key: cord-0070155-312lf0n5 authors: Fuest, K. E.; Lorenz, Marco; Grunow, Julius J.; Weiss, Björn; Mörgeli, Rudolf; Finkenzeller, Sebastian; Bogdanski, Ralph; Heim, Markus; Kapfer, Barbara; Kriescher, Silja; Lingg, Charlotte; Martin, Jan; Ulm, Bernhard; Jungwirth, Bettina; Blobner, Manfred; Schaller, Stefan J. title: The Functional Trajectory in Frail Compared With Non-frail Critically Ill Patients During the Hospital Stay date: 2021-11-04 journal: Front Med (Lausanne) DOI: 10.3389/fmed.2021.748812 sha: e51a349d3aeddf6735d950ac98b70a4073a2755e doc_id: 70155 cord_uid: 312lf0n5 Background: Long-term outcome is determined not only by the acute critical illness but increasingly by the reduced functional reserve of pre-existing frailty. The patients with frailty currently account for one-third of the critically ill, resulting in higher mortality. There is evidence of how frailty affects the intrahospital functional trajectory of critically ill patients since prehospital status is often missing. Methods: In this prospective single-center cohort study at two interdisciplinary intensive care units (ICUs) at a university hospital in Germany, the frailty was assessed using the Clinical Frailty Scale (CFS) in the adult patients with critical illness with an ICU stay >24 h. The functional status was assessed using the sum of the subdomains “Mobility” and “Transfer” of the Barthel Index (MTB) at three time points (pre-hospital, ICU discharge, and hospital discharge). Results: We included 1,172 patients with a median age of 75 years, of which 290 patients (25%) were frail. In a propensity score-matched cohort, the probability of MTB deterioration till hospital discharge did not differ in the patients with frailty (odds ratio (OR) 1.3 [95% CI 0.8–1.9], p = 0.301), confirmed in several sensitivity analyses in all the patients and survivors only. Conclusion: The patients with frailty have a reduced functional status. Their intrahospital functional trajectory, however, was not worse than those in non-frail patients, suggesting a rehabilitation potential of function in critically ill patients with frailty. The number of patients admitted to intensive care units (ICUs) increased within the past years with an ongoing upward trend and an overproportion of the patients advanced in years (1, 2) . Older patients are more likely frail, which is a multifaceted condition characterized by the loss of physiologic and cognitive reserves (3, 4) . The observational studies suggest that the patients with frailty currently account for up to one-third of the critically ill (5, 6) . Consequently, the patient outcome is determined not only by the acute critical illness but increasingly by the reduced functional reserve of preexisting frailty resulting in higher 30-day mortality (5, 7, 8) . In accordance, the likelihood to be discharged to a nursing home is greater in the patients with frailty (9) , if the critical illness is survived. This might be caused by the higher odds of disability in the activities in daily living (10, 11) and increased functional dependence (12, 13) . Despite this finding, the factors affecting the recovery of physical function after a critical illness remain poorly understood. The patient-level characteristics should be evaluated as the recovery trajectories differ between the cohorts in both the extent and speed of recovery of physical function. A functional trajectory is used to describe this complex process by measuring the changes in the functional status at different time points (14, 15) . While early mobilization might be an important element to maintain the autonomy and mobility in the prior functionally independent patients (16) (17) (18) , little is known about the functional trajectory of the patients with frailty during the hospital stay (13, 19) . Since information about the functional status and mobility of the patients before their ICU admission is typically missing (11, 20) , it is unknown if the functional decline is caused by frailty itself, the critical illness, or the combination of both. This might have been important implications for the resource allocations in the acute care setting if the mortality is high and the functional decline cannot be prevented (21, 22) . This study aimed to describe the influence of pre-existing frailty on the functional trajectory of patients with a critical illness during their hospital stay. We hypothesized that the patients with frailty have a greater deterioration of function compared with the patients with non-frailty. This study is a prospective observational monocentric cohort study of two interdisciplinary ICUs of the Department of Anesthesiology and Intensive Care at Klinikum rechts der Isar, School of Medicine, Technical University of Munich, Germany between April 2017 and May 2019. The Data were extracted from our prospective database of the patients with critical illness who had consented to participate. This prospective analysis was registered at the Clinical Trials and approved by the Ethics Committee of the Faculty of Medicine, Technical University of Munich (528/18 from 22nd Dec 2016). The adults with >24 h stay in the ICU were included, if the consent was obtained either by the patient or legal representative according to the legislation. There were no additional exclusion criteria. There is no consented outcome measure for the functional status of the patients with critical illness (23). As a substitute, the functional status was therefore recorded with the corresponding subdomains of the Barthel Index, which is an ordinal scale incorporating 10 subdomains of the activities in daily life and the most widely used activities of daily living scale (24, 25) . The points of the subdomains "mobility" and "transfer" of the Barthel Index, each ranging between 0 and 15 ("Mobility-Transfer-Barthel", MTB) were added and represent the functional capacity and gait independence of the patients with a minimum of 0 points (functionally fully dependent) and a maximum of 30 points (functionally independent) (26) . The primary outcome was the probability not to deteriorate in functional status during the hospital stay, i.e., change of the Barthel Score over time, using a baseline value representing the functional status 2 weeks before the hospital admission and at hospital discharge. The prehospital value was obtained retrospectively through the interviews with the patients or their relatives. At ICU and hospital discharge, the functional status was obtained by the study staff. This resulted in a total of three time points to evaluate the individual course of recovery to establish a functional trajectory. The secondary outcome variables were the functional status using the change of MTB till ICU and hospital discharge, the MTB at ICU and hospital discharge, ICU mortality, hospital mortality, ICU length of stay (LOS), and hospital LOS as well as discharge disposition to home. The factor of interest was frailty using the Clinical Frailty Scale (CFS) (5, (27) (28) (29) . The CFS 9 ranges from 1 "very fit" to 9 "terminally ill" assuming frailty in case of category 5-9 with excellent inter-rater reliability if used in the patients with critical illness (5, 10, 30) . The additional factors were age, sex, the Charlson-Comorbidity Index (CCI) (31) , and the baseline descriptors at ICU admission, i.e., Sepsis-related Organ Failure Assessment (SOFA) score and Acute Physiology And Chronic Health Evaluation II (APACHE) (32, 33) , if the patient was considered neurocritical care (yes/no), and if an elective postoperative admission (yes/no). Data analysis was performed with R version 4.0.5 (Austria). The continuous variables were presented as median [interquartile range (IQR)]. The categorical variables were presented using absolute numbers and frequencies. Propensity matching was performed to balance the influencing factors. A logistic regression modeling was used to calculate the propensity of being frail or non-frail with the factors, such as the patients' age, sex, body mass index (BMI), admission category and department, CCI, as well as SOFA score, APACHE, and Glasgow Coma Scale (GCS) at ICU admission. The propensity score matching was performed using an R package "Matching" (34) . We used a 1:N matching approach with a starting caliper of 0.0001 and repetitive matchings with an increasing caliper (35) . After each matching routine, the selected patients with non-frailty were excluded from the further matchings. The procedure was stopped when the necessary sample size was reached to prove the significance (p < 0.05) with a power of 80%. The sample size was calculated using the univariate OR of 0.524 between all the patients with frailty and non-frailty for the deterioration of the Mobility-Transfer-Barthel till hospital discharge. Assuming a ratio of approximately 1:2 between the patients with frailty and non-frailty, we calculated a necessary total number of 654. With a caliper of 0.0001, 28 patients were selected; with a caliper of 0.001, we obtained a total of 173 patients; with a caliper of 0.01, 483 patients were obtained; and with a caliper of 0.1, we exceeded the necessary threshold obtaining 687 patients. The stepwise resulting subcohorts were not comparable regardless of the caliper chosen when a standardization mean difference (SMD) <0.1 between the groups is required for all the cofactors. The effect sizes of all the endpoints, therefore, were adjusted for these cofactors using multivariate conditional regression. We performed several sensitivity analyses: first, the primary analysis was repeated in the survivors only in the propensity matched cohort. Second, a logistic regression model for the primary endpoint was used with all the patients. As an exploratory analysis, MTB over time using a multivariate mixed model with the clinically relevant covariates was applied. The independent variables were the same factors as in the propensity score matching, the points in time obtaining the MTB, and the interactions terms of the factor frailty and these points in time. The covariates used were tested for collinearity calculating the variance inflation factor. Missing collinearity was assumed with a variance inflation factor <5; otherwise, one of the factors had to be omitted in the adjusted analysis. Between April 1, 2017, and May 31, 2019, we included 1,172 patients (Figure 1) . The median age was 68 [56-77] years, of which 290 patients (25%) were assessed as frail (CFS levels [5] [6] [7] [8] [9] . Further patient characteristics are presented in Deterioration in MTB occurred in 79% of patients with nonfrailty vs. 83% of patients with frailty, an unaltered probability of deterioration in the patients with frailty (OR 1.3 [0.8-1.9], p < 0.301; Table 3 ) in the propensity matched cohort (as shown in The probability of MTB deterioration till ICU discharge was significantly reduced in the patients with frailty (OR 0. Table 3 ). The patients with non-frailty were discharged home more often (28 vs. 14%, p ≤ 0.001, Table 3 and Supplementary Table 9 in the Appendix). Our exploratory analysis using MTB over time confirmed the primary analysis, i.e., the patients with frailty had a lower functional status, however, the decrease of the MTB over time till ICU and hospital discharge was significantly less pronounced in the propensity score cohort (Supplementary Table 10 in the Appendix) and in all the patients (Supplementary Table 11 in the Appendix) and survivors (Supplementary Table 12 in the Appendix). This prospective observational study refutes the assumption that pre-existing frailty deteriorates the functional status to a greater extent, i.e., the functional trajectory of critical care patients with frailty was not worse compared with the patients with nonfrailty when adjusted for age, comorbidity, and the triggering reason for intensive care. Actually, the pre-existing differences in the functional status of patients with frailty and non-frailty converged at hospital discharge, indicating that intensive care is justified in patients with pre-existing frailty as well. Approximately 25% of the patients were frail when admitted to our ICU for at least 24 h. They had more comorbidities as defined by the CCI, had more insufficient organ systems as indicated by a higher SOFA score, and the overall severity of FIGURE 2 | The intrahospital trajectory of the functional status in the patients with frailty vs. non-frailty at three timepoints ("Hospital Admission," "ICU Discharge," and "Hospital Discharge"). The functional status is measured as Barthel-Mobility-Index consisting of the two subdomains "Mobility" and "Transfer" of the Barthel-Index, ranging from 0 to 30 ("Mobility-Transfer-Barthel", MTB). Three patient groups are presented: all patients (n = 1,172), survivors only (n = 361) and after selection the propensity-matched cohort (n = 687). The red boxplots mark the patients with non-frailty and blue the patients with frailty. their diseases was more profound as scored by the APACHE II. Accordingly, the mortality was higher in this patient subcohort. These data are in accordance with the German sub analysis of the VIP1 Trial, which included only patients >80 years of age (5) . Accounting for more than 50% of patients with frailty indicated a strong relationship between age and reduction of the physiological reserve. Notwithstanding, LOS in the ICU was longer in our cohort when compared with the subcohort of the German VIP Trial (9 vs. 3 days) most likely due to our inclusion criteria of >24 h ICU stay as well as a higher portion of neurocritical care patients. The patients with frailty expectedly had a reduced functional status during the complete trajectory, i.e., significantly lower MTB. This is in accordance with the other observational studies, which additionally demonstrated increased peri-and postoperative complication rates, morbidity, and mortality (10, 12, 27, 36) . Furthermore, Bagshaw et al. suggested that the preexisting frailty impaired the long-term outcome of ICU survivors, as one-third of their 421 patients reported a reduced health related quality of life with reduced mobility in the physical component score at 6 and 12 months after critical illness (20) . In another study in more than 1,000 patients, frailty was again associated with an increased disability after critical illness (11) . In both studies, the parameters of functionality were obtained before the onset of critical illness. Brummel et al. investigated the functional status at 3-and 12-month after critical illness, which did not evaluate the influence of intensive care on the clinical outcome. Similarly, in the study from Bagshaw et al., the outcome was assessed at 6 and 12 months. Furthermore, the authors mentioned a limitation that they were not able to integrate the baseline functional measures, such as mobility. Therefore, the conclusion that the functional status deteriorated during intensive care is not justified due to frailty based on those data. More recently, Ferrante et al. also reported that the patients with frailty ≥70 years old had higher mortality when becoming critically ill (8) . Those patients with frailty had an increased disability when compared with the patients with non-frailty. However, the trajectory showed no difference between the patients with frailty and non-frailty. This is similar to our observation in the patients with frailty, whose functional status was also decreased but their trajectory was at least not worse compared with the patients with non-frailty. This also accounts for the long-term outcome study of the same group (37) . The observation of partly improved or unaffected functional status in the patients with frailty who survived their critical illness demands critical consideration. It can be speculated that in older patients, depression, and social isolation often lead to reduced daily activities and accumulation of disability (37) . In intensive care, those patients are exposed to stimuli by the caregivers and to early mobilization therapy resulting in the improvement of their functional status (19) . The strength of this study is its prospective approach and the high number of patients included, limited by in-hospital data only. Although this was a single-center study, our cohort showed a heterogeneous group of adult patients regarding diagnosis or prognosis of the disease suggesting generalizability. Assessing the prehospital functional status makes this study unique compared with others and offers new perspectives in understanding the trajectory of critically ill patients with frailty. However, the prehospital frailty status was assessed retrospectively which is a limitation. Although we implemented detailed and recurrent training of our study staff, the assessment depends on the ability to either correctly recall the prehospital status by the patients or to adequately know the status by proxy (memory and information bias). This important problem is not satisfactorily answered yet. The upcoming results of the ASTON study (NCT03785444) will likely improve our insight on assessing the prehospital functional status in patients with critical illness. Until then we must accept this as a limitation. Since the majority of our patients are surgical or trauma, the results should be validated in the medical ICU patients as well. Addressing the functional outcome is a current focus after surviving the critical illness. Due to the scaling and granularity of the chosen MTB, subtle nuances of the functional outcome might be missed. Since there is no defined core outcome set for the functional outcomes in critical illness yet, we considered the subdomains of the Barthel-Index a suitable option, as it is easy to assess, reproducible for the caregivers, and relevant for the patients (24, 25) . Performing propensity score matching reduced the cohort of the primary analysis considerably. The factors leading to nonselection in propensity scoring were admission from a nursing home, an advanced age, a low GCS, a high APACHE II score, and a high level of comorbidities represented by CCI in the patients with frailty. In the patients with non-frailty, younger age and a low CCI (showing a healthy overall status) lead to non-selection. Nevertheless, this approach strengthens the conclusion that the effect is due to frailty itself and reduces the likelihood of bias. The assumed risk of limited generalizability is countervailed by the confirmation of all the results in the sensitivity and exploratory analysis performed in the complete cohort. In conclusion, the patients with frailty have a reduced functional status. Their intrahospital functional trajectory, however, is no worse than those in the patients with non-frailty. Even more, our data suggests a significant rehabilitation potential of functional mobility in the patients with frailty if they survive. Data can be obtained from the corresponding author on reasonable scientific request and as long as German data protection law can be complied with. Requests to access the datasets should be directed to Stefan Schaller, stefan.schaller@charite.de. The studies involving human participants were reviewed and approved by Ethics Committee of the Faculty of Medicine, Technical University of Munich. The patients/participants provided their written informed consent to participate in this study. SJS is the principal investigator and developed the protocol and BU is the study statistician. SJS and MB were involved in the ethical approval. KEF, JJG, BW, RM, BU, BJ, MB, and SJS were involved in the analysis and interpretation of the data. KEF, SF, ML, RB, MH, BK, SK, CL, JM, and SJS were involved in the data acquisition and quality assurance. All authors critically revised the manuscript and approved its final version. Change in end-of-life care for Medicare beneficiaries: site of death, place of care, and health care transitions in Association of increasing use of mechanical ventilation among nursing home residents with advanced dementia and intensive care unit beds Frailty in older adults: evidence for a phenotype Frailty in elderly people The impact of frailty on ICU and 30-day mortality and the level of care in very elderly patients (>/= 80 years) The impact of frailty on noninvasive mechanical ventilation in elderly medical intensive care unit patients Prevalence and impact of frailty on mortality in elderly ICU patients: a prospective, multicenter, observational study The Association of frailty with post-ICU disability, nursing home admission, and mortality: a longitudinal study The association of frailty with outcomes and resource use after emergency general surgery: a population-based cohort study Association between frailty and short-and long-term outcomes among critically ill patients: a multicentre prospective cohort study Frailty and subsequent disability and mortality among patients with critical illness Recovery after critical illness in patients aged 80 years or older: a multicenter prospective observational cohort study The case for mobility assessment in hospitalized older adults: American Geriatrics Society white paper executive summary Functional trajectories associated with hospitalization in older adults Recovery of activities of daily living in older adults after hospitalization for acute medical illness Early physical and occupational therapy in mechanically ventilated, critically ill patients: a randomised controlled trial S2e guideline: positioning and early mobilisation in prophylaxis or therapy of pulmonary disorders: revision 2015: S2e guideline of the German Society of Anaesthesiology and Intensive Care Medicine (DGAI) goal-directed mobilisation in the surgical intensive care unit: a randomised controlled trial Recent evidence on early mobilization in critical-Ill patients Long-term association between frailty and health-related quality of life among survivors of critical illness: a prospective multicenter cohort study Fair allocation of scarce medical resources in the time of covid-19 Core outcome measures for clinical research in acute respiratory failure survivors. International Modified Delphi Consensus Study Functional evaluation: the barthel index The Barthel Index in geriatrics. A context analysis for the Hamburg Classification Manual Determinants of gait independence after mechanical ventilation in the intensive care unit: a Japanese multicenter retrospective exploratory cohort study The impact of frailty on intensive care unit outcomes: a systematic review and meta-analysis Withholding or withdrawing of life-sustaining therapy in older adults (>/= 80 years) admitted to the intensive care unit Clinical Frailty Scale (CFS) reliably stratifies octogenarians in German ICUs: a multicentre prospective cohort study The contribution of frailty, cognition, activity of daily life and comorbidities on outcome in acutely admitted patients over 80 years in European ICUs: the VIP2 study New ICD-10 version of the Charlson comorbidity index predicted in-hospital mortality APACHE II: a severity of disease classification system The SOFA (Sepsis-related Organ Failure Assessment) score to describe organ dysfunction/failure. On behalf of the Working Group on Sepsis-Related Problems of the European Society of Intensive Care Medicine A matching method for improving covariate balance in cost-effectiveness analyses Performing a 1:N case-control match on propensity score The role of frailty in outcomes from critical illness Functional trajectories among older persons before and after critical illness We would like to thank the nurses, physiotherapists, and physicians working at the ICUs of the Department of Anesthesiology and Intensive Care, Klinikum rechts der Isar, School of Medicine, Technical University of Munich, Germany for their support in conducting the study. Furthermore, we appreciate the support of Prof. Dr. G. Schneider, Head of the Department. The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fmed. 2021.748812/full#supplementary-material