Scientists studied the effects of SARS-CoV-2 infections and found that while most cases are mild, a significant number of infected individuals develop severe respiratory illness. This highlights the need for a safe and effective treatment for COVID-19.
Study investigated stem extract potential improve dextromethorphan bioavailability for Alzheimer's disease management. Network pharmacology analysis showed TCE targeting AD factors, enhancing memory and reducing hyperactivity in rodents.
Scientists reviewed literature on Indian species for their medicinal benefits due to minimal adverse effects. Important medicinal herbs with diverse therapeutic uses for treating various diseases. Further research needed on chemical constitution and pharmacological characteristics of species.
Guduchi Ghana Vati showed potential as a preventive remedy for COVID-19 and other infections in a healthy population, with lower severity and hospitalization requirements in those taking it. It is safe and effective for preventing infections and boosting immunity.
Researchers identified Cannabis sativa L. as a potent inhibitor of MRSA, with cannabidiol and Δ9-THC showing bactericidal action. This plant-based alternative may help combat antimicrobial resistance in bovine biofilm-associated MRSA infections.
Ayush medicine shows potential for preventing COVID-19 infections. More high-quality studies are needed to confirm efficacy and safety. Policymakers should consider this evidence for decision-making.
This review examines the potential of medicinal plants to reduce complications of diabetes caused by excessive angiogenesis. Identified plants lowered blood glucose levels and increased body weight, while also decreasing VEGF protein expression and vasculature activity. They have the potential to ameliorate neovascularization activities in diabetes.
Plant extracts showed strong antimicrobial activity against bacteria and fungi, including drug-resistant strains, and worked well with fluconazole. They could be a sustainable solution for infections.
T. cordifolia, a plant used in Ayurvedic medicine, has been effective in treating sciatica pain and diabetic neuropathy.
Researchers found that TC + PL extract reduced insulin resistance and liver weight in mice, while Saroglitazar reversed body weight and lipid level changes. These extracts hold promise for preventing obesity-related complications.
Scientists sequenced the genome of Tinospora cordifolia and identified genes responsible for the synthesis of syringin, a potential therapeutic compound. Syringin showed strong binding affinity for targets of Parkinson's and Alzheimer's diseases. This research provides valuable genomic information and insights for developing therapeutic drugs.
This review explores the use of computational techniques and AI in developing antiviral agents for COVID-19. It identifies potential compounds and stresses the need for experimental validation to expedite the search for effective treatments.
Researchers investigated the relationship between gut microbiota, metabolites, and cardiac contractility in type 2 diabetes. They found that dysbiosis of gut microbiota and secretion of metabolites can directly harm cardiac contractility. This information is important for understanding the causes of diabetic cardiomyopathy and improving patient safety.
The researchers investigated the safety and effectiveness of Tinospora cordifolia (TC) in treating polycystic ovarian syndrome. Understanding its benefits and potential risks can help guide decisions in the lab and improve treatment options for the syndrome.
Study evaluated antibacterial capabilities of Tinospora cordifolia, a medicinal plant with anti-diabetic, anti-inflammatory, and other properties. Relevant for drug development due to rise in antimicrobial resistance.
The study found that a fungal endophyte from a medicinal plant produces bioactive secondary metabolites, showing antimicrobial activity against human pathogens. These findings suggest potential for developing new antimicrobial drugs.
TCE extract protected against Parkinson's disease in mice by reducing oxidative stress, improving mitochondrial function, and reducing cell death. TCE could have potential as a neuroprotective treatment for Parkinson's disease.