COVID-19 Clinical Trial
Official title:
Clinical Study of Human Umbilical Cord Mesenchymal Stem Cells in the Treatment of Severe COVID-19
The novel coronavirus pneumonia is a kind of new emerging respiratory infectious disease, characterized by fever, dry cough, and chest tightness, and caused by the infection of the 2019 novel coronavirus (2019-nCoV). In severe cases, there will be rapid respiratory system failure. The novel coronavirus pneumonia is extremely contagious and the disease progresses rapidly. It has become a urgent and serious public health event that threatens human life and health globally. Among them, severe pneumonia caused by novel coronavirus is characterized by extensive acute inflammation of the lungs and the patient is critically ill. At present, there is no effective treatment in clinical practice.Most of them should receive supportive care to help relieve symptoms. For severe cases, treatment should include care to support vital organ functions. This clinical trial is to inspect the safety and efficiency of Human Umbilical Cord Mesenchymal Stem Cells (UC-MSCs) therapy for severe pneumonia patients infected with 2019-nCoV.
Since December 2019, Wuhan has successively found multiple cases of patients with pneumonia
infected by a novel coronavirus. With the spread of the epidemic, other cases in China and
abroad have also found such cases. As of 24:00 on February 1, 2020, a total of 14,380
confirmed cases were reported in China, of which there were 2110 severe cases and 304 death
cases. At present, there is no effective treatment for pneumonia in the clinic against new
coronavirus infection, especially severe and critical cases. Therefore, it is of great
significance to explore more active and effective therapeutic approach to severe pneumonia
patients infected with 2019-nCoV.
Human and animal studies have shown that after infection with coronavirus, the rapid
replication of the virus in the body and the subsequent inflammatory response cause damage to
alveolar epithelial cells and capillary endothelial cells, causing diffuse interstitial and
alveolar edema, and pulmonary function. Impaired, leading to acute hypoxic respiratory
insufficiency. The National Health and Medical Commission recently released the "New
Coronavirus Infected Pneumonia Diagnosis and Treatment Plan (Trial Version 5)", which pointed
out that the new type of coronavirus severe pneumonia usually has difficulty breathing after
one week, and the severe cases quickly progress to acute respiratory distress syndrome,
Septic shock and metabolic acidosis that is difficult to correct. It can be seen that the key
to the treatment of new coronavirus severe pneumonia is to inhibit the super-inflammatory
immune response caused by the virus, thereby reducing the damage of alveolar epithelial cells
and capillary endothelial cells, and then repairing the structure and function of lung
tissue.
Mesenchymal stem cells (MSCs) are one of the most studied and important adult stem cells. A
large amount of evidence shows that MSCs can migrate to and return to damaged tissues, exert
strong anti-inflammatory and immune regulatory functions, promote the regeneration and repair
of damaged tissues, resist apoptosis and inhibit tissue fibrosis, and reduce tissue damage.
Many studies have shown that the anti-inflammatory effects of MSCs can significantly reduce
virus-induced lung injury and mortality in mice. Studies have shown that MSCs can
significantly reduce acute lung injury in mice caused by H9N2 and H5N1 viruses by reducing
the levels of proinflammatory cytokines and chemokines and reducing the recruitment of
inflammatory cells into the lungs. Compared with MSCs from other sources, human umbilical
cord-derived MSCs (umbilical cord MSCs, UC-MSCs) have been widely used because of their
convenient collection, no ethical controversy, low immunogenicity, fast self-renewal and
strong proliferation ability Research on the treatment of various diseases. Early research in
this laboratory used UC-MSCs to intervene in endotoxin (LPS) -induced acute lung injury in
mice, and confirmed that UC-MSCs can significantly reduce inflammatory cell infiltration in
lung tissue, reduce inflammation in lung tissue, and significantly improve lung The structure
and function of tissues protect mouse lung tissue from endotoxin-induced damage.
The purpose of this study is to investigate efficiency and safety of UC-MSCs in treating
severe pneumonia patients infected with 2019-nCoV. This trial will recruit 48 patients. 24
patients received i.v. transfusion one round (4 times) of 5.0*10E6 cells/kg of UC-MSCs as the
treated group, all of them received the conventional treatment. In addition, the equal 24
patients received conventional treatment were used as control group. The respiratory
function, pulmonary inflammation, clinical symptoms, pulmonary imaging, side effects, 28-days
mortality, immunological characteristics (immune cells, inflammatory factors, etc.) will be
evaluated during the 90 days to 96 weeks follow up.
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