key: cord-0875959-q5k94t5i
authors: Elkan, Matan; Dvir, Ayana; Zaidenstein, Ronit; Keller, Maly; Kagansky, Dana; Hochman, Chen; Koren, Ronit
title: Patient-Reported Outcome Measures After Hospitalization During the COVID-19 Pandemic: A Survey Among COVID-19 and Non-COVID-19 Patients
date: 2021-08-26
journal: Int J Gen Med
DOI: 10.2147/ijgm.s323316
sha: c53e63a58152452d24325767c308df73be4f41b4
doc_id: 875959
cord_uid: q5k94t5i

BACKGROUND: Many people recovering from COVID-19 suffer from long-term sequelae. The objective of this study was to assess health-related quality of life (HRQoL) in COVID-19 patients several months after discharge. METHODS: We conducted a retrospective cross-sectional case–control study on COVID-19 and non-COVID-19 pneumonia patients admitted to Shamir Medical Center, Israel (03–07/2020). In the months following discharge, patients were invited to participate in a survey and fill the RAND-36 questionnaire. Patients’ characteristics and comorbidities were extracted from electronic charts. RESULTS: Among 66 COVID-19 participants, the median age was 58.5 (IQR 49.8–68.3), 56.1% were female, and 36.4% were obese. The median length of stay was 7 days (IQR 4–10). Patient-reported outcome measures were reported at a median follow-up of 9-months (IQR 6–9). Pain, general health, vitality, and health change had the lowest scores (67.5, 60, 57.5, and 25, respectively). Matching to patients hospitalized with pneumonia due to other pathogens was performed on 42 of the COVID-19 patients. Non-COVID-19 patients were more frequently current or past smokers (50% vs 11.9%, p < 0.01) and suffered more often from chronic lung disease (38.1% vs 9.5%, p = 0.01). The score for health change was significantly lower in the COVID-19 group (25 vs 50, p < 0.01). CONCLUSION: Post COVID-19 patients continue to suffer from an assortment of symptoms and perceive a deterioration in their health many months after hospitalization. This emphasizes the importance of prolonged medical follow-up in this population, and the need for additional research to better understand this novel disease’s long-term effects.

Over the last year, the global and scientific community has been striving to better understand the different aspects of COVID-19, a novel infectious disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). 1 During this time, much knowledge has been acquired, and many aspects of this disease have been described, including long-term effects and complications. 2, 3 Many patients continue to suffer post-COVID symptoms, weeks and even months after discharge from hospitalization. Both physical and mental health-related symptoms have been described including breathlessness, fatigue, muscle weakness, anxiety, and depression. [4] [5] [6] [7] [8] In a recent large systematic review of 33 studies, 63.2% of the patients exhibited one or more post-COVID symptoms 30 days after onset of hospitalization and 45.9% after 90 days or more. For patients following hospitalization fatigue, dyspnea, and cough were the most common symptoms at 90-day follow-up occurring in 38.5%, 33.3%, and 10.4% of patients, respectively. 9 Some studies also suggest that symptoms may persist long after recovery and up to 6 months among some patients. 10, 11 For example, Huang et al (2021) have reported that in a mean follow-up of 186 days 76% of the patients still suffered from at least one symptom, most commonly fatigue or muscle weakness, with a higher risk for patients with severe disease. 5 As data accumulates regarding the long-term burden from COVID-19, it is important to better understand patient's perception of their health and quality of life, typically known as patient-reported outcome measures (PROM). This can be achieved with validated questionnaires designed to help patients assess their day-to-day physical, and social activities, as well as emotional and mental health. 12 These measures increase our understanding of disease burden as well as promoting advanced person-centered clinical care and research. 13 Several studies have described PROMs in patients recovering from COVID-19. For example, in one study Wong et al (2020) report that 76% of the patients admitted to the hospital with COVID-19 had adverse PROMs 3 months after symptom onset, with one-third of patients reporting at least moderate impairment in major dimensions of quality of life. 14 In additional studies, healthrelated quality of life (HRQoL) was decreased in the weeks following recovery from acute COVID-19 infection, including decreased mobility and physical functioning, decreased social functioning, anxiety, depression, and pain. [4] [5] [6] [7] [15] [16] [17] [18] Other pathogens causing pneumonia and hospitalization can adversely affect PROMs and cause a decrease in HRQoL during the months following discharge. This has been previously shown in patients recovering from community-acquired pneumonia even up to 1 year after infection. [19] [20] [21] In this current study, we focus on whether patients continue to suffer from post-COVID symptoms and reduction in HRQoL even beyond 6 months of follow-up. In addition, we consider whether COVID-19 is similar or unique in its impact on HRQoL as compared to patients after hospitalization with non-COVID-associated pneumonia.

A retrospective cross-sectional case-control study was performed regarding patients 18 years or older, discharged from hospitalization between 1 March and 31 July 2020 from Shamir (Assaf Harofeh) Medical Center (Zerifin, Israel). All patients were admitted to a designated department after SARS-CoV-2 infection was confirmed by RT-PCR nasopharyngeal swab. We excluded patients who could not complete the questionnaire (via phone or internet form) due to physical or cognitive impairment. After recruitment, a subset of participants was matched for sex and age to patients hospitalized during the same period due to pneumonia or respiratory infection to an internal medicine department. All patients were tested negative for SARS-CoV-2 during or on admission. In the matched group, patients were excluded if self-reported as being tested positive to SARS-CoV-2 in the follow-up period 

Data were extracted from electronic medical records including patient demographic information, tobacco smoke addiction, underlying comorbidities, and need for oxygen supplementation. Disease severity was characterized by the highest of a four-category scale, according to guidelines published by the Israeli Ministry of Health. The scale consisted of the following categories: mild disease severity -described as an O 2 saturation of 94% or above without O2 supplementation, a respiratory rate less than 30 breaths per minute (BPM), and no radiological abnormalities on chest X-ray. Moderate disease severity -signs of COVID-19 pneumonia on chest X-ray and severe disease -O 2 saturation of 93% or lower without O 2 supplementation or a respiratory rate of 30 BPM or more. Critical diseasethe need for high flow nasal cannula (HFNC) oxygen supplementation, non-invasive or invasive ventilation.

Five to nine months following discharge, patients received a text message offering them to participate in the research study and fill out an online version of the RAND-36 questionnaire. Patients, who were willing to participate but had difficulty filling out the online questionnaire, were contacted and the survey was filled by telephone. All data were collected anonymously.

The RAND 36-Item Health Survey (RAND-36) is a validated, easily administered, and widely used HRQoL survey instrument, which has been previously translated and validated in many languages including Hebrew. [22] [23] [24] It is comprised of 36 items that assess eight health concepts: physical functioning, role limitations caused by physical health problems, role limitations caused by emotional problems, social functioning, emotional well-being, energy/ fatigue, pain, and general health perceptions. Scores for each domain can range from 0 (worst) to 100 (best), higher scores indicate better HRQoL. RAND-36, and the similar license-based SF-36, has been used to evaluate the quality of life in various respiratory and infectious conditions including Middle East Respiratory Syndrome (MERS) and SARS-CoV-1. 25, 26 In addition to the RAND-36 patients were requested to report the persistence of symptoms since discharge.

All analyses were performed by using SPSS V23.0 (IBM Corp. Armonk, NY, USA). Continuous data are expressed as mean ± standard deviation (SD) or as the median and interquartile range (IQR) if they were not normally distributed, and categorical data are expressed as frequencies and percentages. Normal distribution was evaluated by histogram and Q-Q plot.

The correlation between continuous and ordinal variables and the outcomes of questionnaires was estimated by using Spearman correlation coefficient. Mann-Whitney test and the Kruskal-Wallis test were used to compare questionnaires' tails between categories.

McNemar's test was used to compare categorical variables between the two matched groups. Paired sample t-test and Wilcoxon signed-rank test was applied to compare continuous variables between the two matched groups. P-value was significant if α < 0.05. All statistical tests were two sided.

From 1 March to 31 July 2020, 309 patients were discharged from hospitalization due to COVID-19. Sixty-six patients participated in our research (response rate 21.36%). Demographic characteristics and comorbidities are shown in Table 1 . Age on admission was 58.5 years (49.8-68.3), 56.1% of the patients being female. More than a third of the patients were obese (36.4%) with a high mean BMI of 29.1 kg/m 2 . After obesity, hypertension was the most frequent comorbidity (31.8%), followed by diabetes (24.2%), ischemic heart disease (13.6%), and chronic lung disease (12.1%).

Hospitalization characteristics, length of follow-up, and PROMs are also reported in Table 1 . The median length of stay for patients hospitalized for COVID-19 was 7 days (IQR 4-10). Most patients had a mild (40.9%) or moderate disease (30.3%) not requiring oxygen supplementation in 75.7% of the cases. Still, 28.8% of the patients had severe disease with almost a quarter requiring either oxygen supplementation via a nasal prone, mask (19.7%), HFNC, or noninvasive ventilation (4.5%).

PROMs were obtained after a median follow-up of 9-month (IQR 6-9). In the results from the Rand-36 questionnaire emotional role, physical role, social and physical function had the highest scores (100, 87. respectively), while emotional well-being, pain, general health, and vitality had lower scores (74, 67.5, 60, and 57.5 respectively) and health change had the lowest score with a median of 25.

There was no significant association between age or gender and the different HRQoL scores. Overall, patients with comorbidities had lower scores on many of the different categories, some significantly so. In this regard, especially notable is the pain score in which significant differences were found in patients with or without ischemic heart disease (22.5 vs 77.5 p=0.006), diabetes (33.7 vs 80 p=0.007), lung disease (22.5 vs 72.5 p=0.039), and obesity (33.7 vs 85 p=0.017). Considering hospitalization characteristics, no association was found between length of stay and the different scores, although all the different scores were lower by disease severity and need for any oxygen supplementation. However, these differences were not statistically significant. Finally, the length of follow-up was weak but significantly correlated to physical function and emotional well-being (r s =0.25, p=0.039, and r s =0.28, p=0.022 respectively). Ingroup associations between patient demographics, patient comorbidities, hospitalization characteristics, and questionnaire scores are shown in Table S1 and S2.

Many patients complained about the sequela of COVID-19 infection; 57% of the patients still suffered from at least one symptom and 34% suffered from two symptoms or more. Most frequently reported was fatigue (28.8%), followed by myalgia (13.6%), weakness, and shortness of breath (10.6% each) ( Figure 1 ). Eighty-nine percent of patients with severe disease suffered at least one symptom compared to 65% and 44% of the patients with moderate and mild disease severity, respectively.

We matched for age and/or gender a subgroup of 42 COVID-19 patients to patients hospitalized with pneumonia due to other pathogens. A comparison of the groups is shown in Table 2 . Non-COVID-19 patients were more frequently current or past smokers (50% vs 11.9%, p=0.003) and suffered more often from chronic lung disease (38.1% vs 9.5%, p=0.008). COVID-19 patients had longer hospitalizations than patients in the non-COVID-19 group (8 vs 4 days, p<0.001) and were also followed up after a shorter period (7.5 vs 9-month, p<0.001).

Comparing the different RAND-36 scores, non-COVID -19 patients had lower scores in most categories with a trend towards significance in physical function and role (55 vs 80, p=0.070 and 25 vs 75, p=0.075 respectively) . On the other hand, health change was significantly lower in the COVID-19 group (25 vs 50, p=0.004). Follow-up (months), median (IQR) 9 (6-9)

None (%) 58 (87.9) 1 (%) 5 (7.6)

It has become increasingly apparent that COVID-19 can have a prolonged impact after acute illness, termed by some "long COVID" 27 or "post-acute COVID-19 syndrome". 2 In this current study, 56% of the patients still suffered from one or more persistent symptoms at a median follow-up of 9-months. The extent of this problem varies in different studies, depending on the length of follow-up and study population. [4] [5] [6] 10, 28, 29 For example, Logue et al (2021) describe a cohort consisting mainly of outpatients with mild disease in which approximately 30% of the patients reported persistent symptoms at a median follow-up of 169 days. 10 While Huang et al (2021) describe a cohort consisting mainly of inpatients with severe disease, where 76% of the patients reported persistent symptoms in a similar follow-up period. 5 These results are consistent with our findings, once stratified to disease severity. Forty-five percent of the patients after mild disease, reported at least one post-COVID persistent symptom vs 65% and 89% of the patients after moderate and severe disease, respectively. Fatigue was the most frequent symptom in our cohort reported by 28.8% of the patients, followed by myalgia in 13.6% (Figure 1 ). These findings are consistent with the current literature in which fatigue was the most commonly reported symptom, occurring between 14% and 71% of the patients. 6, 10, 28, 29 The large variability between studies is most probably explained by the different cohort characteristics, comparable to the difference in the total prevalence of persistent symptoms.

HRQoL was also assessed at the time of follow-up. Overall, patients with severe COVID-19 had lower scores in all HRQoL domains, though these findings were not statistically significant, most likely due to the small sample size. Previous studies have reported a decrease in HRQoL across multiple domains with lower scores in patients recovering from severe COVID-19. 4, 5, 10, 14, 15, 17, 18, 28 Simultaneously to persistent symptoms and decreased HRQoL, some studies have also reported residual chest imaging abnormalities and lung diffusion impairment up to 6 months after recovery from acute illness, suggesting one possible explanation for long COVID syndrome. 5, 15 To further understand the long-term effect of COVID-19 disease as compared to other respiratory illnesses, we matched a subgroup of our study patients to patients that were hospitalized with non-COVID-19 pneumonia during the same period. Patients with COVID-19 had significantly longer hospitalizations (8 vs 4 days), while non-COVID patients were more often smokers (50% vs 11.9%) and more frequently had chronic lung disease (38.1% vs 9.5%). Comparing HRQoL, non-COVID patients had lower scores in most domains but with a trend to significance only in physical function and role (p=0.070 and p=0.075). This difference might be explained due to a larger percentage of patients with comorbid lung disease, both COPD and asthma have been previously shown to decrease HRQoL, especially in severe disease and in patients with frequent exacerbations. [30] [31] [32] In contrast to other domains, the health change score was significantly lower in the group of COVID-19 patients (25 vs 50, p=0.004). This score is constructed by the patient's perception of their change in health relative to a year before, where a score of 50 is equal to no health change and a score of 25 is equal to their health being somewhat worse. This finding may be explained by the high percentage of patients suffering from persistent symptoms at follow-up, causing a reduction in health perception not explained by patient comorbidities.

This study has several limitations including its small sample size, low response rate, and lack of baseline evaluation of participant's HRQoL. Further studies are needed to understand the long-term impact of this novel disease.

Our study suggests that patients continue to suffer from an assortment of symptoms many months after hospitalization with COVID-19. Fatigue and myalgia were the most common persistent symptoms in 28.8% and 13.6% of the patients, respectively. Compared to patients after hospitalization with non-COVID pneumonia, patients recovering from hospitalization with COVID-19 were more likely to report that their health was somewhat worse than the previous year. This emphasizes the importance of pronged medical followup in this population, and the need for additional research to better understand this novel disease's long-term effects.

PROM, Patient-reported outcome measures; HRQoL, health-related quality of life; SARS-CoV-2, severe acute Follow-up (month), median (IQR) 7.5 (6-9) 9 (7-10)

Additional hospitalization during follow-up (%) 6 (14.3) 5 (11.9) >0.99 

Available upon request from the author Dr Matan Elkan matanelkan@gmail.com.

Our study complies with the Declaration of Helsinki and was approved by the Shamir Medical Center Helsinki Committee for Human Experiments, before its initiation. Approval number: 0366-20-ASF.

Informed consent was waived by the local Helsinki Committee for retrospective review of patient records. Written informed consent was waived by the same committee for the questionnaire. The nature of the study was explained to the participants before filling the questionnaire and agreeing by phone or filling the questionnaire by internet form was considered consent to participate in the study.

Social functioning, median (IQR)

Note: Bold font denotes p<0.05. Abbreviations: BMI, body mass index; SD, standard deviation; IQR, interquartile range

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The authors have no relevant financial or non-financial conflicts of interests to disclose.

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