Phytochemicals, Herbal Extracts, and Dietary Supplements for Metabolic Disease Management.

Comprehensive and effective care techniques have become essential due to the global epidemic dimensions of metabolic disorders, including diabetes, obesity, and cardiovascular ailments. Recent research highlights the potential of dietary supplements, herbal extracts, and phytochemicals in treating metabolic diseases. This abstract conveys the current state of the science in this field by highlighting these findings' underlying mechanisms and potential therapeutic applications. Plant-based diets contain naturally occurring bioactive molecules termed phytochemicals, which have shown promise in treating various metabolic illnesses. Examples include curcumin, flavonoids, and polyphenols' insulin-sensitizing, antioxidant, and antiinflammatory properties. Herbal extracts, derived from ancient medicinal herbs, have been used by people for years to treat a wide range of ailments. Recent studies have shown the efficacy of these strategies in improving lipid profiles, glucose metabolism, and overall cardiovascular health. Omega-3 fatty acids, vitamins, and minerals are just a few of the numerous nutritional supplements that are critical to metabolic health. These vitamins improve insulin sensitivity, regulate blood sugar, and decrease inflammation. Probiotics and prebiotics also affect the gut flora, which significantly affects metabolic function. These natural medicines' ability to treat metabolic diseases either by themselves or in combination with conventional medical interventions. However, when using it therapeutically, one must consider the differences in doses, individual responses, and bioavailability. The article concludes that phytochemicals, plant extracts, and food supplements offer a promising avenue for the management of metabolic illnesses. Comprehensive research, including clinical studies, is needed to ascertain their safety and efficacy characteristics. When added to treatment strategies, these natural therapies could be helpful supplements that improve overall health and the quality of life among individuals with metabolic diseases. Naringenin, a citrus flavonoid, can potentially prevent kidney injury in hyperuricemia by reducing uric acid, inflammation, apoptosis, DNA damage, and activating antioxidants. Further research and professional consultation are essential. Factors contributing to metabolic diseases, current approaches to management nutritional approaches for managing obesityassociated metabolic impairments in the liver and small intestine, and nutritional approaches for managing obesity-associated metabolic dysregulation are also explained briefly.

Oral insulin delivery: Barriers, strategies, and formulation approaches: A comprehensive review.

Diabetes Mellitus is characterized by a hyperglycemic condition which can either be caused by the destruction of the beta cells or by the resistance developed against insulin in the cells. Insulin is a peptide hormone that regulates the metabolism of carbohydrates, proteins, and fats. Type 1 Diabetes Mellitus needs the use of Insulin for efficient management. However invasive methods of administration may lead to reduced adherence by the patients. Hence there is a need for a non-invasive method of administration. Oral Insulin has several merits over the conventional method including patient compliance, and reduced cost, and it also mimics endogenous insulin and hence reaches the liver by the portal vein at a higher concentration and thereby showing improved efficiency. However oral Insulin must pass through several barriers in the gastrointestinal tract. Some strategies that could be utilized to bypass these barriers include the use of permeation enhancers, absorption enhancers, use of suitable polymers, use of suitable carriers, and other agents. Several formulation types have been explored for the oral delivery of Insulin like hydrogels, capsules, tablets, and patches which have been described briefly by the article. A lot of attempts have been made for developing oral insulin delivery however none of them have been commercialized due to numerous shortcomings. Currently, there are several formulations from the companies that are still in the clinical phase, the success or failure of some is yet to be seen in the future.

Nanotechnological advancements in the brain tumor therapy: a novel approach.

Nanotechnological advancements over the past few years have led to the development of newer treatment strategies in brain cancer therapy which leads to the establishment of nano oncology. Nanostructures with high specificity, are best suitable to penetrate the blood-brain barrier (BBB). Their desired physicochemical properties, such as small sizes, shape, higher surface area to volume ratio, distinctive structural features, and the possibility to attach various substances on their surface transform them into potential transport carriers able to cross various cellular and tissue barriers, including the BBB. The review emphasizes nanotechnology-based treatment strategies for the exploration of brain tumors and highlights the current progress of different nanomaterials for the effective delivery of drugs for brain tumor therapy.