outcome relevance of the CFS in acutely hospitalized patients in a different hospital may supplement the limitations of the present study [37] .

In conclusion, the CFS correlated with two widely studied frailty measures, CHS frailty scale and frailty index, in ambulatory outpatients of a geriatric clinic in a Korean tertiary hospital, and was able to classify frailty status as a screening measure. As it is a simple and quick measuring tool, the CFS may alleviate the existing barriers in assessing frailty in real-world clinical practice.

No potential conflict of interest relevant to this article was reported.

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The COSMIN checklist for assessing the methodological quality of studies on measurement properties of health status mea-1250 www

surement instruments: an international Delphi study

World Medical Association Declaration of Helsinki. Ethical principles for medical research involving human subjects

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Supplementary Table 1. Composition of 50-item CGA-FI in this study

Anxiety disorder (yes, 1; no, 0) Malignant disease (yes, 1; no, 0) Arthritis (yes, 1; no, 0) Spinal disease (yes, 1/dL (yes, 1; no, 0) Hand grip strength, kg (0 for ≥ 32, 0.5 for ≥ 26 and < 32, 1 for < 26 in men; 0 for ≥ 20, 0.5 for ≥ 16 and < 20, 1 for < 16 in women) Usual gait speed, m/s (0 for ≥ 1, 0.3 for ≥ 0.8 and < 1, 0.7 for ≥ 0.6 and < 0.8, 1 for < 0.6) Chair rise test time

CGA-FI, comprehensive geriatric assessment-frailty index

This study was supported by a grant (2018IF0413) from the Asan Institute for Life Science, Asan Medical Center, Seoul, Republic of Korea.

Frailty Scale (CFS) correlated with common geriatric parameters in comprehensive geriatric assessments in outpatients of a geriatric clinic. 2. The discrimination ability of the CFS to classify the frailty status was excellent for the frailty phenotype and outstanding for the frailty index. 3. As a simple and quick measuring tool, the CFS may alleviate the existing barriers in assessing frailty in real-world clinical practice Supplementary Adapted from Rockwood et al. [5] .