Abstract Background Millions of people worldwide suffer from diabetes mellitus, a chronic metabolic disease marked by hyperglycemia that calls for a variety of treatment approaches. Despite the availability of traditional therapies, many people, especially in developing nations, turn to medicinal plants because they are easily accessible, reasonably priced, and thought to have fewer negative effects. Method of review This thorough analysis looks at the historical background, active ingredients, mechanisms of action, and clinical data pertaining to the use of medicinal plants in the treatment of diabetes. The long-standing usage of these plants to reduce the symptoms of diabetes is explained by ethnobotanical research and traditional medical practices from different cultures. Findings The use of plants for medicinal, culinary, and ritualistic purposes is exemplified by ethnobotanical practices. For instance, garlic is valued for health benefits and protection in folklore, neem is sacred in India and used in Ayurvedic medicine, bitter melon is important in Asian cuisine for blood sugar regulation, fenugreek is associated with fertility rituals in India, the olive tree represents peace in the Mediterranean, mango is celebrated in South Asian festivals, jamun is valued for its nutrition and medicinal qualities. Numerous plants have shown notable antidiabetic qualities through considerable research, including in vivo, in vitro, and clinical investigations. For instance, mango leaf extracts inhibit alpha-amylase and improve glucose absorption; jamun seed extracts effectively lower blood sugar levels and show antioxidant properties; garlic has been shown to lower blood glucose levels and improve insulin sensitivity; neem increases insulin production and glucose uptake; fenugreek increases insulin secretion and improves sensitivity; and moringa extracts have been found to significantly lower blood sugar levels in diabetic models. Alkaloids, flavonoids, terpenoids, and glycosides are among the bioactive substances found in these plants, and they all have different modes of action. These include blocking enzymes that break down carbohydrates, such as alpha-glucosidase and alpha-amylase, increasing insulin sensitivity in target tissues, and inducing insulin production from pancreatic beta cells. Although there isn't much evidence that these medicinal plants directly activate AMPA receptors, their capacity to alter different signaling pathways—especially those involving AMPK and insulin signaling—indicates that they are important for managing diabetes and glucose metabolism. Significant interactions with contemporary pharmacology are also shown by other plants, such as fenugreek and olive oil. While its phytoestrogens may interfere with hormone therapy, fenugreek helps control blood sugar levels and may improve the effectiveness of diabetes drugs. The abundance of antioxidants and monounsaturated fats in olive oil may enhance cardiovascular health and help heart disease treatments. Mango and jamun should also be consumed with caution when taking drugs because they can affect blood sugar levels and drug metabolism, respectively. Conclusions The results highlight how crucial it is to combine traditional knowledge with contemporary medical techniques in order to fully utilize medicinal plants' therapeutic potential in the treatment of diabetes.
Ayenew et al. (Mon,) studied this question.