A detailed investigation of maternally inherited diabetes and deafness (MIDD) including clinical characteristics, C-peptide secretion, HLA-DR and -DQ status and autoantibody pattern.

BACKGROUND: This article presents a clinically characterization of the mitochondrial DNA mutation (A3243G) associated with maternally inherited diabetes and deafness (MIDD) syndrome in two families. METHODS: Six patients with MIDD and one mutation-positive relative with normal glucose tolerance (NGT) were examined. Fasting serum C-peptide was measured in all subjects and compared with controls having NGT (n = 14). C-peptide response to an intravenous glucose tolerance test (IVGTT) was investigated in the diabetic patients not treated with insulin (n = 3) and in the mutation-positive healthy individual and compared with the controls. RESULTS: The A3243G heteroplasmy value varied between 5 and 30%. All A3243G carriers had HLA-DR1-DQ5 haplotype, and either the -DQ5 or the -DQ6 allele. The fasting and the serum C-peptide levels at 120 min during the IVGTT did not differ between the A3243G carriers and the controls. A missing first phase and a decreased total C-peptide response was detected in the mutation-positive diabetics compared with controls (p < 0.0001). The same abnormality was found in the A3243G carrier with NGT. Circulating islet cell antibody (ICA) was present in three patients with MIDD. Glutamic acid decarboxylase (GAD), tyrosine phosphatase-like protein IA-2 (IA-2) and mitochondrial antibodies were missing. The diagnosis of MIDD was delayed in each case. CONCLUSIONS: A missing first phase and a decreased total C-peptide response during an IVGTT was characteristic for the A3243G mutation. The fasting C-peptide level of the carriers did not differ from the controls. Circulating ICA was present in some patients, but GAD, IA-2 and mitochondrial antibodies were absent. All subjects had HLA-DR1-DQ5 haplotype, and either -DQ5 or -DQ6 alleles.

[Wilkie's syndrome]. / A Wilkie-syndromáról.

Loss of retroperitoneal fatty tissue as a result of a variety of debilitating conditions and noxa is believed to be the etiologic factor of superior mesenteric artery syndrome. A case of a 35 years old female patient with severe malnutrition and weight loss is presented, who developed superior mesenteric artery syndrome. Various theories of etiology, clinical course and treatment options of this uncommon disease are discussed. In our case, conservative management was inefficient, while surgical treatment aiming to bypass the obstruction by an anastomosis between the jejunum and the proximal duodenum (duodenojejunostomy) was successful. An interdisciplinary teamwork provides the most beneficial diagnostic and therapeutic result in this often underestimated disease.

Elevated serum acylated (biologically active) ghrelin and resistin levels associate with pregnancy-induced weight gain and insulin resistance.

AIM: To study fasting biologically active serum ghrelin (RIA) and resistin (ELISA) levels in different trimesters of pregnancy (HP, n=45, 15 in each) and in gestational diabetes mellitus (GDM, n=30) compared to non-pregnant healthy women (NP, n=40) in correlation with TNF-alpha, soluble (s)TNF-receptor (R)-1, -2, leptin (ELISA), C-peptide (Cp, RIA) and Cp/blood glucose ratio (bg). STUDY DESIGN: Cross-sectional case control study. RESULTS: Acylated ghrelin levels were significantly increased (p<0.0001) in the 2nd (377+/-38pg/ml, X+/-S.D.) and decreased in the 3rd trimester (252+/-36) and in GDM (226+/-21) compared to NP controls (309+/-20) and HP women in the 1st trimester (314+/-41). Serum resistin levels were higher in the 1st (8.5+/-2.6ng/ml), 2nd (10.2+/-2.1) and 3rd (13.1+/-3.6) trimesters of pregnancy and in GDM (15.7+/-3.5) than in NP controls (6.5+/-2.3). Significant (p<0.01) negative linear correlations were found among fasting serum ghrelin and body mass index (BMI), the fasting C-peptide (Cp) level, C-peptide/blood glucose (Cp/bg) ratio, TNF-alpha, soluble (s)TNFR-2, leptin and resistin concentrations in both, HP and GDM groups. Significant positive correlations were observed between serum acylated ghrelin and adiponectin, and between BMI and fasting Cp, Cp/bg, TNF-alpha, sTNFR-1, -2 and leptin levels in both pregnant groups. CONCLUSION: Increased fasting serum acylated ghrelin concentrations in the 2nd trimester may associate with weight gain during pregnancy. Hyperresistinemia may also be associated with the pregnancy-induced insulin resistance. A negative regulatory feed-back mechanism between resistin, TNF-alpha and ghrelin may be hypothesized.

[Possible connection between ghrelin, resistin and TNF-alpha levels and the metabolic syndrome caused by atypical antipsychotics]. / Ghrelin, resistin, tumor necrosis factor (TNF)-alpha és az atípusos antipszichotikumok metabolikus szindrómát okozó hatásainak kapcsolata.

Second generation antipsychotics (SGA) are obesitogenic and diabetogenic. Role of ghrelin (RIA), resistin and TNF-alpha (ELISA) in weight gain and insulin resistance (fasting plasma insulin, HOMA, ELISA) was studied in Hungarian psychiatryic patients (n=60) treated with SGA (clozapine, olanzapine, risperidone, quetiapine, 15 each). After 1 year, 80% of patients became overweight/obese (BMI > 27/30) and 35% (n= 21/60) presented impaired glucose tolerance (13/60) or diabetes (8/60). Ghrelin (1.3 +/- 0.6 ng/ml), resistin (9.8 +/- 3.7 ng/ml), TNF-alpha (5.8 +/- 1.7 pg/ml), insulin (10.4 +/- 7.6 U/ml, HOMA A: 2.5 +/- 1.8, HOMA B: 133 +/- 62.5) were significantly higher in patients than in healthy matched controls. Resistin and TNF-alpha positively correlated with each other, insulin, HOMA, and negatively with ghrelin. Ghrelin contributes to weight gain, resistin and TNF-alpha to insulin resistance. A negative feedback regulation may exist between adipocytokines and ghrelin production. SGA drugs enhance ghrelin production despite the suppressive effect of adipocytokines. All four SGA drugs are equally obesitogenic and diabetogenic.