Effects of Inspiratory Muscle Training After Covid-19 (ReCOV)

Overview

Initially, it was suspected that Covid-19 would primarily affect the airways, but several studies have now shown that it is a disease with multisystem manifestations. Covid-19 has the potential to affect physical, cognitive, and psychological functions in multiple ways. It has been clear that a significant proportion of patients with Covid-19 develop long-term symptoms. The term post-acute Covid-19 syndrome (PACS) is now used to describe the wide range of prolonged symptoms following the infection. Patients who have been in hospital for Covid-19 for a long time may need specialized rehabilitation, however, also non-hospitalized patients with mild symptoms may need specific rehabilitation to be able to meet the complex symptoms and problems that may arise. Previous studies on the recovery and rehabilitation after other coronavirus shows the importance to develop tailored interventions so that these patients receive appropriate rehabilitation The aim of this study is to evaluate the effects of inspiratory muscle training on adult patients with PACS and decreased respiratory muscle strength. A randomized controlled trial will be used. A total of 90 adult patients with PACS and 80 % or less of predicted value in inspiratory muscle strength (maximal inspiratory pressure) will be eligible for enrollment. Patients will be randomized either to an intervention group or a control group. The intervention will consist of inspiratory muscle training performed twice daily for 8 weeks. This will be combined with an 8-week physical exercise training program. The control group will perform the same physical exercise training according to standard care. All measurements will be performed at baseline and after 8 weeks. Primary outcome is maximal inspiratory pressure. Secondary outcomes are: Maximal expiratory pressure, pulmonary function, physical capacity, physical activity, respiratory status and symptoms, health-related quality of life, work ability, fatigue, self-reported outcome measure of physical function and voice function. Covid-19 has the potential to affect physical, cognitive, and psychological functions in multiple ways and lead to a negative impact on quality of life in the long-term perspective. Therefore, development of a rehabilitation program with specific tailored interventions will be necessary to improve physical and psychological function, as well as health-related quality of life and work ability.

Introduction: Covid-19 was declared a global pandemic in March 2020 by the World Health Organization (WHO). So far (August 2021), there are over 1 100 000 confirmed cases and over 14 000 deaths in Sweden. Initially, it was suspected that Covid-19 would primarily affect the airways, but several studies have now shown that it is a disease with multisystem manifestations. The impact of the virus ranges from an asymptomatic infection to a severe and life-threatening disease that can affect the cardiac, renal gastrointestinal, nervous, endocrine, and musculoskeletal systems. Therefore, Covid-19 has the potential to affect physical, cognitive, and psychological functions in multiple ways. It has been clear that a significant proportion of patients with Covid-19 develop long-term symptoms. Signs and symptoms may arise from any system in the body, often with significant overlap, and may develop over time. The term post- acute Covid-19 syndrome (PACS) is now used to describe the wide range of prolonged symptoms following the infection. Fatigue, decreased physical and psychological function have been reported in the initial recovery phase, but still little is known on the long-term consequences. Patients who have been in hospital for Covid-19 for a long time may need specialized rehabilitation, however, also non-hospitalized patients with mild symptoms may need specific rehabilitation to be able to meet the complex symptoms and problems that may arise. Previous studies on the recovery and rehabilitation after other coronavirus shows the importance to develop tailored interventions so that these patients receive appropriate rehabilitation with a multi-professional approach throughout the whole care chain. Some studies suggest that the rehabilitation should be similar to pulmonary rehabilitation, but since a lot of patients often have symptoms from different organ systems this is not yet fully investigated and needs to be addressed from different perspectives. A study by Liu et al (2020), showed that 6 weeks of physical exercise and respiratory muscle training improved lung function and physical capacity compared to a control group in elderly patients after Covid-19. At the Karolinska University Hospital there is a specialized multidisciplinary and multi-professional approach aiming to follow up patients who have been hospitalized. However, from mid-2020 and onwards, referrals from primary care have significantly increased. This includes patients who have never been hospitalized but with varying symptoms from several organs that have lasted for more than 3 months. This study is part of a bigger research project (ReCoV) and is integrated with the clinical follow-up and linked research project of patients who have been hospitalized or referred from primary care Hypothesis: The overall hypothesis of the hole research project is that physical and physiological function, work ability and HRQoL are important factors for recovery after Covid-19 which can be improved by individual tailored rehabilitation. The aim of this study is to evaluate the effects of inspiratory muscle training (IMT) on physical and psychological function, work ability and HRQoL in patients with decreased respiratory muscle strength after Covid-19. Methods: To evaluate the effects of IMT, a randomized controlled trial design will be used. Participants: Patients with PACS above 18 years old (N=90) with 80% or less of predicted value in maximal inspiratory pressure (MIP) are eligible for participation in the study. Procedure: Baseline assessment before the intervention period will be performed at an outpatient visit at Karolinska university hospital. After baseline assessment participants will be randomized to either an intervention group or to an active control group using random permuted blocks. The intervention will take place at the physiotherapy outpatient clinic at the hospital or at a primary care facility and in the participants' homes. The intervention group will perform IMT twice daily (two sets of 30 receptions) at home during 8 weeks with a resistance of 20-50 % of MIP using an inspiratory muscle trainer (Threshold or digital advice). Follow-up of execution and increase in intensity during IMT will be conducted weekly by the physiotherapist. This will be combined with an 8-week physical exercise program including aerobic, strength and mobility exercises which will be performed at the care facility and at home at least two times a week. The active control group will perform the same physical exercise program according to standard care. Outcome assessment: All measurements will be performed at baseline and after the intervention period (8 weeks). Primary outcome is maximal inspiratory pressure (MIP) and secondary outcomes are: maximal expiratory pressure (MEP), lung function, physical capacity (6-min walk test), Chair stand test, physical activity, respiratory status and symptoms, health-related quality of life, work ability, fatigue, self-reported outcome measure of physical function and voice function. Statistical analyses: Descriptive statistics will be presented as mean (standard deviation), median (interquartile range), and proportions, as appropriate. Depending on the level and distribution of the data, parametric or non-parametric methods will be applied to. Originally, longitudinal group differences were to be analyzed using linear mixed models. A sample size calculation indicated that 36 participants per group would be required to detect a 10% difference in maximal inspiratory pressure (MIP), with an additional 25% added to account for potential dropouts, resulting in a target of 45 participants per group. However, due to a lower-than-expected number of included participants and unmet assumptions for linear mixed models, the analysis plan has been revised. The updated plan includes an intention-to-treat analysis to assess between-group differences in outcome variables. Depending on the type of outcome variable, multiple linear or logistic regression models will be used, with the outcome variable as the dependent variable. Missing post-intervention data will be imputed using multiple imputation via the "mice" package in R. Clinical significance: Covid-19 has the potential to affect physical, cognitive, and psychological functions in multiple ways and lead to a negative impact on quality of life in the long-term perspective. Therefore, development of a rehabilitation program with specific tailored interventions will be necessary to improve physical and psychological function, as well as health-related quality of life and work ability. Covid-19 is a new disease and large knowledge gaps need to be filled. Previous studies indicate that the patients are affected at several levels and a rehabilitation period is necessary. It is of great importance that data is collected systematically and standardized. If significant effects occur, the possibility to generalize the results to other individuals with Covid-19, are promising. The physical interventions may thus improve the ability to adjust to the implications of Covid-19, which can potentially have significant health economic effects. For example, the interventions may prolong patients' meaningful activities of daily living and their ability to return to their previous workplaces (conduct their professions). This project will deepen the knowledge about the effects of specialized rehabilitation Ethical considerations: The project has been approved by the Swedish Ethical Review Authority. The participants will receive verbal and written information about the study and informed consent will be obtained from all participants.