Endothelial function plays a pivotal role in cardiovascular health,and dysfunction in this context diminishes vasorelaxation concomitant with endothelial activity.The nitric oxide-cyclic guanosine monophosphate pathwa...Endothelial function plays a pivotal role in cardiovascular health,and dysfunction in this context diminishes vasorelaxation concomitant with endothelial activity.The nitric oxide-cyclic guanosine monophosphate pathway,prostacyclin-cyclic adenosine monophosphate pathway,inhibition of phosphodiesterase,and the opening of potassium channels,coupled with the reduction of calcium levels in the cell,constitute critical mechanisms governing vasorelaxation.Cardiovascular disease stands as a significant contributor to morbidity and mortality among individuals with diabetes,with adults afflicted by diabetes exhibiting a heightened cardiovascular risk compared to their non-diabetic counterparts.A plethora of medicinal plants,characterized by potent pharmacological effects and minimal side effects,holds promise in addressing these concerns.In this review,we delineate various medicinal plants and their respective biochemical constituents,showcasing concurrent vasorelaxant and anti-diabetic activities.展开更多
AIM To examine the efficacy of three extraction techniques: Soxhlet-extraction(SE), cold-maceration(CM) and microwave-assisted-extraction(MAE) using 80% methanol as solvent. METHODS The study was performed on each of ...AIM To examine the efficacy of three extraction techniques: Soxhlet-extraction(SE), cold-maceration(CM) and microwave-assisted-extraction(MAE) using 80% methanol as solvent. METHODS The study was performed on each of 50 g of Vernonia amygdalina(VA) and Occimum gratissimum(OG) leaves respectively. The percentage yield, duration of extraction, volume of solvent used, qualitative and quantitative phytoconstituents present was compared. The biological activities(hypoglycemic effect) were investigated using albino wistar rat model of diabetes mellitus(n = 36) with a combined dose(1:1) of the two plants leaf extracts(250 mg/kg b.w.) from the three methods. Theextracts were administered orally, once daily for 21 d.RESULTS In this report, the percentage VA extract yield from MAE was highest(20.9% ± 1.05%) within 39 min using 250 m L of solvent, when compared to the CM(14.35% ± 0.28%) within 4320 min using 900 m L of solvent and SE(15.75% ± 0.71%) within 265 min using 500 m L of solvent. The percentage differences in OG extract yield between: MAE vs SE was 41.05%; MAE vs CM was 46.81% and SE vs CM was 9.77%. The qualitative chemical analysis of the two plants showed no difference in the various phytoconstituents tested, but differs quantitatively in the amount of the individual phytoconstituents, as MAE had significantly high yield(P > 0.05) on phenolics, saponins and tannins. SE technique gave significantly high yield(P > 0.05) on alkaloid, while CM gave significant high yield on flavonoids. The extracts from CM exhibited a significantly(P > 0.05) better hypoglycemic activity within the first 14-d of treatment(43.3% ± 3.62%) when compared to MAE(36.5% ± 0.08%) and SE methods(33.3% ± 1.60%). However, the percentage hypoglycemic activity, 21 d post-treatment with 250 mg/kg b.w. extract from MAE was 72.6% ± 1.03% and it was more comparable to 10 mg/kg b.w. glibenclamide treated group(75.0% ± 0.73%), unlike the SE(69.5% ± 0.71%) and CM(69.1% ± 1.03%). CONCLUSION CM technique produces extract with better hypoglycemic activity, whereas; MAE is a better option for high yield of phytoconstituents using less solvent within a short time.展开更多
Diabetes is a metabolic illness defined by hyperglycemia that affects 10% of the world’s population. Diabetic complications such as blindness, kidney failure, and heart failure can develop if left untreated and are m...Diabetes is a metabolic illness defined by hyperglycemia that affects 10% of the world’s population. Diabetic complications such as blindness, kidney failure, and heart failure can develop if left untreated and are made worse by oxidative stress. Oxidative stress contributes to the rise of diabetic complications, particularly type-2 diabetes. In the blood vessels of diabetic individuals, it causes endothelial dysfunction. Diabetes is one of the leading causes of death worldwide. Nowadays, it is alarming that the number of diabetic patients is increasing dramatically. There are plenty of anti-diabetic drugs available on the market, but they possess several adverse effects and do not completely cure diabetes. It has now become a financial burden on patients, their families, and society as well. Medicinal plants have gained popularity in developed and developing countries over the last two decades because of their vast natural sources and lack of harmful effects compared to modern allopathic medications. According to the World Health Organization, traditional medicines, which are mostly manufactured from plants, are still used by 80% of the population in developing countries for the management and curing of diseases. This review includes 81 Bangladeshi medicinal plants from 51 different families that can be used to treat diabetes and oxidative stress. Among them, Psidium guajava (L.), Aloe vera, Catharanthus roseus, Allium sativum, Annona squamosa, Cinnamon zeylaniucm, Amaranthus esculentus, Eugenia jambolana, Azadirachta indica, Moringa oleifera, Spondias pinnata, Coccinia grandis (L.), Momordica charantia L., Heretiera fomes, Trigonella foenum-graecum were most potent. The fundamental purpose of our study is to find out and highlight certain medicinal plants in Bangladesh that have anti-diabetic and antioxidant capabilities so that the researchers can develop newer anti-diabetic medications with minimal side effects to treat metabolic dysfunction, diabetic complications, and oxidative stress more effectively.展开更多
Diabetes is a chronic metabolic disorder that affects millions of people worldwide and takes a heavy toll on human life. Treatment of diabetics often poses a problem in selection of the proper drug, its dose and unwan...Diabetes is a chronic metabolic disorder that affects millions of people worldwide and takes a heavy toll on human life. Treatment of diabetics often poses a problem in selection of the proper drug, its dose and unwanted side effects. Therefore, newer drugs with the least side effects but with highest efficiency are being relentlessly searched for. In recent years, nanotechnology has given new hope for the formulation of various drugs against a myriad of diseases, including diabetes. This review tries to give an overview of the advantages of various new drugs being used, including a wide range of nanoformulations of orthodox as well complementary and alternative medicines. Several studies and research reports based on nanotechnological approaches in the formulation of anti-diabetic drugs have pointed out the fact that research in the formulation of nanodrugs improved strategies for combating diabetes based on the plausible molecular mechanism of action of the drugs. Furthermore, attempts have also been made to delineate the optimum drug concentration and time of exposure in order to recommend a scientifically validated drug dose response in developing different therapeutic strategies. Thus, to a considerable extent, recent studies have contributed towards improving thelife expectancy and quality of life of diabetics, through both targeted orthodox medicine and complementary medicine, particularly those obtained from natural resources.展开更多
Diabetes mellitus is a life-threatening chronic metabolic disease caused by lack of insulin and/or insulin dysfunction,characterized by high levels of glucose in the blood(hyperglycemia).Millions worldwide suffer from...Diabetes mellitus is a life-threatening chronic metabolic disease caused by lack of insulin and/or insulin dysfunction,characterized by high levels of glucose in the blood(hyperglycemia).Millions worldwide suffer from diabetes and its complications.Significantly,it has been recognized that type 2 diabetes is an important preventable disease and can be avoided or delayed by lifestyle intervention.Presently,there are many chemical and biochemical hypoglycemic agents(synthetic drugs),that are used in treating diabetes and are effective in controlling hyperglycemia.However,as they may have harmful side-effects and fail to significantly alter the course of diabetic complications,natural anti-diabetic drugs from medicinal plants have attracted a great deal of attention.Medicinal mushrooms have been valued as a traditional source of natural bioactive compounds over many centuries and have been targeted as potential hypoglycemic and anti-diabetic agents.Bioactive metabolites including polysaccharides,proteins,dietary fibres,and many other biomolecules isolated from medicinal mushrooms and their cultured mycelia have been shown to be successful in diabetes treatment as biological antihyperglycemic agents.In this review we discuss the biological nature of diabetes and,in particular,explore some promising mushrooms that have experimental anti-diabetic properties,preventing or reducing the development of diabetes mellitus.The importance of medicinal mushrooms as agents of medical nutrition therapy and how their metabolites can be used as supportive candidates for prevention and control of diabetes is explored.Future prospects for this field of study and the difficulties and constraints that might affect the development of rational drug products from medicinal mushrooms are discussed.展开更多
The use of natural products as a source of remedies has long history since ancient times.Currently,medicinal plants are traditional practices for an extensive range of therapeutics and pharmacological activities like ...The use of natural products as a source of remedies has long history since ancient times.Currently,medicinal plants are traditional practices for an extensive range of therapeutics and pharmacological activities like hypoglycemic,immunological,antiviral,anti-inflammatory,anti-hepatic,cardiovascular and central nervous effect.In the past,the use of plant based medicines was mainly restricted to developing countries because of insufficient resources,but currently the trend is changed and natural products as a source of medicines are growing rapidly in developed countries.It is confirmed from research articles that nearly about 75%-80%of the reserved zone inhabitants used natural products for their health remedies.In all,about 250000-500000 species of plants exist worldwide and almost 800 plants have been documented for use in folklore systems of medicine.Regarding to this,Malaysia is being accepted as one of the largest biodiversity countries.In Malaysia,12000 species of natural products exist and 1200 are documented to have remedial potential against various diseases.In the market,a variety of allopathic drugs are available,but are linked to various side effects.Hence,there is rising interest in the direction to plant based medicines remedies with a basic tactic towards the nature.The anti-diabetic drugs from natural products source in current use and their same way of producing action are preferred mainly due to affordable price,easy availability and minor harmful effect on human beings.Therefore,the aim of the present research work was to review various Malaysian medicinal plants having potential in attenuation of high level of blood glucose.All over the world,diabetes mellitus is claimed to be one of the most common chronic hereditary non-communicable disease,fourth leading cause of mortality in the most developed countries.The disease is also spreading in many developing and newly industrialized nations.According to International Diabetes Federation,the diabetes will affect 592 million people in 2035.展开更多
文摘Endothelial function plays a pivotal role in cardiovascular health,and dysfunction in this context diminishes vasorelaxation concomitant with endothelial activity.The nitric oxide-cyclic guanosine monophosphate pathway,prostacyclin-cyclic adenosine monophosphate pathway,inhibition of phosphodiesterase,and the opening of potassium channels,coupled with the reduction of calcium levels in the cell,constitute critical mechanisms governing vasorelaxation.Cardiovascular disease stands as a significant contributor to morbidity and mortality among individuals with diabetes,with adults afflicted by diabetes exhibiting a heightened cardiovascular risk compared to their non-diabetic counterparts.A plethora of medicinal plants,characterized by potent pharmacological effects and minimal side effects,holds promise in addressing these concerns.In this review,we delineate various medicinal plants and their respective biochemical constituents,showcasing concurrent vasorelaxant and anti-diabetic activities.
文摘AIM To examine the efficacy of three extraction techniques: Soxhlet-extraction(SE), cold-maceration(CM) and microwave-assisted-extraction(MAE) using 80% methanol as solvent. METHODS The study was performed on each of 50 g of Vernonia amygdalina(VA) and Occimum gratissimum(OG) leaves respectively. The percentage yield, duration of extraction, volume of solvent used, qualitative and quantitative phytoconstituents present was compared. The biological activities(hypoglycemic effect) were investigated using albino wistar rat model of diabetes mellitus(n = 36) with a combined dose(1:1) of the two plants leaf extracts(250 mg/kg b.w.) from the three methods. Theextracts were administered orally, once daily for 21 d.RESULTS In this report, the percentage VA extract yield from MAE was highest(20.9% ± 1.05%) within 39 min using 250 m L of solvent, when compared to the CM(14.35% ± 0.28%) within 4320 min using 900 m L of solvent and SE(15.75% ± 0.71%) within 265 min using 500 m L of solvent. The percentage differences in OG extract yield between: MAE vs SE was 41.05%; MAE vs CM was 46.81% and SE vs CM was 9.77%. The qualitative chemical analysis of the two plants showed no difference in the various phytoconstituents tested, but differs quantitatively in the amount of the individual phytoconstituents, as MAE had significantly high yield(P > 0.05) on phenolics, saponins and tannins. SE technique gave significantly high yield(P > 0.05) on alkaloid, while CM gave significant high yield on flavonoids. The extracts from CM exhibited a significantly(P > 0.05) better hypoglycemic activity within the first 14-d of treatment(43.3% ± 3.62%) when compared to MAE(36.5% ± 0.08%) and SE methods(33.3% ± 1.60%). However, the percentage hypoglycemic activity, 21 d post-treatment with 250 mg/kg b.w. extract from MAE was 72.6% ± 1.03% and it was more comparable to 10 mg/kg b.w. glibenclamide treated group(75.0% ± 0.73%), unlike the SE(69.5% ± 0.71%) and CM(69.1% ± 1.03%). CONCLUSION CM technique produces extract with better hypoglycemic activity, whereas; MAE is a better option for high yield of phytoconstituents using less solvent within a short time.
文摘Diabetes is a metabolic illness defined by hyperglycemia that affects 10% of the world’s population. Diabetic complications such as blindness, kidney failure, and heart failure can develop if left untreated and are made worse by oxidative stress. Oxidative stress contributes to the rise of diabetic complications, particularly type-2 diabetes. In the blood vessels of diabetic individuals, it causes endothelial dysfunction. Diabetes is one of the leading causes of death worldwide. Nowadays, it is alarming that the number of diabetic patients is increasing dramatically. There are plenty of anti-diabetic drugs available on the market, but they possess several adverse effects and do not completely cure diabetes. It has now become a financial burden on patients, their families, and society as well. Medicinal plants have gained popularity in developed and developing countries over the last two decades because of their vast natural sources and lack of harmful effects compared to modern allopathic medications. According to the World Health Organization, traditional medicines, which are mostly manufactured from plants, are still used by 80% of the population in developing countries for the management and curing of diseases. This review includes 81 Bangladeshi medicinal plants from 51 different families that can be used to treat diabetes and oxidative stress. Among them, Psidium guajava (L.), Aloe vera, Catharanthus roseus, Allium sativum, Annona squamosa, Cinnamon zeylaniucm, Amaranthus esculentus, Eugenia jambolana, Azadirachta indica, Moringa oleifera, Spondias pinnata, Coccinia grandis (L.), Momordica charantia L., Heretiera fomes, Trigonella foenum-graecum were most potent. The fundamental purpose of our study is to find out and highlight certain medicinal plants in Bangladesh that have anti-diabetic and antioxidant capabilities so that the researchers can develop newer anti-diabetic medications with minimal side effects to treat metabolic dysfunction, diabetic complications, and oxidative stress more effectively.
文摘Diabetes is a chronic metabolic disorder that affects millions of people worldwide and takes a heavy toll on human life. Treatment of diabetics often poses a problem in selection of the proper drug, its dose and unwanted side effects. Therefore, newer drugs with the least side effects but with highest efficiency are being relentlessly searched for. In recent years, nanotechnology has given new hope for the formulation of various drugs against a myriad of diseases, including diabetes. This review tries to give an overview of the advantages of various new drugs being used, including a wide range of nanoformulations of orthodox as well complementary and alternative medicines. Several studies and research reports based on nanotechnological approaches in the formulation of anti-diabetic drugs have pointed out the fact that research in the formulation of nanodrugs improved strategies for combating diabetes based on the plausible molecular mechanism of action of the drugs. Furthermore, attempts have also been made to delineate the optimum drug concentration and time of exposure in order to recommend a scientifically validated drug dose response in developing different therapeutic strategies. Thus, to a considerable extent, recent studies have contributed towards improving thelife expectancy and quality of life of diabetics, through both targeted orthodox medicine and complementary medicine, particularly those obtained from natural resources.
基金supported by a grant of the 1551 French-Thai cooperation PHC SIAM 2011(project 25587RA)the grants“Taxonomy,Phylogeny and cultivation of Lentinus species in northern Thailand”(MFU/54101020048)+1 种基金from Mae Fah Luang University research division and financially supported by the project“Value added products from basidiomycetes:Putting Thailand’s biodiversity to use”(BRN049/2553)the National Research Council of Thailand(NRCT)to study medicinal fungi.
文摘Diabetes mellitus is a life-threatening chronic metabolic disease caused by lack of insulin and/or insulin dysfunction,characterized by high levels of glucose in the blood(hyperglycemia).Millions worldwide suffer from diabetes and its complications.Significantly,it has been recognized that type 2 diabetes is an important preventable disease and can be avoided or delayed by lifestyle intervention.Presently,there are many chemical and biochemical hypoglycemic agents(synthetic drugs),that are used in treating diabetes and are effective in controlling hyperglycemia.However,as they may have harmful side-effects and fail to significantly alter the course of diabetic complications,natural anti-diabetic drugs from medicinal plants have attracted a great deal of attention.Medicinal mushrooms have been valued as a traditional source of natural bioactive compounds over many centuries and have been targeted as potential hypoglycemic and anti-diabetic agents.Bioactive metabolites including polysaccharides,proteins,dietary fibres,and many other biomolecules isolated from medicinal mushrooms and their cultured mycelia have been shown to be successful in diabetes treatment as biological antihyperglycemic agents.In this review we discuss the biological nature of diabetes and,in particular,explore some promising mushrooms that have experimental anti-diabetic properties,preventing or reducing the development of diabetes mellitus.The importance of medicinal mushrooms as agents of medical nutrition therapy and how their metabolites can be used as supportive candidates for prevention and control of diabetes is explored.Future prospects for this field of study and the difficulties and constraints that might affect the development of rational drug products from medicinal mushrooms are discussed.
文摘The use of natural products as a source of remedies has long history since ancient times.Currently,medicinal plants are traditional practices for an extensive range of therapeutics and pharmacological activities like hypoglycemic,immunological,antiviral,anti-inflammatory,anti-hepatic,cardiovascular and central nervous effect.In the past,the use of plant based medicines was mainly restricted to developing countries because of insufficient resources,but currently the trend is changed and natural products as a source of medicines are growing rapidly in developed countries.It is confirmed from research articles that nearly about 75%-80%of the reserved zone inhabitants used natural products for their health remedies.In all,about 250000-500000 species of plants exist worldwide and almost 800 plants have been documented for use in folklore systems of medicine.Regarding to this,Malaysia is being accepted as one of the largest biodiversity countries.In Malaysia,12000 species of natural products exist and 1200 are documented to have remedial potential against various diseases.In the market,a variety of allopathic drugs are available,but are linked to various side effects.Hence,there is rising interest in the direction to plant based medicines remedies with a basic tactic towards the nature.The anti-diabetic drugs from natural products source in current use and their same way of producing action are preferred mainly due to affordable price,easy availability and minor harmful effect on human beings.Therefore,the aim of the present research work was to review various Malaysian medicinal plants having potential in attenuation of high level of blood glucose.All over the world,diabetes mellitus is claimed to be one of the most common chronic hereditary non-communicable disease,fourth leading cause of mortality in the most developed countries.The disease is also spreading in many developing and newly industrialized nations.According to International Diabetes Federation,the diabetes will affect 592 million people in 2035.