In a new study, researchers found that higher-than-normal levels of an enzyme involved in blood clot prevention may be a common risk factor for developing COVID-19.
The research was conducted by a team at the University of Texas and elsewhere.
People with diabetes, high blood pressure, and heart, lung or kidney disease have a higher risk of developing COVID-19.
In addition, people with preexisting medical conditions typically become sicker when infected with SARS-CoV-2 than those in otherwise good health.
Research has found that one of the leading causes of death from COVID-19 is hemorrhage or bleeding disorders and that one of the characteristics of the disease is overactivity of the system responsible for removing blood clots (hyperfibrinolysis).
Elevated levels of plasminogen and plasmin have been found to be a common factor in people with diabetes and preexisting heart, lung and kidney conditions.
Plasminogen is an inactive substance in the blood. When substances in the cells of the blood vessels activate plasminogen, it generates plasmin, an enzyme that removes blood clots from the blood.
Higher-than-normal levels of both of these chemicals can lead to severe bleeding.
Studies report that more than 97% of people hospitalized with COVID-19 have increased levels of D-dimer, a protein in the blood that is produced when a blood clot dissolves.
D-dimer levels are associated with the amount of virus detected in the body and continue to rise as the severity of COVID-19 increases.
This is particularly true in people who develop the often-fatal complication of acute respiratory distress syndrome (ARDS).
The team says D-dimer levels decreased to control levels in [COVID-19] survivors or non-ARDS patients.
The time for the elevated D-dimer to go down in mild cases or survivors is dependent. Generally, it takes at least one week for mild [cases] but longer for severe patients.
Measurements of plasmin(ogen) levels and its enzymatic activity may be important biomarkers of disease severity.
In addition, treating hyperfibrinolysis may be a promising strategy for improving the clinical outcomes of patients with additional medical conditions.
One author of the study is Hong-Long Ji, MD, PhD.
The study is published in Physiological Reviews.
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