Medicinal herbal compounds for the prevention and treatment...

Drug – bio-affecting and body treating compositions – Plant material or plant extract of undetermined constitution... – Containing or obtained from roseaceae

Reexamination Certificate

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C424S725000, C424S728000, C424S732000, C424S639000, C424S641000, C424S655000, C514S866000

Reexamination Certificate

active

06770307

ABSTRACT:

FIELD OF THE INVENTION
The present invention is related to a medicinal herbal composition for preventing or treating diabetes. The invention also relates to a method of preventing or treating diabetes by administering the composition to an individual.
BACKGROUND OF THE INVENTION
Diabetes mellitus is a common, serious disease characterized by hyperglycemia. The disease can be divided into two major subclasses: insulin-dependent diabetes mellitus (IDDM), also known as type I diabetes, and non-insulin-dependent diabetes mellitus (NIDDM), also known as type II diabetes (World Health Organization Study Group. Diabetes mellitus. WHO Tech. Rep. Ser. 727:1-113, 1985). IDDM results from insulin deficiency caused by cell-mediated autoimmune destruction of pancreatic beta cells, and generally develops in the young (Yoon J W., Insulin-dependent diabetes mellitus. In: Roitt I M and Delves P J. (Eds.) Encyclopedia of Immunology, Second Edition. Academic Press Ltd., London, pp. 1390-1398, 1998; Bach J F., Insulin-dependent diabetes mellitus as a beta cell targeted disease of immunoregulation. J. Autoimm. 8:439-463, 1995). IDDM accounts for approximately 10-15% of the diabetic population worldwide (World Health Organization Study Group. Diabetes mellitus. WHO Tech. Rep. Ser. 727:1-113, 1985). In contrast, NIDDM results from a variable combination of insulin resistance and insulin deficiency, and generally develops in adults (Jun H S, et al., Pathogenesis of non-insulin-dependent (Type II) diabetes mellitus (NIDDM)—Genetic predisposition and metabolic abnormalities. Advanced Drug Delivery Reviews 35:157-177, 1999; DeFronzo R A., The triumvirate: &bgr;-cell, muscle, liver: a collusion responsible for NIDDM. Diabetes 37:667-687, 1988). However, NIDDM can also develop at a younger age, as seen in the maturity-onset diabetes of the young (Pirart J., Diabetes mellitus and its degenerative complications: a prospective study of 4400 patients observed between 1947 and 1973. Diabetes Care 1:168-188, 1978). NIDDM accounts for over 85% of the diabetic population worldwide. Both IDDM and NIDDM can cause microvascular and macrovascular complications, resulting in increases in morbidity and mortality (Fajans S S, et al., Prediabetes, subclinical diabetes, and latent clinical diabetes: interpretation, diagnosis and treatment. In: Leibel D S, Wrenshall G S. (Eds.) On the Nature and Treatment of Diabetes. Excerpta Medica, Amsterdam, pp. 641-656, 1965).
NIDDM is a complex disease that is currently thought to be influenced by more than a single gene or environmental factor (Ghosh S, et al., Genetic analysis of NIDDM. Diabetes 45:1-14, 1995; Kobberling J. Studies on the genetic heterogeneity of diabetes mellitus. Diabetologia 7:46-49, 1971; Rotter J L, et al., Genetics of diabetes mellitus. In: Rifkin H, Porte D (Eds.) Diabetes Mellitus Theory and Practice. Elsevier, N.Y., pp. 378-413, 1990). Familial aggregation and the high concordance rate for the disease (60-100%) in identical twins suggest that genetic factors play an important role in the pathogenesis of NIDDM (O'Rahilly S, et al., Type 2 (noninsulin dependent) diabetes mellitus. New genetics for old nightmares. Diabetologia 31:407-414, 1988; Barnett A H, et al., Diabetes in identical twins. A study of 200 pairs. Diabetologia 20:87-93, 1981). In addition, environmental factors such as obesity, physical activity and diet also play a strong role in the development of the disease (Knowler W C, et al., Gm and type 2 diabetes mellitus: an association in American Indians with genetic admixture. Am. J. Hum. Genet. 43:520-526, 1988; Bennett P H, et al., Epidemiology and natural history of NIDDM: non-obese and obese. In: Alberti KGMM, DeFronzo R A, Keen H, Zimmett P (Eds.) International Textbook of Diabetes Mellitus. Wiley, N.Y., pp. 147-176, 1992; Helmrich S P, et al., Physical activity and reduced occurrence of NIDDM. N. Engl. J. Med 325:147-152, 1991). Although the relative contribution of genetic and environmental factors to the development of NIDDM differs among individuals, patients generally have two common metabolic abnormalities, insulin resistance and defects in glucose-stimulated insulin secretion, which lead to the disease state (Saad M F, et al., A two step model for development of non-insulin-dependent diabetes. Am. J. Med. 90:229-235, 1991; DeFronzo R A, et al., Pathogenesis of NIDDM: A balanced overview. Diabetes Care 15:318-368, 1992; Lillioja S, et al., Insulin resistance and insulin secretory dysfunction as precursors of non-insulin-dependent diabetes mellitus. N. Engl. J. Med. 329:1988-1992, 1993).
The insensitivity of the target tissue in response to insulin (insulin resistance) appears to develop first in genetically predisposed subjects in the presence of the necessary environmental factors (Jun H S, et al., Pathogenesis of non-insulin-dependent (Type II) diabetes mellitus (NIDDM)—Genetic predisposition and metabolic abnormalities. Advanced Drug Delivery Reviews 35:157-177, 1999). To compensate for this, that is, to lower blood glucose and maintain normoglycemia, the secretion of insulin from the beta cells increases, resulting in hyperinsulinemia. Over time, the insulin resistance worsens, and the compensatory action fails, leading eventually to impaired glucose tolerance. Insulin secretion reaches a plateau, and beta cell function is impaired, resulting in insulin deficiency, and leading finally to hyperglycemic NIDDM. In addition, hyperglycemia itself leads to impaired insulin resistance and insulin secretion, exacerbating the disease.
The regulation of diet and exercise and/or treatment with insulin or hypoglycemia drugs have been used for the control of diabetes. Treatment with these agents is successful in some cases, but the mortality index continues to rise. Insulin treatment provides symptomatic relief rather than a cure for NIDDM. Hypoglycemic agents such as sulfonylureas and biguanides (metformin) also lower blood glucose, but again, simply provide symptomatic relief. Sulfonylureas lower the blood glucose level by stimulating the release of insulin from pancreatic beta cells. These agents directly stimulate insulin release by closing adenosyl triphosphate (ATP)-sensitive potassium channels and depolarizing the cell membrane (Aguilar-Bryan L, et al., Cloning of the beta cell high-affinity sulfonylurea receptor: a regulator of insulin secretion. Science 268:423-426, 1995; Tan G H, et al., Pharmacologic treatment options for non-insulin-dependent diabetes mellitus. Mayo Clinic Proceedings 71:763-768, 1996; Lubbos H, et al., Oral hypoglycemic agents in type II diabetes mellitus. American Family Physician. 52:2075-2078, 1995) The side effects of sulfonylureas include hypoglycemia, renal and hepatic disease, gastrointestinal disturbances, increased cardiovascular mortality, dermatological reactions, dizziness, drowsiness and headache. Biguanides lower blood glucose levels by reducing intestinal glucose absorption and hepatic glucose, but not by stimulating insulin secretion. The major side effects of biguanidine are lactic acidosis and increased cardiovascular mortality. Alpha glucosidase inhibitors inhibit intestinal alpha glucosidases and consequently delay the digestion of sucrose and complex carbohydrates. The side effects of alpha glucosidase inhibitors include gastrointestinal side effects and hypoglycemia. Thiazolidinediones improve insulin resistance directly, enhancing the effects of circulating insulin, directly stimulate peripheral glucose uptake and inhibit glucose production in the liver. Thiazolidinediones are only effective in the presence of insulin and may cause red blood cell abnormalities, and headache.
Therefore, more effective drugs for the treatment of diabetes are clearly needed. We have long been interested in medicinal plants as a possible source for the development of hypoglycemic agents, and we have tried to halt the severe long-term complications of NIDDM in patients using extracts from various medicinal plants. We screened many plants and found that certain combinations of plant extracts have hypoglycemi

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