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An account is given of the present conception of asymptomatic (chemical) diabetes in the pediatric age group, which also has been named MODY (maturity-onset type of diabetes of young people). Long-term studies show that about 10% will eventually decompensate to overt diabetes. In contrast to classical juvenile-onset type of diabetes the inheritance of MODY seems to be autosomal dominant in many cases. Some authors have suggested that insulin resistance exists in non-obese patients with asymptomatic diabetes, but this view is not supported by observations of the author. Obese patients should reduce their body fat, but other therapeutic approaches are difficult to evaluate because of the normal fluctuation of the disease. There is no general agreement in the literature concerning the value of insulin treatment. The author supports the view that insulin treatment should be started in the late stages of chemical diabetes just before symptomatic disease emerges. In the long run this approach may ameliorate the condition due to the preservation of some beta-cell function for long periods. An unsettled question is whether early insulin treatment in asymptomatic diabetes will delay diabetic vascular complications.
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PMID:Asymptomatic diabetes in childhood and adolescence. A review. 35 15

Nineteen diabetics aged 9 to 18 years with the MODY type were investigated, incl. their families, by the oGTT. Diabetes in the parents was nine times and in siblings four times more frequent than in families of adolescents with IDDM. In parents the manifest form predominated, in siblings PGT. Vertical transmission of diabetes in three consecutive generations was found only in the MODY type (in 35%). Diabetes with the MODY type and their diabetic siblings did not differ significantly as to their mild glucose intolerance (blood sugar level up to 13 mmol/l), and their mild diabetic phenotypes did not differ either. Similarly diabetics with IDDM and their diabetic siblings did not differ substantially as to their severe glucose intolerance (blood sugar level up to 21 mmol/l), and their severe diabetic phenotypes did not differ either. IRI levels revealed five times a hyperinsulinaemic and three times a normal insulinaemic response. Obese diabetics were treated with a reducing diet and physical activity. To non-obese diabetics, if the above procedure was not sufficiently successful, sulphonylurea preparation were also administered. During check-up examinations fasting values and values three hours after a meal lower than 6.1 mmol/l were required. In the course of a four- to ten-year follow up it did not change. Existence of the MODY type already macroangiopathic complications developed; in one diabetic the glucose tolerance improved, in the remainder it did not change. Existence of the MODY type already in adolescents justifies early detection in families with a cumulated incidence of NIDDM and prophylactic procedures ensuring euglycaemia in confirmed diabetics.
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PMID:[MODY type diabetes mellitus in children and adolescents]. 275 88

NIDDM is a heterogeneous disease and subgroups of NIDDM include MODY (Maturity Onset Diabetes of the Young), Malnutrition-related diabetes (MRDM) and Fibrocalculus pancreatic diabetes (FCPD). Endocrine cell population is relatively unchanged in NIDDM: B-cells are reduced by up to 30% and A-cells increased by 10%. Islet amyloid is found in 96% of subjects occupying up to 80% of the islet associated with a reduction in B-cells. Amyloid formation is unlikely to cause diabetes but progressive accumulation increases the severity of the disease. Islet amyloid is formed from the islet amyloid polypeptide (IAPP), a normal constituent of B-cells, co-secreted with insulin. The causal factors for IAPP fibrillogenesis are unknown but abnormal synthesis or overproduction could be involved: stimulation of B-cell secretion in NIDDM by obesity, hyperglycaemia or suphonylurea therapy may promote amyloidosis and further aggravate islet pathology. A mutation of the glucokinase gene in MODY leads to diminished B-cell secretion but not amyloid formation. Diabetes and mutations of mitochondrial DNA is associated with poorly developed islet structure. Exocrine pancreatic size is reduced and there is evidence of sub-clinical chronic pancreatitis in NIDDM. In MRDM and FCPD, chronic pancreatitis and exocrine necrosis is associated with reduced insulin secretion. Unlike cystic fibrosis where islet amyloid is present in diabetic individuals, amyloid is absent from subjects with FCPD. Pathological changes in the exocrine and endocrine pancreas in NIDDM results from and contributes to the pathophysiology of insulin secretion in NIDDM.
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PMID:Pancreatic pathology in non-insulin dependent diabetes (NIDDM). 852 18

A definitive assessment of the relative roles of insulin resistance and insulin deficiency in the etiology of NIDDM is hampered by several problems. 1) Due to better methodology, data on insulin resistance are generally more accurate and consistent than data on insulin deficiency. 2) In source data, case-control studies are prone to selection bias, while epidemiological associations, whether cross-sectional or longitudinal, are liable to misinterpretation. 3) Insulin secretion and action are physiologically interconnected at multiple levels, so that an initial defect in either is likely to lead with time to a deficit in the companion function. The fact that both insulin resistance and impaired insulin release have been found to precede and predict NIDDM in prospective studies may be in part a reflection of just such relatedness. 4) Direct genetic analysis is effective in rarer forms of glucose intolerance (MODY, mitochondrial mutations, etc.) but encounters serious difficulties with typical late-onset NIDDM. Despite these uncertainties, the weight of current evidence supports the view that insulin resistance is very important in the etiology of typical NIDDM for the following reasons: 1) it is found in the majority of patients with the manifest disease; 2) it is only partially reversible by any form of treatment (117); 3) it can be traced back through earlier stages of IGT and high-risk conditions; and 4) it predicts subsequent development of the disease with remarkable consistency in both prediabetic and normoglycemic states. Of conceptual importance is also the fact that the key cellular mechanisms of skeletal muscle insulin resistance (defective stimulation of glucose transport, phosphorylation, and storage into glycogen) have been confirmed in NIDDM subjects by a variety of in vivo techniques [ranging from catheter balance (118) to multiple tracer kinetics (119) to 13C nuclear magnetic resonance spectroscopy (120)], and have been detected also in normoglycemic NIDDM offspring (121). If insulin resistance is a characteristic finding in many cases of NIDDM, insulin-sensitive NIDDM does exist. On the other hand, given the tight homeostatic control of plasma glucose levels in humans, beta-cell dysfunction, relative or absolute, is a sine qua non for the development of diabetes. If insulin deficiency must be present whereas insulin resistance may be present, is this proof that the former is etiologically primary to the latter? If so, do we have convincing evidence that the primacy of insulin deficiency is genetic in nature? The answer to both questions is negative on several accounts. The defect in insulin secretion in overt NIDDM is functionally severe but anatomically modest: beta-cell mass is reduced by 20-40% in patients with long-standing NIDDM (122). Moreover, the insulin secretory deficit is progressively worse with more severe hyperglycemia (123) and recovers considerably upon improving glycemic control (124). These observations indicate that part of the insulin deficiency is acquired (through glucose toxicity, lipotoxicity, or both). In addition, although insulin deficiency is necessary for diabetes, it may not always be sufficient to cause NIDDM. In fact, subtle defects in the beta-cell response to glucose may be widespread in the population (108, 125) and only cause frank hyperglycemia when obesity/insulin resistance stress the secretory machinery. Conceivably, there could be beta-cell dysfunction without NIDDM just as there is insulin resistance without diabetes. Incidentally, any defect in insulin secretion, whether in normoglycemic or hyperglycemic persons, could be due to other factors than primary beta-cell dysfunction: amyloid deposits in the pancreas (126), changes in insulin secretagogues (amylin, GLP-1, GIP, galanin) (127-130), early intrauterine malnutrition (131). Finally, the predictive power of early changes in insulin secretion for the development of typical NIDDM is generally lower than that of insulin
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PMID:Insulin resistance versus insulin deficiency in non-insulin-dependent diabetes mellitus: problems and prospects. 971 76

Predications indicate a potentially explosive increase in the prevalence of diabetes worldwide, especially in developing countries such as Indonesia. Studies of people living in rural areas of East Java and Bali show a prevalence rate of 1.5% in 1982 to 5.7% in 1995 among the urban population. Ujung Pandnag also experienced an increase, and recent studies in Manado found a dramatically high rate of 6.1% in urban areas. Preliminary results indicate varying prevalence between those living in urban and rural areas. Currently, Indonesia has an estimated 1.2-2.3% prevalence among people over 15 years. Geographically variation appears to be an influential factor, due to differences in ethnics, race, culture and lifestyle. Studies of diabetic families show a significantly high prevalence and, clinically speaking, the mode of treatment indicates the type of diabetes. Those who respond well to OHA among young diabetics (<40) are assumed to have the MODY variation of the disease. The level of obesity among the general population has increased, due partly to increased calorie intake and is a significant factor in the increased rate of diabetes. It is also more common among the elderly, as our results will show. The new types of the disease are clinically more difficult to assess than the classical types 1 and 2, as they require relatively costly genetic and immunological studies. The rate of LADA type diabetes was found to be relatively high (>20% for ICA and IAA and 2.3% for GAOA). A concensus on diabetes management has now been formulated in Indonesia and these guidelines are now used by all Indonesian health care professionals.
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PMID:The epidemiology and management of diabetes mellitus in Indonesia. 1102 78

Practically all types of diabetes mellitus (DM) result from complex interactions of genetic and environmental factors. Multifactorial and polygenic Type 1 DM is strongly influenced by genes controlling the immune system, mainly HLA-DQ and DR. In addition to this, many other predisposition loci, interacting with each other, have some influence on susceptibility to DM. Heterogeneous Type 2 DM, accounting for about 85% of all diabetic patients, is supposed to be induced by multiple genes defects involved in insulin action and/or insulin secretion. Other genetically influenced traits like obesity and hyperlipidemia are strongly associated with the Type 2. The group called Other specific types of DM include monogenic forms MODY 1-5 and many various subtypes of the disease, where the specific gene mutations have been identified. Both genetic and intrauterine environmental influences are likely to contribute to the abnormalities defined as Gestational DM.
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PMID:Genetic aspects of diabetes mellitus. 1136 89

Right classification of diabetes is important clinical issue. The aim of present study was to compare clinical, biochemical and immunological features, to analyze their practical use and to establish new decision tree which make the distinction between diabetes type 1, LADA, diabetes type 2 and MODY. We studied 97 not obese (mean BMI 26.3 +/- 4.9 kg/m2) patients aged 14 to 70 years, mean age 43 +/- 11.7 years, 53 women, 44 men. Mean duration of diabetes--2.3 +/- 4.3 years. We measured basal and stimulated C-peptide (6 minutes after 1 mg i.v. glucagon) (ELISA) and antibodies titers to glutamic acid decarboxylase--antiGAD65, tyrosine phosphatase-like molecule--IA2 and insulin--IAA (RIA). Autoimmune diabetes (LADA, type 1) was diagnosed with presence of one or more islet antigen antibodies. The highest frequencies had anti-GAD antibodies 33/97 (34%). The most complicated was to sort out group of patients with LADA. Comparison between this group and patients with diabetes type 2 have shown that BMI, co-existence of autoimmune disease, autoimmune markers and basal and stimulated C-peptide level measured at entry for the classification were useful in differentiation. Moreover we observed significantly lower C-peptide basal, stimulated and over basal level in group with MODY diabetes in comparison to diabetes type 2 patients. In the studied group were 5 patients with diabetes type 2 and obesity, in relatively young age. At the end there was one case of ADM (atypical diabetes mellitus). Clinical criteria for the classification of diabetes not always correlated with diagnosis. Autoimmune markers, basal and stimulated C-peptide were useful specially in differentiation between LADA and diabetes type 2 or diabetes type 1. Autoimmune diabetes co-existe with autoimmune disease. Proposed diagnostic scheme take for consideration presence of autoantibodies as well as C-peptide criteria.
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PMID:[Clinical, biochemical and immunological characteristic of diabetes type I, LADA, diabetes type II, and MODY patients]. 1268 30

The spectrum of diabetes in the young has widened; it now includes monogenic diseases, for example the various forms of permanent and transient neonatal diabetes and MODY as well as the emerging obesity-associated Type 2 diabetes in late childhood, but the main form is still Type 1 diabetes. Age-related major medical, physiological, social and emotional problems make the clinical management of diabetes in children and adolescents a difficult task for the physician and the family. Overall glycaemic control remains moderate or poor despite a treatment schedule, which interferes with several elements of "normal" childhood. There is an up to tenfold geographical variation in the incidence of childhood Type 1 diabetes within Europe with relatively stable incidence rates in some countries (mainly northern), but dynamic increases in incidence in other countries (mainly central European).A number of nongenetic (environmental) factors have been associated with the risk of Type 1 diabetes. Among these, perinatal factors, early nutrition, growth and vaccinations, atopic diseases and vitamin D are discussed in detail. The important interplay between genes, organism and environment is illustrated with new genetic data supporting the importance of environmental pressures in the evolution of this major disease.Although Type 1 diabetes usually accounts for only a minority of the total impact of diabetes in a population, it is the predominant form of the disease in younger age-groups in most developed countries. It is estimated that on an annual basis almost 100 000 children younger than 15 years of age develop Type 1 diabetes worldwide. The autoimmune destruction of the pancreatic beta cells in Type 1 diabetes leads to absolute insulin dependence and a high rate of complications typically occurring at a relatively young age. Therefore, Type 1 diabetes places a particularly heavy burden on the individual, the family and health services.
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PMID:Diabetes in the young: a paediatric and epidemiological perspective. 1269 Apr 39

The pathogenesis of type 2 diabetes is complex, with two distinct mechanisms: insulin resistance (decrease of insulin action on peripheral tissues) and insulin deficiency (impaired insulin secretion by pancreatic beta-cells). These abnormalities are due to genetic and environmental factors. Type 2 diabetes is a heterogeneous disease: besides the common form with obesity, monogenic forms (such as MODY) exist. Knowledge of these forms has permit a better understanding of the genetic factors involved in diabetes, and of their relationship with insulin resistance. In this review, we discuss the main data available on genetics of type 2 diabetes, as well as the various research approaches. Today, the genetic determinism of functional abnormalities of pancreatic beta-cell is no longer discussed. However, it is also clearly established that acquired metabolic factors may contribute to pancreatic beta-cell failure. Hyperglycaemia, even moderate, induces a reduced insulin biosynthesis potential (glucotoxicity), and the increased free fatty acid flux accelerates pancreatic beta-cell apoptosis (lipotoxicity). The role of these metabolic abnormalities in the development of type 2 diabetes is briefly described.
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PMID:[Physiological basis of insulin secretion abnormalities]. 1270 60

As clinicians, we are faced to difficult situations in young diabetic patients. The prevalence of type 2 diabetes increases in these patients due to a rising incidence of obesity. We present two clinical observations which both illustrate the insufficiencies of the present classifications. Modern tools are now available for diagnosis such as anti-GAD65 and IA-2 antibodies, genetic tools to investigate for specific mutations, but quantitative means of beta cell mass are lacking. Clinical examination is still accurate to identify type 1 or type 2 diabetes, MODY and mitochondrial diabetes. Weight curve, lesions of acanthosis nigricans, criteria of metabolic syndrome, history of diabetes are critical factors. This problematic has important consequences in our daily practice: the right choice for rapid and good metabolic control.
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PMID:Classification of diabetes in young adults: new concepts for an old disease. 1635 9


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