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Query: UMLS:C0497406 (overweight)
 26,365 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Basal excretion of cyclic adenosine monophosphate (cAMP) and its basal level in blood plasma in breast cancer (BC) patients and those with fibroadenomatosis did not differ essentially. However, intravenous injection of parathyroid hormone (100 U) and insulin (0.08 U/kg body weight) was followed by a much less rise in urine-cAMP excretion and blood-cAMP levels in BC patients than in benign process in mammary gland. A substantial correlation between changes in plasma cAMP level and the degree of insulin-induced hypoglycemia was not observed. There was a negative correlation between reponse to parathyroid hormone and insulin and body overweight in BC patients. It was suggested that body fat content may influence the peculiarities of metabolism of extracellular cAMP in cancer patients considerably.
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PMID:Effect of parathyroid hormone and insulin on extracellular cyclic adenosine-3',5'-monophosphate in patients with benign and malignant breast tumors. 21 Apr 8

To evaluate whether changed plasma calcium binding might lead to a secondary increase of parathyroid hormone in morbid obesity, fasting measurements of serum ionized, ultrafiltrable and total calcium, calcium binding substances, and parathyroid hormone were undertaken in age- and sex-matched groups of obese (n = 44) and normal weight subjects (n = 52). The 24-hour urinary calcium excretion and clearance of creatine were also measured. Calcium binding to proteins was changed. Serum total proteins and protein-bound calcium did not differ, but serum albumin was decreased in obesity. Consequently, obese subjects did not reveal the normal dependency of protein-bound calcium upon albumin. Calcium binding to other substances was also changed. Serum phosphate and bicarbonate were decreased, while the concentrations of citrate, lactate, acetoacetate, 3-hydroxybutyrate, free fatty acids, and urate were all increased, leaving the total concentration of plasma complex-bound calcium unchanged. Nevertheless, these reciprocal changes increase the concentrations of less readily reabsorbable anions in the renal ultrafiltrate. The changed pattern of calcium binding in serum of the obese subjects may serve to explain our findings of increased urinary calcium excretion, lowering of serum ionized calcium and increased parathyroid hormone levels, changes being significantly correlated with degree of overweight.
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PMID:Increased parathyroid hormone as a consequence of changed complex binding of plasma calcium in morbid obesity. 308 Jun 52

Decreased bone mineral content has been observed in several studies of type 1 (insulin-dependent) diabetics in comparison with age and sex matched control subjects. In type 2 diabetics contradictory results have been obtained, probably related to varying degrees of body overweight in the patients investigated. The decrease in bone mineral content in type 1 diabetics was most pronounced in patients with childhood or adolescent onset of the disease, with ceased beta-cell function, with high insulin dosage, and poor glucose regulation. In a subgroup of patients having all these "risk factors" bone mineral content was decreased some 20%, as compared with patients without any "risk factors", and/or with sex and age matched controls. Bone mineral homeostasis was characterized by increased urinary excretions of bone minerals (calcium, phosphate and magnesium) related to the degree of hyperglycaemia and insulin dosage, by decreased serum concentrations of ionized calcium and magnesium, by increased to normal serum concentrations of phosphate, by a low-normal serum concentration of parathyroid hormone, and by a low-normal serum concentration of 1,25-dihydroxyvitamin D. This indicates a state of functional hypoparathyroidism in type 1 diabetics. Several mechanisms may thus contribute to diabetic osteopenia: Proneness to metabolic acidosis, hypocalcaemia, insulin deficiency and perhaps also hypomagnesaemia and hypoparathyroidism.
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PMID:Bone mineral metabolism in human type 1 (insulin dependent) diabetes mellitus. 328 9

In order to test the relation between obesity and the secondary hyperparathyroidism found in markedly overweight subjects, 24 morbidly obese patients were studied before and after a weight loss of 35.9 kg obtained by a nutritionally adequate, intermittent very-low-calorie diet. Overweight was reduced from 98 +/- 34% to 44 +/- 19%. Serum total calcium did not change, but serum ionized calcium (Ca2+) increased from 1.22 +/- 0.04 mmol/L to 1.25 +/- 0.04 mmol/L (P less than .001). A corresponding fall was observed in serum parathyroid hormone (s-PTH), which decreased from 47.2 +/- 21.7 pmol/L to 35.2 +/- 19.4 pmol/L (P = .01). The change of s-PTH was positively associated with the reduction of body weight (r = .50, P less than .05) and with the reduction of overweight (r = .55, P less than .01). Regarding calcium binding substances, serum albumin remained low. The initially lowered serum phosphate and bicarbonate both rose (P less than .001). Plasma lactate and plasma free fatty acids (FFAs) decreased (P less than .001). The study supports our hypothesis that the change profile of calcium complexing anions in obesity interferes with the tubular reabsorption of calcium, which in turn lowers serum Ca2+, thus promoting hyperparathyroidism. Along with weight loss, concentrations of calcium complexing anions returns towards normal values and the secondary hyperparathyroidism regresses.
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PMID:Secondary hyperparathyroidism of morbid obesity regresses during weight reduction. 336 88

Mg can theoretically play a role in renal calcium stone formation of IRCU patients, but the status of Mg is uncertain. The aim of this study was to investigate whether in IRCU variation of Mg in fasting urine and plasma is associated with altered urine Ca, Pi, oxalate, Ca/Pi ratio, supersaturation and other factors, the clinical severity of stone disease (metabolic activity; MA) included. This was a cross-sectional study (284 IRCU patients), comprising males with mean age in the fifth decade and unimpaired renal function. Patients had an unrestricted home diet, standardized laboratory procedures, including sample collection (daily and fasting urine, plasma), with classification of patients according to tertiles of fasting Mg-uria, keeping comparable age, the number of patients with renal stones present or absent, and normo- or idiopathic hypercalciuria. MA was scored. We found that the tertile I patients (= referent) exhibited sub-normal fasting Mg excretion (< 4 mg/2 h) and fractional excretion (< 3.5%), in daily urine the lowest Mg and oxalate, but highest Ca excretion rate; compared with tertile III, tertile I patients had significantly lower plasma total (not ultrafiltrable) Mg, blood bicarbonate and pH, and the lowest MA; fasting urinary excretion of Ca and citrate were also low, but urinary Pi, body weight, plasma glucose and insulin were increased. In tertile III not only was Mg-uria (excretion, FE) significantly elevated vs I, but so were urinary pH, excretion of sodium, Ca, potassium, protein (total and non-albumin) and citrate, FE sodium and Ca, the urinary molar ratios Ca/Pi and Mg/Potassium, hydroxyapatite supersaturation, bone resorption markers, and MA; in this environment urinary oxalate and Ca oxalate supersaturation were unchanged, plasma glucose, insulin and parathyroid hormone decreased. The tertile II patients, showing intermediate Mg excretion, also exhibited (vs. I) increase of FE Mg, urinary excretion and FE of sodium and Ca, excretion of protein, citrate and bone markers, the ratios Ca/Pi and Mg/Potassium, and MA. When urinary Ca/Pi was considered as the outcome of disordered metabolism, significant determinants (according to multiple regression analysis) were urinary Pi (negative), Ca and Mg/Potassium (positive); significant determinants of MA, the sum of stone-forming processes, were the urinary concentration of non-albumin protein, Mg/Potassium and sodium (all positive). Among IRCU patients 1) approx. one third is in need of Mg conservation by the kidney, associated with low plasma total Mg, modest metabolic acidosis, a trend towards overweight, high plasma insulin and glucose; 2) low Mg- or acidosis-induced increase of bone resorption may follow, attenuating glycemia and insulinemia but forcing the kidney to functional adaptation, manifesting as a rise of urinary sodium, Mg, Ca, Pi, Ca/Pi, pH and protein, together presumably aggravating MA; 3) larger controlled studies are justified, to decide whether Mg deficiency initiates renal Ca stones, and if urinary Mg loss exaggerates IRCU.
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PMID:Is magnesium a marker of disordered mineral metabolism in males with idiopathic recurrent calcium urolithiasis? Observations focussing on fasting magnesiuria and magnesiemia, protein and other substances in urine and plasma. 1459 24

Circulatory effects of parathyroid hormone (PTH) were reported in experimental animal models, also in liver portal system. We devised to study non invasively relationship between plasmatic iPTH and portal blood flow rate in humans. The study was done in a group of healthy post-menopausal women aged 52.0 +/- 5.2 years (range 47-65), not treated with hormone therapy, with different body mass index. Women were studied by echocolor-doppler and by clinical and biochemical assays of common laboratory test and of iPTH, insulin and prolactin (RIA). A positive correlation between iPTH and mean portal flow rate was observed in the overall group. Women with BMI < 25 showed a more marked correlation between these two parameters, not observed in women with BMI > 25, with slight-moderate overweight. In this last group an inverse correlation between blood pressure and iPTH was observed. From these preliminary results, as previously observed in chronic disease, relationship among iPTH, regional flows and nutritional state can be operating also in physiological conditions.
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PMID:[Portal flow, nutritional status, and circulation effects of parathormone]. 1499 18

Studies on skeletal involvement in patients with diabetes mellitus have generated conflicting results, largely because of the pathogenetic complexity of the condition. Several mechanisms may contribute to skeletal damage, including the increased urinary excretion coupled with the lower intestinal absorption of calcium, the inappropriate homeostatic response in terms of parathyroid hormone secretion, and also the complex alteration of vitamin D regulation. Decreased or increased insulin and IGF-1 concentrations and the effects of the accumulation of glycation endproducts on the bone tissue could also play a role. A possible genetic predisposition is also currently under investigation. Finally, the role of fat tissue in type 1 and type 2 diabetes and that of diabetic complications also deserve note. As far as bone mass is concerned, in adult patients with type 1 diabetes a moderately reduced bone mineral density has been shown in both axial and appendicular skeleton. On the contrary, patients with type 2 diabetes seem to have higher bone mineral density in respect to healthy control subjects, especially when overweight women are considered. No clear relationship between bone mass measurements and biochemical parameters of mineral metabolism has been shown in the different types of diabetes. Cohort studies recently carried out on large samples indicate that diabetic patients (with both type 1 and type 2 disease) have a higher risk for fracture, in particular for hip fracture, the most dangerous osteoporotic complication. This seems to be dependent both on qualitative and quantitative alterations of the bone, as well as on extra-skeletal factors due to the neuropathic and microangiopathic complications of the disease.
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PMID:Skeletal involvement in patients with diabetes mellitus. 1513 50

Obesity is increasing in the United States in epidemic proportions. Epidemiologic data suggest that people with high calcium intake have a lower prevalence of overweight, obesity, and insulin resistance syndrome. Studies in transgenic mice have demonstrated that calcium influences adipocyte metabolism. High calcium intake depresses levels of parathyroid hormone and 1,25-hydroxy vitamin D. These decreased hormone levels cause decreases in intracellular calcium, thereby inhibiting lipogenesis and stimulating lipolysis. High dietary calcium intakes also increases excretion of fecal fat and may increase core body temperature. Calcium from dairy products seems to have more of an impact than calcium from dietary supplements. Primary care providers should include recommendations about adequate calcium intake in standard dietary counseling about weight management.
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PMID:Dietary calcium intake and obesity. 1587 68

Increased intracellular free calcium [Ca2+]i has been noted in adipocytes, platelets, and leukocytes of subjects with insulin resistance syndrome or allied disorders. In rodent studies, measures which increase [Ca2+]i in adipocytes and skeletal muscle are associated with impaired insulin signaling, attributable at least in part to diminished ability of insulin to activate phosphoserine phosphatase-1 (PP-1). In fat-fed insulin resistant rats, pre-treatment with a drug that selectively chelates intracellular calcium eliminates about half of the decrement in insulin-stimulated glucose uptake induced by fat feeding; since this chelator does not influence the insulin sensitivity of chow-fed rats, it is reasonable to suspect that fat feeding boosts [Ca2+]i in skeletal muscle, and that this effect is partially responsible for the associated reduction in insulin sensitivity. Clinical insulin resistance is associated with increased levels of triglycerides and other fatty acid metabolites in muscle fibers; this can give rise to diacylglycerol-mediated activation of PKC, which in turn compromises insulin signaling by triggering kinase cascades that phosphorylate IRS-1 on key serine residues. Yet there is also evidence that, in skeletal muscle, PKC activity up-regulates the function of L-type calcium channels, increasing their maximal conductance while left-shifting their voltage dependence. Thus, the PKC activation associated with fat overexposure might be expected to boost basal [Ca2+]i in skeletal muscle, potentially impeding insulin-mediated activation of PP-1. This hypothesis is consistent with several clinical studies demonstrating that long-acting inhibitors of L-type calcium channels can improve insulin sensitivity in overweight hypertensives; it should be readily testable in rodent models of fat-induced insulin resistance. Since parathyroid hormone can act on adipocytes and muscle to boost [Ca2+]i, mild secondary hyperparathyroidism associated with low calcium intakes and poor vitamin D status may contribute to insulin resistance, consistent with certain clinical and epidemiological findings. Magnesium, often thought of as a mild calcium antagonist, appears to have favorable effects on insulin sensitivity and risk for diabetes, and recent evidence indicates that increases of intracellular magnesium within the physiological range can diminish calcium influx through phosphorylated L-type calcium channels. It will be of interest to determine whether calcium antagonism does indeed underlie the favorable influence of good magnesium status on insulin function. A report that chromium picolinate can induce the plasmalemmal Ca2+-ATPase in smooth muscle cells, raises the possibility that modulation of calcium transport might play a role in the insulin-sensitizing efficacy of bioactive chromium.
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PMID:PKC-mediated modulation of L-type calcium channels may contribute to fat-induced insulin resistance. 1630 47

Epidemiological data suggest an association between kidney stones and some features of metabolic syndrome such as an overweight condition, arterial hypertension or glucose intolerance. However, mechanisms remain to be elucidated. This study aimed to evaluate insulin resistance, as assessed by homeostasis model assessment (HOMA-IR), and urine composition analysis in patients affected by calcium nephrolithiasis. A cohort of 61 (38 male, 29-57 years of age) non-diabetic calcium stone formers was studied. Data about body mass index, arterial blood pressure, serum biochemistry including parathyroid hormone and calcitriol were recorded in all the patients; fasting glucose and insulin were determined to calculate HOMA-IR value and accordingly the patients were grouped into tertiles. Urine pH and urinary excretion of calcium, citrate, phosphate, oxalate, uric acid, urea and creatinine were measured on 24h urine samples. Patients of the highest HOMA-IR tertile showed lower urine citrate levels than patients of the lowest HOMA-IR tertile (475+/-243 vs. 630+/-187 mg/24h, p<0.05), whereas no difference was detected as far as urinary oxalate, calcium, uric acid, phosphate, and urine pH and urine volume output were concerned. HOMA-IR values were positively related to uric acid serum levels (r=0.31, p<0.05) and negatively to urinary citrate excretion (r=-0.26, p<0.05). Hypocitraturic patients showed higher levels of HOMA-IR than normocitraturic ones (3.03+/-0.92 vs. 2.25+/-1.19, p<0.05). This study shows that a higher level of insulin resistance is associated with lower urinary citrate excretion, and that hypocitraturic patients show a greater insulin resistance than normocitraturic calcium stone formers. This may be related to changes in citrate, Na(+)-K(+) and H(+) renal tubule transports, which have been described in insulin resistance. In conclusion, insulin resistance may contribute to an increased risk of calcium stone formation by lowering urinary citrate excretion. This finding suggests the need for a careful metabolic assessment in patients known to form calcium stones in order to ensure stone recurrence prevention and cardiovascular protection.
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PMID:Insulin resistance and low urinary citrate excretion in calcium stone formers. 1718 67


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