Aim of this prospective, interventional, single-center, randomized study is to evaluate the efficacy and safety of intermittent hypoxic-hyperoxic training (IHHT) as a rehabilitation method in patients with cardiovascular pathology in the early period after coronavirus infection. The study will include 60 patients with cardiovascular pathology who underwent confirmed by laboratory tests COVID-19 infection 1-3 months ago with the degree of lung lesion CT3, CT4, who were admitted to the University Clinical Hospital No. 4 of I.M. Sechenov First Moscow State Medical University. The patients will be divided into 2 groups (intervention and control groups). Intervention group will inhale hypoxic gas mixtures (10-12% O2) followed by exposure to a hyperoxic gas mixture with 30-35% O2 5 times a week for 3 weeks, while control group will undergo a simulated IHHT. All the patients will undergo identical laboratory and instrumental testing before IHHT, after the last IHHT procedure, in a month after the last IHHT procedure and in 6 months. Estimated result of the study is to confirm or refute the hypothesis of the study that a three-week course of IHHT in patients with cardiovascular pathology in the early period after coronavirus infection can improve exercise tolerance, as well as the quality of life and psychoemotional status, and affect the dynamics of laboratory and instrumental parameters.
Aim of this prospective, interventional, single-centered, randomized study is to evaluate the efficacy and safety of intermittent hypoxic-hyperoxic training as a rehabilitation method in patients with cardiovascular pathology in the early period after coronavirus infection. The study will include 60 patients with cardiovascular pathology who underwent confirmed by laboratory tests COVID-19 infection (polymerase chain reaction (PCR) testing, enzyme-linked immunosorbent assay (positive result at least 1 time)) 1-3 months ago with the degree of lung lesion CT3, CT4, who were admitted to the University Clinical Hospital No. 4 of I.M. Sechenov First Moscow State Medical University. Patients will be randomized via the random number table method into two groups, comparable by gender, age and comorbidity: Intermittent hypoxic-hyperoxic training (intervention group) group, 30 patients who will receive 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks. Patients in the IHHT group will inhale hypoxic gas mixtures (10-12% O2) followed by exposure to a hyperoxic gas mixture with 30-35% O2. A control group of 30 patients will undergo a simulated IHHT course with the same "exposure" time and number of sessions. Patients of this group will breathe normoxic gas mixture using the same equipment; ordinary humidified air is supplied through the mask during the entire session. Patients eligible for inclusion will undergo the following investigations: * Anamnesis and complaints collection; physical examination; * Assessment of the quality of life and psycho-emotional status using the Short Form-36 (SF36) and Hospital Anxiety and Depression Scale (HADS) questionnaires, as well as the six-minute walk test; * General and biochemical blood tests , urine analysis, , determination of markers of inflammation (ferritin, C-reactive protein, D-dimer, fibrinogen, interleukin-1, interleukin-6, interleukin-18 and tumor necrosis factor), the level of Endothelin-1 and nitric oxide (NO) in the blood; * Electrocardiography, a flow mediated dilatation procedure for endothelial function assessment,transthoracic echocardiography to identify the structural and functional features of the myocardium, spiroergometry to determine the patient's oxygen consumption. The statistical processing will be performed using the Python Software Foundation version 3.8 for Windows (Delaware, USA). Estimated result of the study is to confirm or refute the hypothesis of the study that a three-week course of IHHT in patients with cardiovascular pathology in the early stages after suffering a coronavirus infection can improve exercise tolerance, as well as the quality of life and psychoemotional status, and affect the dynamics of laboratory and instrumental parameters.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
DOUBLE
Enrollment
43
IHHT will be carried out using the ReOxy normobaric hypoxic therapy apparatus (Bitmos GmbH, Germany, 26790/10221, 04/10/2019). Each patient will undergo a hypoxic test to assess the individual response to hypoxia. The minimum safe SpO2 value is 82%, and the maximum allowable heart rate increase during exercise is + 50% of the starting value. When these parameters are reached, an automatic switch to the supply of a hyperoxic gas mixture (35-40% oxygen) occurs till the SpO2 level is 100%. During each training session a hypoxic gas mixture is supplied to the patient in an intermittent mode, alternating with the supply of a hyperoxic gas mixture. On average, each workout includes 6 of the above cycles. The total time of inhalation of a hypoxic gas mixture during one procedure is 20-30 minutes.
IHHT will be carried out using the ReOxy normobaric hypoxic therapy apparatus (Bitmos GmbH, Germany, 26790/10221, 04/10/2019). A control group of 30 patients will undergo a simulated IHHT course (with the same "exposure" time and number of sessions as intervention group - 15 sessions, 40-minutes long each, 5 workouts per week for 3 weeks). Patients of this group will breathe normoxic gas mixture (ordinary humidified air is supplied through the mask) during the entire session.
University Clinical Hospital No. 4 of I.M. Sechenov First Moscow State Medical University (Institute for personalized cardiology, Center "Digital biodesign and personalized healthcare").
Moscow, Russia
Change in the levels of proinflammatory cytokines.
This outcome will be assessed by taking blood samples from a peripheral vein before and after IHHT to determine and compare the levels of proinflammatory cytokines such as Interleukin-1, Interleukin-6, Interleukin-18 and Tumor necrosis factor.
Time frame: In 6 months after the reception of 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks.
Change of the endothelial function
This outcome will be assessed via taking blood samples from a peripheral vein before and after IHHT to determine and compare the levels of endothelin-1 and nitric oxide. Measurement of endothelial function will be done by using Flow Mediated Dilation (FMD). The technique involves ultrasound measurement of arterial dilation in response to a 5-minute occlusion of the brachial artery with a blood pressure cuff.
Time frame: In 6 months after the reception of 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks.
Changes in indicators of diastolic dysfunction.
This outcome will be assessed via transthoracic echocardiography (EchoCG). Transthoracic EchoCG will be performed to assess the heart structure and function: unidimensional (M-mode), two-dimensional (B-mode) and Doppler. Diastolic function of the left ventricle will be assessed using pulse-wave, constant-wave, and tissue Doppler studies. Received data will be compared to the initial one before the IHHT sessions started and the conclusion about diastolic dysfunction will be made.
Time frame: In 6 months after the reception of 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks.
Change in exercise tolerance after intermittent hypoxic-hyperoxic training.
Exercise tolerance will be determined via using a six-minute walk test . The six-minute walk test will measure the distance an individual is able to walk over a total of six minutes on a hard, flat surface.
Time frame: In 6 months after the reception of 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks.
Change in maximum level of oxygen consumption after intermittent hypoxic-hyperoxic training.
Exercise tolerance will be determined via using a spiroergometry to determine the patient's oxygen consumption. The spiroergometric test will be performed under continuous stepwise increasing load. The duration of each load step is 5 min; the initial load level is 25 W, followed by an increase in load at each step by the same amount. The results of the test will be used to evaluate the achievement of the maximum level of oxygen consumption (in l/min or ml/min/kg body weight). Received data will be compared to the initial one before the IHHT sessions started and the conclusion will be made.
Time frame: In 6 months after the reception of 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks.
Change in the levels of ferritin.
This outcome will be assessed by taking blood samples from a peripheral vein before and after IHHT to determine and compare the levels of long-term inflammatory markers such as ferritin.
Time frame: In 6 months after the reception of 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks.
Change in the levels of C-reactive protein.
This outcome will be assessed by taking blood samples from a peripheral vein before and after IHHT to determine and compare the levels of long-term inflammatory markers such as C-reactive protein.
Time frame: In 6 months after the reception of 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks.
Change in the levels of D-dimer.
This outcome will be assessed by taking blood samples from a peripheral vein before and after IHHT to determine and compare the levels of long-term inflammatory markers such as D-dimer.
Time frame: In 6 months after the reception of 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks.
Change in the levels of fibrinogen.
This outcome will be assessed by taking blood samples from a peripheral vein before and after IHHT to determine and compare the levels of long-term inflammatory markers such as fibrinogen.
Time frame: In 6 months after the reception of 15 IHHT sessions, 40-minutes long each (5 workouts per week) for 3 weeks.
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