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Pulmonary rehabilitation in <scp>COVID</scp>‐19 pandemic era: The need for a revised approach

Ajay Prashad Gautam, Ross Arena, Snehil Dixit, Audrey Borghi‐Silva

2020Respirology31 citationsDOIOpen Access PDF

Abstract

The coronavirus disease 2019 (COVID-19) pandemic is affecting millions of people worldwide with no current signs of abatement; manifestation of illness in those infected with the virus varies widely, from asymptomatic requiring no treatment to very severe complications requiring mechanical ventilation support. Initially, the virus was thought to primarily effect the pulmonary system alone, but later it was recognized that the virus can impact multiple organ systems also. Nevertheless, those who are physically fit and possess a healthy living phenotype are less severely affected by the disease than those with pre-existing co-morbid conditions and hence having less morbidity and mortality.1 The recovery rate of COVID-19 is improving with time due to better insight of the disease and available treatment options and hence, the number of survivors is increasing. During the recovery period, it has been reported that even patients with symptoms as a result of the viral infection continue to experience dyspnoea, chest pain and fatigue; these symptoms have been shown to persist for weeks following acute recovery. In patients recovering from a more severe manifestation of the viral infection, severe morbidity and low quality of life persist.2 Pulmonary rehabilitation (PR) has the potential to play a vital role in the recovery of patients infected with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). However, the traditional approach to PR is not conducive to the healthcare environment in the COVID-19 era. In this context, the approach must be modified from the perspective of both the rehabilitation programme employed as well as a focus on minimizing the possibility of viral spread by transferring the patients to the government or community-designated isolation centres. In this pandemic era, the multidisciplinary role by members is crucial with primary role of the members being to re-enforce the PR plan for COVID-19 and provide awareness, education and support whenever required.3 Telerehabilitation is an important component of PR in this environment as it allows access to patients who would benefit while minimizing human-to-human contact. During face-to-face treatment, healthcare professionals should employ techniques that require minimal manual handling of patients, such as remote-controlled mechanical tilting beds, mechanical assisted limb exercisers and closed-circuit suctioning. In the immediate post-recovery period, patients must remain in isolation for at least 2 weeks before enrolling for supervised PR programme. During this isolation phase, patients should be advised to perform low-to-moderate intensity exercises as per individual capabilities or using self-perceived exertion scales which can be easily administered from remote centres. Following the self-isolation phase, exercise testing and prescription need to be assessed under strict protocols to minimize viral spread; properly ventilated rooms and sanitization of rehabilitation settings are essential components. Proper nutritional counselling and psychological rehabilitation are also important components of PR that should be included.4 Table 1 lists a proposed modified approach to PR for the COVID-19 era. The authors of this correspondence hope that readers will find this proposed approach to be of value when considering how to alter the approach to PR. Oxygen supplementation will not be required and need for telemonitoring (vitals) will be minimal unless other pre-existing co-morbid conditions (2) Symptomatic patients not requiring mechanical ventilation (minimal to moderate V/Q mismatch)—Telerehabilitation Oxygen supplementation may be required during exercise training and need for telemonitoring (SpO2 by pulse oximetry) will be mandatory whether other pre-existing co-morbid conditions are present (3) Symptomatic patients requiring mechanical ventilation (moderate to severe V/Q mismatch)—ICU rehabilitation protocols Pneumonia: Airway clearance techniques—modified postural drainage regimen, suctioning—closed loop suctioning will be better than open suctioning ARDS: Prone positioning and frequent change in positions and appropriate mechanical ventilation strategies T-piece trials IMT (moderate intensity) through endotracheal /tracheostomy tube as tolerable Active/active assisted/passive exercises, cycle ergometry and electric muscle stimulation at the bedside may be considered approaches Early ambulation strategies as tolerated once vital signs stabilize Neuromuscular electrical stimulation Need for telemonitoring (SpO2 by pulse oximetry) will be mandatory during all the ICU rehabilitation phase whether other pre-existing co-morbid conditions are present (A) Supervised training—Individualized exercise testing and prescription If pulmonary fibrosis is present, perform training with oxygen supplementation as needed If secretions are present, perform airway clearance techniques General: For non-infected people in the community

Topics & Concepts

MedicinePandemicContext (archaeology)AsymptomaticIntensive care medicineRehabilitationDiseaseQuality of life (healthcare)CoronavirusCoronavirus disease 2019 (COVID-19)Pulmonary rehabilitationViral pneumoniaMechanical ventilationPhysical therapyInternal medicineInfectious disease (medical specialty)BiologyPaleontologyNursingLong-Term Effects of COVID-19COVID-19 and Mental HealthIntensive Care Unit Cognitive Disorders