Type 2 diabetes prevalence

Diabetes mellitus is defined as hyperglycaemia (fasting > 7 mM and/or 2 h postprandial >11.1 mM) due to absolute or relative lack of insulin. The most common forms are type 1 diabetes (prevalence 0.25%), with absolute lack of insulin, and type 2 diabetes (prevalence 4-6%) which is due to the combination of insulin resistance and insufficient insulin secretion. 

The prevalence of Type 2 Diabetes (T2D) is increasing world-wide and considered one of the main threats to human health in the 21st century. In 2010, 221 million patients are expected to be diabetic (compared to 151 million in the year 2000). The increase in diabetes prevalence is considered to be secondary to changes in human lifestyle accompanied by physical inactivity and unlimited food supply. Skeletal muscle insulin resistance, defined as the reduced response of skeletal muscle to a given dose of insulin, is a common finding in patients with type 2 diabetes mellitus and can be found before the onset and predict the development of the disease. Several factors determine skeletal muscle insulin sensitivity and among others alterations in fatty acid metabolism have been proposed. ... 

Diabetes mellitus type 2 The UAE has the second highest rate of type 2 diabetes prevalence in the world (19.6 %), projected to increase to 63 % by the year 2030. 

Type 2 DM is the most prevalent form of diabetes and accounts for approximately 90% to 95% of all diagnosed cases. Type 2 DM is usually slow and progressive in its development and often is preceded by pre-diabetes. Rising blood glucose levels result from increasing insulin resistance and impaired insulin secretion leading to a situation of relative insulin deficiency. 

Schizophrenics have a higher prevalence of type 2 diabetes than nonschizophrenics. Antipsychotics may adversely affect glucose levels in diabetic patients. New onset diabetes has been reported with use of the SGAs. Clozapine and olanzapine may be more likely, and aripiprazole may be less likely to cause this. 

As the prevalence of obesity increases worldwide, so does the prevalence of associated co-morbidities type-2 diabetes, chronic obstructive sleep apnoea, cardiovascular disease (hyper-tension, coronary artery disease and congestive heart failure, stroke and peripheral vascular disease), fatty liver disease, various malignancies (Table 7.2), gallstones, subfertility, musculo-skeletal problems and depression. 

Type 2 diabetes is by far the more prevalent form of diabetes in the United States, with 10 miiiion diagnosed cases, and new cases are being diagnosed at an increasing rate of> 600,000 per year. 

Biguanides can be agents of first choice only in Type II diabetic patients with serious overweight as in these patients insulin resistance has a high prevalence. 

In the adult population, the prevalence of overt hypothyroidism is 19 per 1000 women and 1 per 1000 men with annual incidence of overt hypothyroidism is 4 per 1000 women and 0.6 per 1000 men. Subclinical hypothyroidism is also more common in women, the incidence increases with age, with up to 10% of women older than 60 years having an increased thyroid-stimulating hormone concentration. Subclinical hypothyroidism is more common in people who have been treated for hyperthyroidism with radioactive iodine or surgery, and in those with organ-specific autoimmune diseases, such as pernicious anaemia, type 1 diabetes mellitus, or Addison s disease. 

Over 5% of the population of western nations is afflicted with diabetes. TTie most prevalent form of diabetes, non-insulin-dependent diabetes mellitus (NIDDM, or type 11), is commonly associated with obesity and hypertension, and is believed to be the consequence of altered insulin action or insulin secretion (for review see Defronzo, 1988 Defronzo and Ferrannini, 1991). Insulin-dependent diabetes mellitus (IDDM, or type 1 diabetes) accounts for approximately 10% of all cases of diabetes. IDDM is characterized by specific destruction of insulin secreting /3-cells found in islets of Langerhans. Destruction of 80-90% of islet /3-cells causes insulin deficiency and the inability to regulate blood glucose levels. 

Metformin can cause reduced vitamin Bi2 absorption, reducing serum Bi2 concentrations and causing megaloblastic anemia (87), the prevalence of which was 9% in 600 patients with type 2 diabetes taking biguanides (phen-formin or metformin) for a mean of 12 years (88). In 353 patients with type 2 diabetes, treated with insulin, who took metformin for 16 weeks in a placebo-controlled study, metformin increased serum homocysteine concentrations by 4% and reduced serum folate by 7% and vitamin Bi2 by 14% (89). 

Amin R, Ross K, Acerini CL, Edge JA, Warner J, Dunger DB. Hypoglycemia prevalence in prepubertal children with type 1 diabetes on standard insulin regimen use of continuous glucose monitoring system. Diabetes Care 2003 26(3) 662-7. 

In patients with chronic hepatic B or C the respective prevalences of pancreatic autoantibodies increased from 2% and 3% at baseline to 5% and 7% after interferon (544). In all, 31 published cases of type 1 diabetes mellitus attributed to interferon alfa treatment were detailed, mostly in patients with hepatitis C. Irreversible diabetes required permanent insulin treatment in all but eight cases. At least one marker of pancreatic autoimmunity was positive in nine of 18 patients before treatment, and in 23 of 30 patients at the onset of diabetes. In accordance with these results and the likelihood of a genetic predisposition, the authors recommended screening for islet cell and glutamic acid decarboxylase autoantibodies before and during interferon alfa treatment. However, owing to the low number of reported cases and the paucity of studies that have examined the relation between pancreatic autoimmunity and the occurrence of diabetes, further research on the predictive potential of such a systematic investigation is warranted. 

The existence of non-HLA genes in many of the HLA associated diseases was established from theoretical considerations involving population prevalence, risks to relatives, and HLA IBD values in affected sib pairs (28-30). Type-1 diabetes shows an increased risk in siblings over population prevalence (Xs) of 15 in Caucasian populations (30), of which HLA contributes 3.4 approximately 45% of the type-1 diabetes genetic component under a multiplicative model (31). 

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