Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 is one of the most ravaging diseases of the civilised world mainly because of its secondary complications. Even the most careful exogenous insulin administration can neither maintain an entirely physiological glucose metabolism nor prevent the development of the late complications. Today pancreatic transplantation is the only therapy leading to total normalisation of glucose and lipid metabolism in type I diabetic patients. Beside the improvement of the life quality resulted by the independence of the insulin administration and of the dietary restrictions, secondary complications as nephropathy, retinopathy and neuropathy are positively influenced. Best results can be obtained with the simultaneous procedure, grafting kidney and pancreas from the same donor. In this case the grafted pancreas can also increase the patient survival rate and the kidney graft function rate comparing with the results of the kidney transplantation alone. In conclusion simultaneous pancreatic-kidney transplantation is clearly indicated for the treatment of type I diabetic patients with end-stage kidney disease.
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PMID:[The place of pancreas transplantation in therapy]. 140 88

Diabetes, known since antiquity, has been defined by glycosuria. In 1886, when Minkowski demonstrated that pancreatectomized dogs developed diabetes, the islets of Langerhans became a focus of the search for an active principle culminating in the discovery and the isolation of insulin in 1921 by Banting, Best and Collip. In 1959, the radioimmunoassay of Yalow and Berson solidified the concept of insulin resistance in non-insulin dependent diabetes (NIDDM). In 1971, the insulin receptor was defined as a cell surface protein that initiated the insulin signal transduction cascade. Today, we know that NIDDM accounts for at least 90% of all diabetes worldwide and involves approximately 100 million people. The microvascular complications of NIDDM are the same as for insulin dependent diabetes (IDDM) and are related to the intensity and duration of hyperglycaemia. Further, it is clear from the Diabetes Control and Complications Trial (DCCT) that all microvascular complications can be reduced with intensive control of the blood glucose. Macrovascular disease is also accelerated in NIDDM, including both hypertension and dyslipidemia. The major risk factor for NIDDM are age, obesity, physical inactivity, and genetic background. The earliest features seen in individuals destined to develop NIDDM is insulin resistance, but for hyperglycaemia to ensure there must be a defect in insulin secretion. Thus, insulin resistance defines the prehyperglycaemic phase of NIDDM, but varying degrees of insulin secretory deficiency define the hyperglycaemic phase. Macrovascular risk occurs throughout the lifetime of the individual, whereas microvascular risk ensues with the inception of hyperglycaemia. Tomorrow, we will understand more clearly whether lifestyle changes, such as diet and exercise, or new classes of drugs, can delay or prevent NIDDM. Clinical trials are now beginning to test whether impaired glucose tolerance (IGT) can be delayed or prevented from moving to overt NIDDM. The genetics of NIDDM are under intense study. Mutations in the insulin receptor lead to NIDDM in a small number of patients, and mutations in the glucokinase gene lead to maturity onset diabetes of the young (MODY). Work is now underway to study other candidate genes as well as work on positional cloning techniques to identify diabetes genetic loci. The hormone Leptin has just been discovered and is a major regulator of body weight. In summary, the most important new emphasis on the treatment of NIDDM is the recognition of the importance of hyperglycaemia and our ability to both treat and possibly prevent this metabolic perturbation. This joins the longer-term emphasis on cardiovascular risk reduction from both treatment and prevention of hypertension and dyslipidemia.
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PMID:Non-insulin dependent diabetes--the past, present and future. 928 27

This study aimed to explore multiple determinants of BMD (bone mineral density) in 99 women with long-standing type 1 diabetes, recruited from a population based register of insulin users. BMD was measured using DEXA (dual energy X-ray absorptiometry) at the femoral neck and lumbar spine, age adjusted Z scores were calculated and results compared to those of healthy volunteers. The median age of diabetic subjects was 42 years and the median duration of diabetes was 27 years. BMD was positively associated with body mass index and height at both the lumbar spine and femoral neck. There was a positive association with oral contraceptive pill use and lumbar spine BMD, and peripheral vascular disease was negatively associated with femoral neck BMD. No correlation was seen with either age or duration of diabetes and absolute BMD values. Mean Z score at the femoral neck was -0.12 (95% confidence interval -0.37 to +0.12). At the lumbar spine, the corresponding value was -0.21 (-0.44 to +0.02). Pre- and post-menopausal values for the diabetic subjects and healthy volunteers were found to be similar. In summary, axial BMD values in subjects with long-standing diabetes were similar to those observed in healthy non diabetic populations.
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PMID:A population-based study of bone mineral density in women with longstanding type 1 (insulin dependent) diabetes. 969 88

The aetiology of Type I diabetes involves both genetic and environmental factors. The genes implicated are 'susceptibility genes', which modify risk. Individual susceptibility genes may not be required and are not sufficient for disease development. The strongest genetic risk component is encoded within the major histocompatibility complex (MHC) and is designated IDDM I. The HLA-DQ genes contribute to the risk, but so may other MHC-encoded genes. The susceptibility encoded by IDDM2 refers to a variable number of tandem repeats in the insulin gene region. Many other genomic regions have been designated as susceptibility intervals potentially containing candidate genes. Environmental factors appear to be important in disease expression in either a causative or a protective role. Epidemiological data indicate that such factors operate from early in life. Viral infection(s) may have a disease-initiating and/ or accelerating effect. A potential diabetogenic role for cows' milk protein remains unconfirmed. Further research is necessary to elucidate fully the aetiological factors involved and how they interact.
Baillieres Best Pract Res Clin Endocrinol Metab 1999 Jul
PMID:The aetiology of Type I diabetes. 1076 62

The risk of coronary heart disease and atherosclerosis is increased in both Type 2 and Type I diabetes mellitus. The dyslipidaemia of Type 2 diabetes consists of hypertriglyceridaemia and low levels of high-density lipoprotein (HDL) cholesterol. In Type I diabetes, hypertriglyceridaemia is also present, but when glycaemic control is good, HDL cholesterol levels may be normal or even increased. In both types of diabetes, nephropathy is associated with an exacerbation of hypertriglyceridaemia, a decline in HDL cholesterol level and an increase in serum cholesterol. In the absence of nephropathy, serum cholesterol levels are typically similar to those of the background non-diabetic population. The risk of coronary heart disease (CHD) associated with serum cholesterol is, however, considerably higher in diabetics than in non-diabetic people, and is much less in diabetic populations living in countries where the average cholesterol level is low, even when hypertension is present. Currently, the strongest evidence that lipid-lowering drug therapy will decrease the risk of CHD, particularly in secondary prevention, comes from trials of statins that lower cholesterol. There is growing experimental and observational evidence that hypertriglyceridaemia, because of its effects on cholesteryl ester transfer, leading to the formation of a small low-density lipoprotein susceptible to oxidation, compounds the risk of serum cholesterol in diabetes. Both fibrates and statins can decrease this cholesteryl ester transfer. Further studies of fibrates with clinical end-points should clarify their role in the prevention of CHD. In the meantime, statins should be part of routine diabetic clinical practice, fibrates having a more limited role when hypertriglyceridaemia is extreme.
Baillieres Best Pract Res Clin Endocrinol Metab 1999 Jul
PMID:Diabetic dyslipidaemia. 1076 66

Amylin (AMY) is a 37 amino acid peptide cosecreted with insulin (INS) by pancreatic beta-cells and absent in type 1 diabetes, a condition frequently associated with osteopenia. AMY binds to calcitonin receptors, lowers plasma calcium concentration, inhibits osteoclast activity, and stimulates osteoblasts. In the present study, we examined the effects of AMY replacement on bone loss in a streptozotocin (STZ)-induced rodent model type 1 diabetes. Of 50 male Wistar rats studied, 40 were made diabetic with intraperitoneal STZ (50 mg/kg; plasma glucose concentrations > 11 mM within 5 days). Ten nondiabetic control (CONT) rats received citrate buffer without STZ. Diabetic rats were divided into four groups (n = 10/group) and injected subcutaneously with rat AMY (45 mg/kg), INS (12 U/kg), both (same doses), or saline (STZ; diabetic controls) once per day. After 40 days of treatment and five 24-h periods of urine collection for deoxypyridinoline (DPD), the animals were killed, blood was sampled, and femurs were removed. The left femur was tested for mechanical resistance (three-point bending). The right femur was tested for total, diaphyseal (cortical bone), and metaphyseal (trabecular bone) bone densities using dual-energy X-ray absorptiometry (DXA). Bone was ashed to determine total bone mineral (calcium) content. None of the treatments had any significant effect on femoral length and diameter. Untreated diabetic rats (STZ; 145+/-7N) had lower bone strength than did nondiabetic CONT (164+/-38; p < 0.05). Total bone mineral density (BMD; g/cm2) was significantly lower in STZ (0. 2523+/-0.0076) than in CONT (0.2826+/-0.0055), as were metaphyseal and diaphyseal densities. Diabetic rats treated with AMY, INS, or both had bone strengths and bone densities that were indistinguishable from those in nondiabetic CONT. Changes in bone mineral content paralleled those for total BMD (T-BMD). Plasma osteocalcin (OC) concentration, a marker for osteoblastic activity, was markedly lower in untreated diabetic rats (7. 6+/-0.9 ng/ml); p < 0.05) than in nondiabetic CONT (29.8+/-1.7; p < 0.05) or than in AMY (20.1+/-0.7; p < 0.05). Urinary DPD excretion, a marker for bone resorption, was similar in untreated and AMY-treated diabetic rats (35.0+/-3.1 vs. 35.1+/-4.4 nmol/mmol creatinine), intermediate in rats treated with INS (49.9+/-2.7), and normalized in diabetic rats treated with both agents (58.8+/-8.9 vs. 63.2+/-4.5 in CONT). Thus, in our STZ rat model of diabetic osteopenia, addition of AMY improved bone indices apparently by both inhibiting resorption and stimulating bone formation.
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PMID:Amylin and bone metabolism in streptozotocin-induced diabetic rats. 1134 42

Despite extensive efforts by many groups, progress in the mapping of complex diseases has been exceedingly slow, only a few genes and some genetic regions having been identified. The general picture is one of difficulty in locating disease genes and in the replication of linkages. This results from the role in disease of a large number of genes, many with a relatively minor effect and many involving common genetic variation. A multi-strategy approach to the mapping of complex diseases is required: no single method is sufficient or optimal. The role of human leukocyte antigens in type 1 diabetes has been known for nearly 30 years, and the associations, linkage and genetic contribution to disease are all strong, but all the human leukocyte antigen region genes involved in the disease process have not yet been identified. The methods used in study of this component to type 1 diabetes are a model for all complex diseases.
Best Pract Res Clin Endocrinol Metab 2001 Sep
PMID:An overview of the genetic analysis of complex diseases, with reference to type 1 diabetes. 1155 70

Type 1 diabetes mellitus is a T-cell-mediated autoimmune disease characterized by the selective destruction of pancreatic beta cells. Susceptibility to the disease is determined by a combination of genetic and environmental factors. The genetic factors are termed 'susceptibility genes' as they modify the risk of diabetes but are neither necessary nor sufficient for disease to develop. A large number of chromosomal regions have been identified as containing potential diabetes susceptibility genes. The IDDM1 locus, which encompasses the major histocompatibility complex on chromosome 6, is the major genetic risk factor. The HLA-DQ genes are the primary susceptibility genes within this region, although other genes may also contribute. The IDDM2 locus maps to a variable number of tandem repeats in the insulin gene region on chromosome 11. Further research is necessary to determine the precise location and identity of other diabetes susceptibility genes.
Best Pract Res Clin Endocrinol Metab 2001 Sep
PMID:Genetics of type 1 diabetes. 1155 71

Diabetic nephropathy can develop in up to one-third of patients with type 1 diabetes and approximately 25% of patients with type 2 diabetes. This complication is important as it not only leads to renal failure but is associated with a high risk of coronary artery disease and other vascular complications. Although hyperglycaemia is necessary for the development of diabetic nephropathy, it is not sufficient, genetic factors also being important. This is evidenced by studies showing that only a subgroup of patients are at risk of nephropathy and that nephropathy clusters in families. The genes involved in susceptibility to diabetic nephropathy have yet to be identified. Most studies to date have been case-control in design, and there have been conflicting results. Genes suggested as having a role include those encoding angiotensin-1 converting enzyme, apolipoprotein E, heparan sulphate and aldose reductase. In order to clarify the role of these and other candidate genes in nephropathy, association studies in families are necessary. Because of the large number required, this will require international collaboration. A genetic marker for nephropathy would enable the earlier detection of this complication, thus facilitating screening and targeted intervention. An understanding of the role of susceptibility genes will ultimately allow the development of novel therapeutic strategies.
Best Pract Res Clin Endocrinol Metab 2001 Sep
PMID:Genetics of diabetic nephropathy. 1155 75

The prevention of diabetes and its devastating complications is the prime goal of diabetes care. In immune-mediated type 1 diabetes, beta cell destruction can be predicted with increasing confidence both before and after diagnosis, thus allowing the development of preventative strategies. Multicentre clinical trials with the natural products insulin and nicotinamide have been launched, but the results will only be available in a few years time. Meanwhile, observational studies in large representative risk groups can help to refine the selection of subjects with a more homogenous risk for beta cell destruction, thereby reducing the need for large sample sizes. The comparison between biological markers and disease progression will help to define surrogate disease end-points that can be monitored before the hard clinical end-points of hyperglycaemia or remission. These advances will facilitate the start of new pilot trials to identify relatively safe candidate interventions adapted to disease stage.
Best Pract Res Clin Endocrinol Metab 2001 Sep
PMID:Prospects for predicting and stopping the development of type 1 of diabetes. 1155 77


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