Coronaltitude - Multicentric Evaluation of the Impact on Hypoxia Sensitivity of Patients With COVID-19

Summary

In this study, the investigators will examine the extent to which having suffered coronavirus disease 2019 (COVID19) impacts one's sensibility to hypoxia by means of the 'Richalet test'. The aim of the study is to formulate recommendations for advice in altitude mountain medicine for patients having suffered COVID19. To determine any eventual changes in response to hypoxia, performances by participants having suffered COVID-19 and participants having stayed free of COVID-19 will be both compared intra-individually with previous performances (pre-COVID-19 pandemic) and between both groups of subjects. The investigators hypothesize that patients having suffered COVID19 might perform differently on the cardiopulmonary exercise test compared to before the illness. Based on recent research on COVID19 pathophysiology and -patient follow-up, it might be expected that COVID19 alters the response to hypoxia, thus influencing one's acclimatization capabilities at high altitude, albeit reversibly and/or temporarily.

Different alterations of response to hypoxia could be observed. The virus causing COVID19, the "severe acute respiratory syndrome coronavirus 2" (SARS-CoV-2), has the potential to significantly damage the nervous system and to affect cardiorespiratory functions. If SARS-CoV-2 does, similarly to MERS and SARS, induce cardiorespiratory and neurological dysfunction, then COVID19 patients may have impaired hypoxia response after infection and perform worse on the 'Richalet test' in comparison to before the illness.

Conversely, reports of high prevalence of dyspnea in patients up to 3 months after SARS-CoV-2 infection, might indicate infection-induced degenerative changes in the carotid bodies, which might lead to sensibilization of the peripheral chemoreceptors to impaired oxygenation. Possibly similar to the impact of aging and smoking on the cardiorespiratory response to hypoxia, this phenomenon of sensibilization could entail an increased hypoxic response in patients having suffered COVID-19. Accordingly, patients might perform better on the 'Richalet test' post-COVID-19 than they did before.

Conditions

• Covid19
• SARS-CoV2 Infection
• Hypoxia, Altitude

Interventions

BIOLOGICAL

COVID19

Intervention in experimental group (COVID+ group) is the disease itself, compared to the control group (COVID- group). At inclusion, subjects have been asked if they have suffered COVID19 in the 12 months before inclusion, during whichever wave, attested by a positive PCR, positive serology test or positive chest CT scan. Moreover, the Richalet test is a cardiorespiratory exercise test on an ergocycle (an electrically braked cycloergometer), whilst continuous measurement by a 12-lead ECG, a blood pressure cuff, a metabograph and an ear pulse oximeter. This, to assess cardiac response, ventilatory response and relevant metabolic parameters (CF, RR, SpO2, volume, BP). Subjects breathes through a mask connected to a gas mixer, which provides a gas mixture with 11,5% oxygen (corresponding to ambient air at an altitude of 4800m) in the hypoxia phases.

Sponsors & Collaborators

• University of Paris 13

  collaborator OTHER

• Ecole Nationale des Sports de Montagne

  collaborator OTHER

• Institut de Formation et de Recherche en Médecine de Montagne

  lead OTHER

Principal Investigators

• François Lecoq-Jammes, Dr. · study coordinator

Study Design

Allocation

NON_RANDOMIZED

Purpose

SCREENING

Masking

NONE

Model

PARALLEL

Eligibility

Min Age

18 Years

Sex

ALL

Healthy Volunteers

Yes

Timeline & Regulatory

Start

2021-01-13

Primary Completion

2021-11-02

Completion

2021-11-02

Countries

• France

Study Locations