UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-dependent diabetes mellitus (IDDM) is a polygenic disorder with an autoimmune basis for disease development. In addition to HLA, a second susceptibility locus for IDDM has been identified to lie in the major histocompatibility class III region. MIC-A is located in the MHC class III region and is expressed by monocytes, keratinocytes, and endothelial cells. Sequence determination of the MIC-A gene identifies trinucleotide repeat (GCT) microsatellite polymorphism in exon 5. Five alleles with 4, 5, 6, and 9 repetitions of GCT or 5 repetitions of GCT with 1 additional nucleotide insertion (GGCT) are identified. The alleles are A4, A5, A5.1, A6, and A9. The aim of our study was to find the association of MIC-A alleles with IDDM, malnutrition-modulated diabetes mellitus (MMDM), and non-insulin-dependent diabetes mellitus (NIDDM) patients. IDDM (n = 52), MMDM (n = 41), NIDDM (n = 212), and healthy controls (n = 73) from Cuttack, in eastern India, were studied. Of the 212 NIDDM patients analyzed, 96 of them were found to be positive for either GAD65 or IA-2 antibodies. Autoantibodies to GAD65 and IA-2 were measured by radioligand binding assay using (35)S-labeled recombinant human GAD65 and IA-2 in an in vitro transcription/translation system. Autoantibody-positive NIDDM patients (n = 96) and adult healthy controls for NIDDM (n = 113) were also compared. These autoantibody-positive NIDDM patients are considered as slow-onset IDDM or latent autoimmune diabetes in adults (LADA) patients. The samples were analyzed for MIC-A by PCR amplification, and fragment sizes were determined in an ABI prism DNA sequencer. The results of the MIC-A typing are: allele 9 of MIC-A is positively associated (OR 3.62; P < 0.001), and allele 4 is negatively associated (OR 0.31; P < 0.05) with MMDM patients compared to controls. Allele 5 is positively associated with IDDM (OR 2.64; P < 0.05) when compared to controls. Allele 5.1 is positively associated in the autoantibody-positive NIDDM patients compared to adult controls. Our findings of a significant increase of allele A9 in MMDM patients compared to healthy controls suggest that MMDM is immunogenetically different from IDDM in eastern India. MIC-A is important in the pathogenesis of MMDM patients from Cuttack. MIC-A alleles distinguish acute-onset IDDM from slow-onset IDDM, indicating that this molecule may be important for delaying the onset of IDDM with the result that these patients are diagnosed clinically as NIDDM.
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PMID:MHC class I chain-related gene a alleles distinguish malnutrition-modulated diabetes, insulin-dependent diabetes, and non-insulin- dependent diabetes mellitus patients from eastern India. 1202 Nov 38

Anorexia nervosa is a syndrome with multifactorial etiology in which several genetic, biologic, psychological and social factors are involved. Patients affected by anorexia nervosa (AN) may develop multiple endocrine abnormalities, e.g. amenorrhea, hypothalamus-pituitary-adrenal axis hyperactivity, low T3 syndrome and peculiar changes of somatotroph axis function. These endocrine abnormalities are also found after prolonged starvation and may represent an adaptive response developed in order to save energy and proteins. It is still a matter of debate whether these endocrine changes are etiologic or secondary. In fact, several evidences suggest the existence in AN of hypothalamus functional alterations, which may be involved in the development and maintenance of the food intake disorder; on the other hand, the increased CRH secretion seems to be secondary to malnutrition as well as GH hypersecretion coupled to low IGF-I levels; the latter is a common finding in AN, as well as in other undernutrition and malabsorption conditions, type 1 diabetes mellitus, liver cirrhosis and catabolic states. Hypothalamic amenorrhea, which is one of the diagnostic criteria for AN, is not linked only to the reduction of body weight but reflects also deep alterations of gonadotropin secretory pattern. Low T3 syndrome is frequently found in AN; on the other hand, an iodide-induced hypothyroidism is quite uncommon. T3 reduction in AN seems to be an adaptive response to prolonged starvation; however the presence of a simultaneous central dysregulation cannot be excluded. Finally, AN patients frequently show defects in urinary concentration or dilution with inappropriate secretion of antidiuretic hormone, which may be due to intrinsic defects in the neurohypophysis or to abnormalities of its regulatory afferent neurons.
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PMID:[Endocrine abnormalities in anorexia nervosa]. 1271 47

Iodine deficiency is a national health problem in India and we have recently reported on the severity of IDD in adults and children in Gujarat province. The aim of this study was to determine the utility of thyroid ultrasonography to detect goiter in adults from an iodine-deficient population of Gujarat. We studied 472 adults selected by random household surveys. Data were collected on height, body weight, mid-upper arm circumference, thigh circumference, triceps skinfold thickness, thyroid size (palpation and ultrasonography), and diet. Casual urine samples for iodine (UI) and blood spots for TSH estimation were obtained. Endemic goiter is a major public health problem in Gujarat State, India and is probably caused by multiple factors including iodine deficiency, malnutrition, and other dietary goitrogens. These results indicate that thyroid US consistently detects goiter in adults despite a diminished thyroidal response to variable goitrogenic stimuli.
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PMID:Thyroid ultrasonography consistently identifies goiter in adults over the age of 30 years despite a diminished response with aging of the thyroid gland to the effects of goitrogenesis. 1280 80

Insulin-like growth factor 1 (IGF-1, somatomedin C) belongs to a family of polypeptide hormones, which are structurally close relatives of insulin. Circulating IGF-1 is synthesised in the liver. Serum level of somatomedin is regulated by: growth hormone (GH), insulin and nutrition. It is also produced locally by most tissues, where it acts in auto- and paracrine manner. IGF-1 takes part in regulating growth after binding to IGF receptor during embryonic development and after birth. In adults somatomedin plays a role in the process of regeneration, mainly in the case of connective tissue. It is also a weak mitogen for most cultured cells and it can act like insulin. Somatomedin circulates in plasma in complex with a family of binding proteins. 85-95% of total IGF-1 is found in the complex consisting of IGF-1, binding protein 3 and ALS. This complex is a store of IGF and limits the access of somatomedin to specific receptors. After binding with IGFBP-1, IGFBP-2 and IGFBP-6, IGF-1 passes through epithelium and reaches the target cells. The serum concentration of this protein appears to be inversely related to insulin level. IGFBP-1 can modulate IGF growth-promoting effect. IGF and its binding proteins are important in the diagnosis and treatment of some pituitary diseases, catabolic states such as malnutrition, burns, AIDS, polytrauma and tumors with hypoglikemia. Insulin-like growth factors may be involved in the etiopathogenesis of diabetes and in diabetes complications. Abnormalities in functioning of GH-IGF-1 axis are regarded as a cause of the growth retardation in children with poor metabolic control of type 1 diabetes, insulin-resistance, dawn phenomenon and fat disorders. rhIGF has been used in the treatment of some diseases bringing positive results.
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PMID:[Insulin-like growth factor 1 (somatomedin C) and its binding proteins 1 and 3 in children with special consideration of diabetes]. 1281 85

Young onset diabetic subjects in tropical developing countries include a group of subjects who exhibits a characteristic ketosis resistance termed as Malnutrition Related Diabetes Mellitus (MRDM) by the WHO Study Group. The mechanism for this resistance to ketosis is still uncertain. To understand this mechanism we have studied the serum responses of glucose, non-esterified fatty acid (NEFA) and triglyceride (TG) to intravenous fat emulsion in newly diagnosed 8 fibrocalculous pancreatic diabetes (FCPD) and 11 low insulin secretory (LIS) subjects under 30 years of age along with 27 age-matched Non Insulin Dependent Diabetes Mellitus (NIDDM) subjects. Overnight fasting subjects were given a 90 min infusion of intralipos 10% (2.5 mg/kg body weight/min) and serum was collected at 0, 60, 90, 120 and 150 min. The fasting NEFA in the 3 groups were almost similar (micromol/l, M +/- SEM: 486 +/- 58, 564 +/- 76 and 559 +/- 34 in FCPD, LIS and NIDDM respectively). Fasting TG also showed a close similarity among 3 groups (mg/dl, M+/-SEM: 117 +/- 11, 110 +/- 22 and 123 +/- 4 in FCPD, LIS and NIDDM respectively). Intravenous fat caused a steady rise of NEFA as well as TG in all groups during the 90 minutes of infusion followed by a gradual fall. No two groups significantly differed regarding NEFA and TG at any time point. Fasting glucose was markedly higher in FCPD (22.9 +/- 2.5, mmol/l, M+/-SEM) and LIS (20.8 +/- 1.6) than NIDDM (11.0 +/- 1.0). In all the 3 groups glucose showed a slow but steady fall. Fasting C-peptide was very low in FCPD (0.42 +/- 0.08, ng/ml, M +/- SEM) and LIS (0.55 +/- 0.09) whereas it was within normal range in NIDDM patients (2.99 +/- 0.24). The results suggest the following: (a) Depleted body fat store do not lead to a decreased supply of NEFA in FCPD and LIS subjects at the fasting state; (b) Increased supply of NEFA in these subjects lead to a normal esterification response as evidenced by a parallel rise of TG; (c) Inspite of markedly low level of the antilipolytic hormone insulin, FCPD and LIS subjects are capable to maintain NEFA and TG responses similar to NIDDM subjects. This may indicate that factor (s) other than substrate and esterification is (are) probably involved in the ketosis resistance of FCPD and LIS subjects; and (d) Although FCPD and LIS differ regarding generalized pancreatic damage (which raises the possibility of involvement of glucagon producing alpha-cells in the FCPD group) the two groups do not differ regarding the ketogenic substrate and esterfication responses.
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PMID:Ketosis resistance in under thirty diabetic subjects. 1528 87

GH hypersecretory states include organic and functional causes. Among functional GH hypersecretory states, enhanced somatotroph secretion physiologically occurs at birth associated with reduced IGF-I levels reflecting the still immature sensitivity of liver to circulating GH levels; this may also occur in women exposed to oral extrogens. Pathophysiological conditions of GH hypersecretion are generally associated with congenital or acquired/functional conditions of peripheral GH insensitivity. Genetic alterations of the GH receptor lead to the so called Laron's syndrome. On the other hand, a relevant number of clinical conditions (malnutrition, malabsorption, anorexia nervosa, liver cirrhosis, renal failure, Type 1 diabetes mellitus) are associated with acquired GH insensitivity and a more or less pronounced GH hypersecretion. Both organic and acquired conditions of GH insensitivity show low IGF-I synthesis and release and therefore lack the negative IGF-I feedback action on somatotroph function. GH hypersecretion may be associated with renal failure; however, in this case, the alteration in the metabolic clearance rate of GH would also have a role; moreover, IGF-I levels are generally normal in this condition. Hyperthyroidism is another condition connoted by elevated GH levels that reflects a true GH hypersecretory state and is, in fact, associated with high-normal IGF-I levels; this peculiar condition is likely to be reflecting the stimulatory effect of thyroid hormones on both GH and IGF-I secretion and is promptly reversed by treatment-induced euthyroidism. Apart from these "functional" hypersecretory state, the classic organic GH hypersecretory state is represented by acromegaly or giantism. In these conditions GH hypersecretion is generally sustained by a pituitary adenoma hypersecreting GH alone or together with another pituitary hormone, mostly PRL; less frequently GH hypersecretion may be due to ectopic GHRH hypersection. Exaggerated GH secretion elicits exaggerated IGF-I synthesis and secretion that is, in turn, responsible for the large majority of endocrine signs and symptoms. In the appropriate clinical context of acromegalic features, evidence of concomitant marked GH and IGF-I hypersecretion at baseline demonstrates active acromegaly or giantism and indicates the need for magnetic resonance imaging in order to verify the presence of a pituitary tumor. However, as random measurement of basal GH levels is not reliable for definite diagnosis of acromegaly, it is considered mandatory to rely on the lack of GH suppression below 1 microg/l during oral glucose tolerance test (OGTT) coupled with elevated IGF-I levels. The same criteria are assumed, at present, to define true cure of the disease after (or under) treatment. There is consensus about the assumption that concomitant normalization or persistent abnormality of both OGTT-induced GH nadir and IGF-I levels define a successfully or a poorly controlled disease status, respectively. On the other hand, acromegalic patients with GH nadir above 1 microg/l or IGF-I levels persistently elevated are inadequately controlled and their disease should not be considered inactive. It has been clearly demonstrated that an extended exposure to GH and IGF-I excess level, even if slight, has a very harmful effect on patients; therefore early diagnosis of acromegaly and appropriate definition of its cure are of fundamental extreme in order to plan a prompt and appropriate therapeutic intervention(s) guaranteed also by the continuous improvement in the therapeutic tools available to treat this systemic disease.
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PMID:Hormonal diagnosis of GH hypersecretory states. 1549 57

Over the years, several clinical syndromes have been described in diabetes mellitus. Although world opinion has settled somewhat on the main two types, the debate continues as to how the 'formes frustes' syndromes fit in and what if any implications there are for the accepted aetiology of the disease. Type 1, insulin dependent diabetes mellitus, results from pancreatic inadequacy as a result of a variety of insults such as autoimmune attack, toxic damage, etc. Insulin administration is at the core of the therapeutic approach. Type 2, non insulin dependent diabetes mellitus, results from reduced responsiveness of the target tissues to insulin and as such, an insulin resistance syndrome is described. Lifestyle adjustment and oral hypoglycaemic agents are the mainstay of therapy. Over the years, however, insulin insufficiency will develop in most cases and insulin therapy required in order to achieve normoglycaemia. The aetiology of these main two types has been maintained to be distinct from each other and as such types 1 and 2 are described as two separate developmental conditions. Furthermore, the variant patterns, such as malnutrition related, drug induced, intermittent or phasic insulin requiring, gestational, temporary, stress related, etc., all present a challenge as to how they fit in aetiologically. The Unitarian Hypothesis, by presenting this overall cascade of biochemical and physiological interactions, brings a logic which embraces the points of entry of a variety of insults, all of which can lead to the clinical picture of hyperglycaemia and its attendant adverse outcomes. The hypothesis buttresses the belief that nature - the genetic predisposition which directs potential antibody development; and nurture - the environmental influences such as nutritional status (over- or under-), infective and toxic attack, can aggravate or initiate aspects of the cascade of reactions leading to hyperglycaemia. The causative agents functioning internally within the cascade are imputed to be free radicals, oxidizing molecular species and antibodies and the corollary to this overview concept would be that a situation that minimizes the genesis and accumulation of these three agents would minimize the development of diabetes mellitus. Currently the debate is rife about the use of free radical scavengers and antioxidants in the treatment and prevention of diabetes mellitus. The verdict is still out on this approach. Our research on rootcrops such as yams and cassava, staple foods in tropical countries, indicates the presence of cyanoglycosides such as linamarin, which on digestion yields cyanide radicals. These radicals are pancreatotoxic especially in the undernourished state. Dog models however, have shown that free radical scavengers such as riboflavin, Vitamin B(2), is protective against this toxic damage. Further, scientific investigations have clearly demonstrated the role of antibody attack and have been able to ward off the appearance of type 1 diabetes mellitus in susceptible individuals, by the early use of immunosuppressive therapy such as cyclosporin. Thus the Unitarian Hypothesis demonstrates how all types of clinical syndromes being described in diabetes mellitus are not necessarily variants of a specific illness but rather manifestations of a central process of membrane damage-->antibody response-->insulin inadequacy (quantitatively or qualitatively); and the future intervention in containing this disease may well lie in focusing on preservation of the integrity of the body's cell membranes.
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PMID:The Unitarian Hypothesis for the aetiology of diabetes mellitus. 1680 31

Autoimmune diabetes [type 1 diabetes mellitus (T1DM), latent autoimmune diabetes in adults (LADA) and part of malnutrition-related diabetes] has been shown to have genetic predisposition. Studies in IDDM 5 have lead to the discovery of a novel polymorphism 163 A-->G, of SUMO4 (small ubiquitin-related modifier) gene, associated with risk to T1DM in Asians, but not in Caucasians. We studied patients with T1DM (n = 134), patients with LADA (n = 101), patients with malnutrition-modulated diabetes mellitus (n = 66) and patients with fibrocalculous pancreatic diabetes (n = 43) and healthy controls subjects (n = 114) from Cuttack, India. Polymerase chain reaction-sequence-specific primer (PCR-SSP) was used to amplify the 163 A-->G sequences. Restriction fragment length polymorphism (RFLP) was performed using restriction enzyme Taq I (PCR-RFLP). Differences in the allelic frequencies of the A and the G alleles were tested statistically using Fisher's exact test or chi-squared test wherever appropriate. P-values were considered significant when equal to or less than 0.05. No significant association was detected between SUMO4 M55V and T1DM susceptibility in Asian-Indians. Comparison of the A and G alleles with HLA DR3-DR4 did not result in any significant P-values. No significant association was found between SUMO4 M55V and LADA or malnutrition-related diabetes mellitus (MRDM). Our results show that Asian-Indians with T1DM are different from other Asian populations. Asian-Indians show more similarity to Caucasians with respect to the association of SUMO4 M55V variant in T1DM. Association studies on Asian-Indian patients with LADA and MRDM showed no significant difference in the presence of the A and the G alleles when compared to healthy controls.
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PMID:No association of SUMO4 M55V with autoimmune diabetes in Asian-Indian patients. 1737 40

The fetal origins hypothesis, proposes that non-communicable diseases including coronary heart disease, type 2 diabetes and hypertension originate through the responses of a fetus to undernutrition, that permanently change the structure and function of the body. Associations between low birthweight and disease in later life have been widely studied in Europe and the USA. Studies in southern India have shown that babies who are short and fat tend to become insulin deficient and have high rates of non-insulin dependent diabetes. These findings have important public health implications as it suggests that associations with body size at birth underestimate the contribution of intrauterine development to later disease, and also, that while the primary prevention of coronary heart disease and non-insulin dependent diabetes may ultimately depend on changing the body composition and diets of young women. Therefore, more immediate benefit may come from preventing imbalances between prenatal and postnatal growth among children. The basic premise of the thrifty gene hypothesis is that certain populations may have genes that determine increased fat storage, which in times of famine represent a survival advantage, but in a modern environment result in obesity and type 2 diabetes. The fetal origins theory is of greatest relevance to the developing world and the implications of this work for global health are enormous. To reduce chronic diseases, we need to understand how the human fetus is nourished and how malnutrition changes its physiology and metabolism, so that interventions be implemented to limit the damage. The challenge for the next decade must be to discover the cellular and molecular mechanisms giving rise to these associations. If this aim is accomplished, it might be possible to devise strategies to reduce the impact of these disabling chronic and expensive diseases.
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PMID:Markers of fetal onset adult diseases. 1927 69

One third of the patients with Diabetes present a Chronic Kidney Disease. Despite cardiovascular events and increased mortality, Diabetes is the first cause of End Stage Renal Disease. The nutritional status of theses patients widely varies, from obesity to malnutrition, according to their type of diabetes, the severity of the renal disease, and the frequent concurrent diseases: it conditions their dietary counselling. The patients with type 2 diabetes and obesity have to moderate and well choose their alimentary lipids, for body weight control and to reduce their cardiovascular risk; this works in the context of a multifactorial approach as demonstrated by the Steno 2 trial. The use of insulin or conventional insulin-secretagogues (sulfonylureas, glinids) needs patients to be educated about their carbohydrate intake, especially when the good glucose control exposes to hypoglycaemia. Moderation of protein intake reduces proteinuria, an improved outcome has been demonstrated for patients with type 1 diabetes and nephropathy on a Low Protein Diet. The patients who require dialysis often deteriorate their nutritional status, the protein intake must be increased at this stage.
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PMID:[Nutrition of patients with diabetes and chronic kidney disease]. 2017 96

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