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10.7759/cureus.20746

http://scihub22266oqcxt.onion/10.7759/cureus.20746
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34984162!8714055!34984162
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suck abstract from ncbi


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pmid34984162      Cureus 2021 ; 13 (12): e20746
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  • Why Pulmonary Vasodilation May Be Part of a Key Strategy to Improve Survival in COVID-19 #MMPMID34984162
  • Solaimanzadeh I
  • Cureus 2021[Dec]; 13 (12): e20746 PMID34984162show ga
  • Oxygenation is a function of both ventilation and perfusion. While approaches to the treatment of COVID-19 have focused largely on ventilation strategies and antiviral therapies, attention towards the improvement of vascular perfusion defects has been neglected. This article examines clinical findings that indicate perfusion defects are a critical component of COVID-19 pathophysiology. They also support the notion that medications that promote perfusion with pulmonary vasodilatation can yield significantly improved outcomes that include overall survival. Calcium channel blocker usage has been associated with improved survival and outcomes in several retrospective reviews of patient populations with COVID-19 from across the world. This includes studies conducted in Paris, France; Wuhan, China; Daegu, South Korea; Brooklyn, New York; Brussels, Belgium; and a national sample from across the United States. These medications are generally prescribed to treat hypertension. Yet, they are also utilized in various pulmonary conditions to effectuate pulmonary vasodilatation. Thus, a concomitant benefit appears to have been revealed as patients that were taking these medications had significantly improved overall survival. Sildenafil is another medication that induces pulmonary vasodilatation. It was found to decrease the need for mechanical ventilation and reduce hospital length of stay in COVID-19 in a triple-blinded randomized control trial. The importance of pulmonary vasodilation in COVID-19 has been evaluated further. In a study of over 100 high-resolution CT scans, patients with COVID-19 showed a significant reduction in pulmonary blood volume contained in small blood vessels of <5 mm(2) compared to healthy volunteers. Moreover, this was found to clinically correlate with a need for more oxygen supplementation. In radiologic perfusion studies, hypoperfusion was observed to occur in the healthy lung while hyperperfusion was present in non-healthy COVID-inflicted lung. It appears that perfusion of oxygen-carrying capacity, in the form of hemoglobin-carrying red blood cells, is being misappropriated towards unhealthy lung tissue. This was observed concurrently while the healthy lung had a paucity of perfusion. This can be a key aspect of hypoxic development in COVID-19. Mathematical modeling of perfusion abnormalities in COVID-19 has also implicated extensive perfusion defects, with ventilation-perfusion mismatching in the non-injured lung and hyperperfusion of up to threefold increases to afflicted regions. Vasodilation in the form of systemic intravascular medications may help improve outcomes by resetting this imbalance and by promoting perfusion of the alveolar-capillary unit where gas exchange and oxygenation occurs particularly in the non-injured lung. Furthermore, endothelialitis and microthrombosis have been observed on pathology specimens as many patients develop micro-thrombi following prolonged perfusion deficits. Vasodilatory agents can curb vasoconstriction and drive more perfusion towards healthy tissue. The temporal matching of consistent systemic intravascular vasodilation therapy throughout the gradual and progressive course of the illness may be integral to achieving improved outcomes. Improving perfusion to healthy tissue can help improve oxygenation and overall outcomes in COVID-19. These findings support further utilization and investigation of vasodilatory agents in the treatment of COVID-19.
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