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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lipoatrophic diabetes
has been produced in rabbits by injection of a fraction prepared from the urine from patients with congenital generalized lipodystrophy. Both these conditions are considered to be hypothalamic syndromes. The animals, and a patient with congenital generalized lipodystrophy and latent
diabetes
were treated with the dopamine receptor blocker, pimozide, for 4 and 17 months, respectively. The results were discouraging even though the patient got a daily dose of 16 mg pimozide. Fenfluramine has a lowering effect on brain serotonin, and peripheral effects on glucose and triglyceride metabolism. This drug improved the general condition of the rabbits with lipoatrophic diabetes, as well as that of the patient with congenital generalized lipodystrophy. The rabbits became normoglycaemic and insulin sensitive. In the patient a normalization of the urinary excretion of the serotonin metabolite 5-OH-indole acetic acid was observed. His voracious hunger and profuse perspiration were reduced, the hyperkeratotic layer of the skin peeled off, and the pigmentations of the skin decreased. There was observed an improvement of ALAT and ASAT, normalization of the fasting blood glucose, and increased sensitivity to exogenous insulin. After 11 months of 200 mg fenfluramine daily addtitional administration of 2 g clofibrate per day produced normalization of the serum triglyceride concentration and a marked reduction of the resistance to insulin. Three more patients with congenital generalized lipodystriphy, two of whom have manifest
diabetes
, have now started treatment with fenfluramine and are improving. The rabbits got relapse of their lipoatrophic diabetes when the fenfluramine treatment was stopped. It is suggested that a disturbance in the serotonin metabolism of the central nervous system may be of pathogenetic importance in congenital generalized lipodystrophy.
...
PMID:Congenital generalized lipodystrophy and experimental lipoatrophic diabetes in rabbits treated successfully with fenfluramine. 57 33
Lipoatrophic diabetes
is characterized by: complete lack of subcutaneous fattissue (generalized lipodystrophy), insulin resistant
diabetes mellitus
, hepatosplenomegaly, excessive hyperthyroidism, elevated basal metabolic note without hyperthyroidism. Recently, "cystic" alterations in the bone have been described as a possible further characteristic. The case of a young woman, now aged 21, who has had generalized lipodystrophy for 17 years and overt
diabetes mellitus
for 6 years is reported.
...
PMID:[Lipoatrophic diabetes. Report of a case (author's transl)]. 80 20
Lipoatrophic diabetes
, known by pediatricians as Lawrence-Seip disease or Berardinelli lipodystrophy syndrome, is an infrequent condition of which approximately one hundred cases have been published to date. A case in a 24-year-old female with a fifteen-year follow-up is reported. Manifestations included acanthosis nigricans, generalized lipoatrophy, hirsutism, muscle hypertrophy, and intellectual impairment. Biologic tests revealed insulin-resistant
diabetes mellitus
with major diet-dependent type V hypertriglyceridemia. The patient had nephrotic syndrome (focal and segmental endocapillary proliferative glomerulonephritis without dense deposits). Phosphorus and calcium determinations were normal, as were the endocrinologic tests. Roentgenograms of the bones disclosed increased density of axial bones and large epiphyseal defects with increased bone density as determined by osteodensitometric studies. The bone manifestations of this syndrome have been documented but are often overshadowed by the severe metabolic alterations.
...
PMID:[Bone and visceral manifestations of lipoatrophic diabetes. Apropos of a case]. 130 98
Lipoatrophic diabetes
is caused by a deficiency of adipose tissue and is characterized by severe insulin resistance, hypoleptinemia, and hyperphagia. The A-ZIP/F-1 mouse (A-ZIPTg/+) is a model of severe lipoatrophic diabetes and is insulin resistant, hypoleptinemic, hyperphagic, and shows severe hepatic steatosis. We have also produced transgenic "skinny" mice that have hepatic overexpression of leptin (LepTg/+) and no adipocyte triglyceride stores, and are hypophagic and show increased insulin sensitivity. To explore the pathophysiological and therapeutic roles of leptin in lipoatrophic diabetes, we crossed LepTg/+ and A-ZIPTg/+ mice, producing doubly transgenic mice (LepTg/+:A-ZIPTg/+) virtually lacking adipose tissue but having greatly elevated leptin levels. The LepTg/+:A-ZIPTg/+ mice were hypophagic and showed improved hepatic steatosis. Glucose and insulin tolerance tests revealed increased insulin sensitivity, comparable to LepTg/+ mice. These effects were stable over at least 6 months of age. Pair-feeding the A-ZIPTg/+ mice to the amount of food consumed by LepTg/+:A-ZIPTg/+ mice did not improve their insulin resistance,
diabetes
, or hepatic steatosis, demonstrating that the beneficial effects of leptin were not due to the decreased food intake. Continuous leptin administration that elevates plasma leptin concentrations to those of LepTg/+:A-ZIPTg/+ mice also effectively improved hepatic steatosis and the disorder of glucose and lipid metabolism in A-ZIP/F-1 mice. These data demonstrate that leptin can improve the insulin resistance and
diabetes
of a mouse model of severe lipoatrophic diabetes, suggesting that leptin may be therapeutically useful in the long-term treatment of lipoatrophic diabetes.
Diabetes
2001 Jun
PMID:Transgenic overexpression of leptin rescues insulin resistance and diabetes in a mouse model of lipoatrophic diabetes. 1137 46
