Coronavirus is an acute viral disease with prevailing upper respiratory tract infections caused by the RNA-containing virus of the genus Betacoronavirus of the Coronaviridae family. Most patients with severe COVID-19 develop pneumonia in the first week of the disease. As the infection progresses, the infiltration increases, and the affected areas increases. Excessive and uncontrolled immune system response with rapidly developing fatal cytokine storm plays the main role in the pathogenesis of acute respiratory distress syndrome (ARDS) due to SARS-CoV-2 infection. According to available data, exosomes can regulate inflammation and regenerative processes due to the change in the concentration of anti-inflammatory cytokines and switch the immune cell to regenerative secretome. Inhalation of exosomes may reduce inflammation and damage to the lung tissue and stimulate the regenerative processes. This protocol has been developed based on the literature, information about the ongoing tests NCT04276987 (A Pilot Clinical Study on Inhalation of Mesenchymal Stem Cells Exosomes Treating Severe Novel Coronavirus Pneumonia) and NCT04384445 (Organicell Flow for Patients With COVID-19), Patent No 271036826 of 2019. "A method for obtaining and concentrating microRNA-containing exosomal multi-potent mesenchymal-stromal cells for use in cosmetic and pharmaceutical products to stimulate regenerative processes and slow down aging.
COVID-19 is an infectious disease caused by the most recently discovered coronavirus. This
new virus and disease were unknown before the outbreak began in Wuhan, China, in December
2019. COVID-19 is now a pandemic affecting many countries worldwide. Globally, as of 1:09 pm
CEST, 27 July 2020, there have been 16 096 741 confirmed cases of COVID-19, including 646 384
deaths, reported to WHO.
The main and rapidly achievable target of SARS-CoV-2 is lung type II alveolar cells (AT2),
which determines the development of diffuse alveolar damage. In the pathogenesis of ARDS due
to COVID-19, the main role is played by an over-response of the immune system with rapidly
developing severe life-threatening cytokine release syndrome (cytokine storm). Cytokine
release syndrome threatens the emergence and progression of ARDS. The key components of the
pathogenesis of ARDS also include disruption of cell cytotoxicity mechanisms, excessive
activation of cytotoxic lymphocytes and macrophages with a massive release of proinflammatory
cytokines (FNO-α, IL-1, IL-2, IL-6, IL-8, IL-10), granulocytic colony-stimulating factor,
monocytic chemoattractive protein 1), and inflammatory markers (CRP, serum ferritin),
infiltration of internal organs and tissues by activated T-lymphocytes and macrophages,
resulting in a hyperinflammatory reaction. Such severe lesions can lead to death or severe
lung damage, including long rehabilitation after discharge.
Experimental studies have demonstrated that mesenchymal stem cells (MSCs) may significantly
reduce lung inflammation and pathological impairment resulting from different types of lung
injury. Many researchers connect the anti-inflammatory effect of MSC with their secretome
which includes MSC derived exosomes. It is highly likely that MSC exosomes have the same
therapeutic effect on inoculation pneumonia as MSCs themselves. Moreover, exosomes show a
strong effect of regenerative stimulation on different wounds so the regenerative effect can
be extended on patients with COVID-19 pneumonia.
The purpose of this protocol is to explore the safety and efficiency of aerosol inhalation of
the exosomes in the treatment of severe patients hospitalized with novel coronavirus
pneumonia (NCP).
Drug: EXO 1 inhalation
Twice a day during 10 days inhalation of 3 ml special solution contained 0.5-2x10^10 of nanoparticles (exosomes) of the first type.
Drug: EXO 2 inhalation
Twice a day during 10 days inhalation of 3 ml special solution contained 0.5-2x10^10 of nanoparticles (exosomes) of the second type.
Drug: Placebo inhalation
Twice a day during 10 days inhalation of 3 ml special solution free of nanoparticles (exosomes).
Inclusion Criteria:
- Ability to understand the study objectives and risks and provide signed and dated
informed consent;
- COVID-19 infection (by PCR or antibody test or high probability of COVID-19 by CT);
- Pneumonia requiring hospitalization, and oxygen saturation of <93%, need for
noninvasive ventilation. The confirmed volume of lung damage by CT;
- ability to proceed with inhalation by self;
Exclusion Criteria:
- Severe respiratory failure at the time of screening due to COVID-19 pneumonia;
- Known to undergo medical resuscitation for 14 days before randomization;
- Any serious medical condition or deviation of the clinical laboratory parameter that,
in the opinion of the researcher, prevents safe participation and completion of the
study by the participant Confirmed uncontrolled active bacterial, fungal, viral or
other infection (other than SARS-CoV-2).
- According to the researcher, the progression to death is inevitable and will occur
within the next 24 hours, regardless of the therapy.
- The life expectancy of fewer than 28 days, taking into account a medical condition
already existing that cannot be corrected, e.g. participants with the following
conditions or suspicions: polyorganic insufficiency, poorly controlled neoplasms,
terminal stage heart disease, cardiopulmonary cardiac arrest that required
cardiopulmonary resuscitation, or electrical activity not accompanied by a pulse, or
asystole within the last 30 days, terminal stage liver disease, terminal stage liver
disease, or liver disease;
- Pregnancy or breastfeeding;
- Liver function failure (Class C for Child-Pugh), detected within 24 hours at screening
(local laboratory);
- Absolute neutrophil count (ANC) <500 cells/µL at screening (local laboratory);
- Platelet count <50000 cells/µL at screening (based on laboratory data);
- Creatinine level ≥ 1.5 from the upper limit;
- Uncontrolled or untreated arrhythmia with clinical manifestations, myocardial
infarction within the last 6 weeks or congestive heart failure (NYHA Degrees 3 or 4);
- Respiratory failure in the last 6 months or home use of oxygen in severe chronic
respiratory disease (COPD);
- Quadriplegia;
- Primary immunodeficiency, tuberculosis, progressive multifocal leukoencephalopathy,
aspergillosis or other invasive mold/fungal infection in anamnesis, or internal or
bone marrow transplantation for 6 months before randomization;
- Known infection with hepatitis B or C viruses requiring therapy;
Medical Centre Dinasty
Samara, Russian Federation