ABSTRACT
Selenium is an indispensable trace element for all living organisms. It is an essential structural component of several selenium-dependent enzymes, which support the human body's defense mechanism. Recently, the significance of selenium in preventing/treating COVID-19 has been documented in the literature. This review highlights the clinical studies, compositions, and patent literature on selenium to prevent/treat COVID-19. Selenium exerts its anti-COVID-19 action by reducing oxidative stress, declining the expression of the ACE-2 receptor, lowering the discharge of pro-inflammatory substances, and inhibiting the 3CLPro (main protease) and PLpro enzyme of SARS-CoV-2. The data of clinical studies, inventive compositions, and patent literature revealed that selenium monotherapy and its compositions with other nutritional supplements/drugs (vitamin, iron, zinc, copper, ferulic acid, resveratrol, spirulina, N-acetylcysteine, fish oil, many herbs, doxycycline, azithromycin, curcumin, quercetin, etc.,) might be practical to prevent/treat COVID-19. The studies have also suggested a correlation between COVID-19 and selenium deficiency. This indicates that adequate selenium supplementation may provide promising treatment outcomes in COVID-19 patients. The authors foresee the development and commercialization of Selenium-based compositions and dosage forms (spray, inhalers, control release dosage forms, etc.) to battle COVID-19. We also trust that numerous selenium-based compositions are yet to be explored. Accordingly, there is good scope for scientists to work on developing novel and inventive selenium-based compositions to fight against COVID-19. However, there is also a need to consider the narrow therapeutic window and chemical interaction of selenium before developing selenium-based compositions.
Subject(s)
COVID-19 , Selenium , Humans , Selenium/therapeutic use , SARS-CoV-2 , Vitamins , Dietary SupplementsABSTRACT
This review present Gingko biloba (GB) interactions, based on clinical and pre-clinical presentations. Literature was retrieved using databases; ScienceDirect, PubMed, Google scholar, Web of Science, Scopus etc. 14/45 interactions were found with clinical presentations. More interactions (80%) were reported with drugs followed by herbs (11.1%), and nutraceuticals (6.7%) with major mechanisms of interaction observed as; inhibition of Cytochrome metabolizing enzymes (44.4%) and platelet-activating factor (PAF) i.e. 15.6%. Major clinical features were; increased bleeding (eye, parietal), hematomas (subdural), and seizures as well as increased blood pressure, priapism, loss of infection/antiviral failure, and coma. Drugs with major interactions belonged to anti-platelet/anti-coagulant and NSAIDs. Synergistic effects were observed for GB vs herbs (except cannabis which showed rhabdomyolysis), foods, and nutraceuticals (except pyridoxine where neurotoxicity was seen). GB use should be monitored and the patient may seek proper advice from a healthcare professional.
Esta revisión presenta las interacciones de Gingko biloba (GB), basadas en presentaciones clínicas y preclínicas. La literatura se recuperó utilizando bases de datos; ScienceDirect, PubMed, Google Scholar, Web of Science, Scopus, etc. Se encontraron 14/45 interacciones con presentaciones clínicas. Se informaron más interacciones (80%) con fármacos seguidos de hierbas (11,1%) y nutracéuticos (6,7%) con los principales mecanismos de interacción observados como; inhibición de las enzimas metabolizadoras del citocromo (44,4%) y factor activador de plaquetas (PAF), es decir, 15,6%. Las principales características clínicas fueron; aumento de sangrado (ojo, parietal), hematomas (subdural) y convulsiones, así como aumento de la presión arterial, priapismo, pérdida de infección / insuficiencia antiviral y coma. Los fármacos con interacciones importantes pertenecían a los antiplaquetarios/anticoagulantes y los AINE. Se observaron efectos sinérgicos para GB frente a hierbas (excepto cannabis que mostró rabdomiólisis), alimentos y nutracéuticos (excepto piridoxina donde se observó neurotoxicidad). Se debe controlar el uso de GB y el paciente puede buscar el asesoramiento adecuado de un profesional de la salud.