This study examined the impact of seed powder from a medicinal plant on the lipid profile of newly diagnosed type II diabetic patients, offering a potential herbal alternative to traditional drugs for managing diabetes.
Researchers investigated the use of herbal medicines for diabetes management. Understanding their effectiveness can potentially impact treatment options for diabetic patients.
Testofen, a Trigonella foenum-graecum seed extract, decreased symptoms of androgen deficiency, improved sexual function, and increased testosterone levels in healthy aging men.
Fenugreek has diverse health benefits like antioxidants, anti-diabetic, and lowering cholesterol. Incorporating it into lab research could lead to potential new treatments.
Fenugreek and black cumin seeds improve blood sugar levels in diabetic rats, reduce insulin resistance, and enhance pancreatic health. Promising potential for natural diabetes treatment.
Fenugreek seed extract, Fenfuro®, can effectively reduce glycation and amyloid formation in proteins, potentially aiding in the treatment of diabetes and neurodegenerative disorders. This research highlights the therapeutic potential of Fenfuro in managing Type 2 diabetes.
Yamogenin from plants has strong cytotoxic effects on gastric cancer cells, induces apoptosis via multiple pathways, and has moderate antioxidant properties. It may be a promising option for treating and preventing gastric cancers.
Researchers extracted and analyzed fenugreek seed mucilage for its antimicrobial properties. They developed biofilms with rosemary oil, improving shelf life of apples. Potential for eco-friendly food packaging.
Scientists found that oxidative stress and inflammation can worsen diabetes. Researchers are exploring plant-based treatments for diabetes with fewer side effects. This could lead to more effective and affordable medications.
Review of dietary supplements affecting testosterone levels. Two extracts, Withania somnifera and Trigonella foenum-graecum, shown to increase T levels in men through different mechanisms. Important for selecting effective supplements for lab use.
Plant-derived bioactive compounds show promise in improving metabolic and immune functions in patients with metabolic disorders. This review highlights the therapeutic potential of phytochemical formulations in alleviating conditions like obesity and diabetes. Further research and clinical trials are needed for validation.
Researchers investigated Trigonelline's potential as an anticancer compound in breast cancer. They identified 14 specific targets and demonstrated its favorable binding affinity. Trigonelline could potentially be used to target breast cancer genes and mutants, but further validation is needed.
Researchers tested the efficacy of three feed supplements containing different additives (probiotics, turmeric, and fenugreek) on bird health and found that the supplement with fenugreek was the most effective. Further research is needed to explore combinations of these substances and optimal dosages.
This study found that extracts from two plants improved blood glucose levels, insulin secretion, and restored serum parameters in diabetic rabbits. These plants may have potential as an alternative treatment for diabetes.
Trigonelline, found in fenugreek seeds, shows potential as an anti-epileptic agent by reducing intrasynaptosomal calcium levels, inhibiting oxidative stress, and regulating cytokines in a kainic acid-induced epilepsy model. It improves behavior, provides neuroprotection, and reduces inflammation.
This study evaluated the effect of 500mg/kg hydroalcoholic extract of leaves on wound healing in diabetic rats. Results showed improved wound healing, better tensiometric indices, accelerated wound contraction, faster re-epithelialisation, improved neovascularisation, better modulation of fibroblasts and macrophages, and moderate collagen formation.
Fenugreek compounds were tested for their potential as anti-cancer agents on benign prostate cancer by targeting the androgen receptor. The compounds chlorogenic acid and kaempferol showed the most promise, indicating their potential for drug development in BPC treatment. (25 words)
This study analyzed the antidiabetic and anti-inflammatory potential of certain herbs. The extracts from showed high inhibitory activity on α-amylase and LOX, while extracts from showed increased α-amylase inhibition activity and extracts from showed pronounced LOX inhibition activity.
Researchers investigated the potential of Swertia chirayita, Trigonella foenum-gracum, and Sesamum indicum in treating diabetes. Understanding the role of innate immunity and inflammation in diabetes-related microvascular problems is crucial.
This study investigates the potential of native Saudi Arabian plants for treating obesity by identifying phytochemicals that regulate metabolism and reduce fat accumulation, offering natural solutions for obesity treatment.
TFG seeds alleviate inflammation and possess traditional medicinal value in Central Asia. Useful for potentially guiding lab decisions on anti-inflammatory research or drug development.
Melatonin at 75 μM reduced harmful nickel effects on fenugreek, improving plant growth, yield, and photosynthesis, while reducing Ni accumulation and oxidative stress. This study suggests melatonin's potential to mitigate Ni stress and enhance crop productivity.
A new study has investigated the potential medical benefits of the ancient medicinal plant Trigonella foenum-graecum (TF-graecum). The study found that TF-graecum contains several active compounds that have antimicrobial, antifungal, antioxidant, wound-healing, anti-diarrheal, hypoglycemic, anti-diabetic, and anti-inflammatory properties. The study also identified potential targets for these compounds in bladder cancer treatment. Further research is needed to explore the potential pharmacological effects of TF-graecum. This research emphasizes the importance of studying traditional medicinal plants for their potential medical benefits.
This study explores the potential of Traditional Arabic or Islamic medicinal plants as adjuvant therapy for COVID-19. Six medicinal plants with antiviral and immunomodulatory properties were studied, suggesting they could be used to control symptoms and possibly lead to a COVID-19 medicinal synthesis. However, further evaluation is advised before using these plants as therapy. No evidence-based medication to combat COVID-19 currently exists despite multiple vaccine strategies.