Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020438 (hypercalciuria)
 2,502 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pathogenesis of nephrolithiasis in Cushing's syndrome is still not completely clarified. The current study aimed at investigating prevalence of nephrolithiasis and role of different lithogenic factors in Cushing's disease (CD). Forty-six CD patients (24 with active and 22 with cured disease) and 46 sex- and age-matched controls entered the study. Body mass index, blood pressure, fasting glucose and insulin, serum and urinary creatinine, urea, uric acid, electrolytes, and cystine, urinary volume, pH, oxalate, and citrate levels, and renal ultrasonography (US) were performed in all patients and controls. Nephrolithiasis was found in 50% of active patients, 27.3% of cured patients, and 6.5% of controls (P < 0.001). Compared with controls, patients with active disease had a significantly increased prevalence of obesity, arterial hypertension, diabetes mellitus, hypercalciuria, hypocitraturia, and hyperuricosuria, significantly higher levels of serum and urinary cystine, urinary creatinine, urea, uric acid, potassium, calcium, phosphorus, and oxalate, significantly lower levels of urinary citrate levels. Compared with controls, patients cured from CD had a significantly increased prevalence of obesity, systemic arterial hypertension, and diabetes mellitus, whereas urinary citrate was significantly decreased. At multivariate analysis, a significantly increased risk to develop kidney stones was independently associated with urinary excretion of uric acid (odds ratio = 1.6, confidence interval = 1.0-2.5) and systemic arterial blood pressure (odds ratio = 2.6, confidence interval = 1.1-6.6). In conclusion, patients with active CD have an increased prevalence of nephrolithiasis compared with general population, which decreases but not disappears in patients successfully cured from the disease. This complication is likely caused by the synergic effect of different hypercortisolism-dependent metabolic and hemodynamic abnormalities, among which systemic arterial hypertension and excessive urinary uric acid excretion seem to play a pivotal role.
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PMID:Nephrolithiasis in Cushing's disease: prevalence, etiopathogenesis, and modification after disease cure. 1272 57

Both diabetes and fractures affect a large proportion of older adults. Recent cohort studies indicate that diabetes itself is associated with increased risk of fracture of the hip, proximal humerus, and foot. Observational studies and animal models suggest that decreased bone strength in diabetes may contribute to fracture risk but this remains a controversial issue. Type 1 diabetes is associated with modest reductions in bone mineral density (BMD) but type 2 diabetes is often characterized by elevated BMD. This paradox of higher BMD but increased fracture risk in type 2 diabetes may be explained by a combination of more frequent falls and poorer bone quality. Diabetes can impact bone through multiple pathways, some with contradictory effects, including obesity, changes in insulin levels, higher concentrations of advanced glycation end products in collagen, hypercalciuria associated with glycosuria, reduced renal function, lower insulin-like growth factor-I, microangiopathy, and inflammation. A better understanding of how diabetes metabolism and treatments affect bone would improve fracture prevention efforts in older diabetic adults.
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PMID:Diabetes Mellitus: Does it Affect Bone? 1451 15

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

Diabetes mellitus and osteoporosis affect a large proportion of older adults. In this context, diabetes may influence the bone in multiple pathways, some with contradictory effects. These mechanisms include changes in insulin and insulin-like growth factors levels, hypercalciuria associated with glycosuria, reduced renal function, obesity, higher concentrations of advanced glycation end products in collagen, angiopathies, neuropathies and inflammation. Although it is assumed that the decreased bone strength in diabetes may contribute to fracture risk, a very high number of available clinical and/or epidemiological studies as well as animal model studies brought about heterogeneous or even contradictory results on the skeletal involvement in patients with diabetes mellitus. In addition, bone mineral density (BMD) is a convenient predictor for fracture and the type 1 diabetes is associated with modest reductions in BMD. However, type 2 diabetes can be related to the elevated BMD. The immediate improvement in these discrepancies is to consider the complex pathophysiology of diabetes as well as influences of gender, age, treatment and duration of the disease. It is important also to improve further the choice of investigated biochemical markers and the standardization of the bone mass measurements. Along these lines, several recent cohort studies undeniably indicated that diabetes itself is associated with increased risk of osteoporosis.
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PMID:The impact of diabetes mellitus on skeletal health: an established phenomenon with inestablished causes? 1631 62

Diabetes is associated with renal calcium and magnesium wasting, but the molecular mechanisms of these defects are unknown. We measured renal calcium and magnesium handling and investigated the effects of diabetes on calcium and magnesium transporters in the thick ascending limb and distal convoluted tubule in streptozotocin (STZ)-induced diabetic rats. Rats were killed 2 weeks after inducing diabetes, gene expression of calcium and magnesium transporters in the kidney was determined by real-time polymerase chain reaction, and the abundance of protein was assessed by immunoblotting. Our results showed that diabetic rats had significant increase in the fractional excretion for calcium and magnesium (both P < 0.01), but not for sodium. Reverse transcriptase-polymerase chain reaction revealed significant increases in messenger RNA abundance of transient potential receptor (TRP) V5 (223 +/- 10%), TRPV6 (177 +/- 9%), calbindin-D28k (231 +/- 8%), and TRPM6 (165 +/- 8%) in diabetic rats. Sodium chloride cotransporter was also increased (207 +/- 10%). No change was found in paracellin-1 (cortex: 108 +/- 8%; medulla: 110 +/- 10%). Immunofluorescent studies of renal sections showed significant increase in calbindin-D28k (238 +/- 10%) and TRPV5 (211 +/- 10%), but no changes in paracellin-1 in Western blotting (cortex: 110 +/- 7%; medulla: 99 +/- 7%). Insulin administration completely corrected the hyperglycemia-associated hypercalciuria and hypermagnesiuria, and reversed the increase of calcium and magnesium transporter abundance. In conclusion, our results demonstrated increased renal calcium and magnesium transporter abundance in STZ-induced diabetic rats, which may represent a compensatory adaptation for the increased load of calcium and magnesium to the distal tubule.
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PMID:Increased renal calcium and magnesium transporter abundance in streptozotocin-induced diabetes mellitus. 1655 23

Rabson-Mendenhall syndrome is a rare genetic disorder characterized by severe insulin resistance, extreme hyperinsulinemia, postprandial hyperglycemia, growth retardation, and dysmorphisms. Enlargement of the kidneys and nephrocalcinosis have been described previously. We report a 10-year-old boy who presented with gross hematuria, unilateral hydronephrosis, and the initial diagnosis of bilateral extensive medullary nephrocalcinosis. Medullary sponge kidney (MSK) was included in the differential diagnosis given the ultrasound findings. Further evaluation by intravenous pyelogram confirmed the suspected bilateral MSK. Given the patient's history of hydronephrosis due to an obstructing renal stone and MSK, urine calcium excretion was assessed and found to be markedly increased at 9.5 mg/kg per day. To our knowledge, this is the first report of Rabson-Mendenhall syndrome and an association with MSK. We recommend evaluation for nephrocalcinosis, MSK, and hypercalciuria in all children diagnosed with Rabson-Mendenhall syndrome.
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PMID:Rabson-Mendenhall syndrome: medullary sponge kidney, a new component. 1784 53

The formation of various types of kidney stones is strongly influenced by urinary pH. An alkaline pH favors the crystallization of calcium- and phosphate-containing stones, whereas and acidic urine pH promotes uric acid or cystine stones. The activity of many transport processes involved in calcium, citrate and phosphate handling are sensitive to changes in systemic or local pH as shown for several phosphate transporters, the citrate transporter NaDC1 and the TRPV5 calcium channel. Defects in urinary acidification (excretion of inappropriately alkaline or acidic urines, respectively) contribute to kidney stone disease. The low excretion of ammonium in patients with metabolic syndrome has been linked to more acidic urine and a higher incidence of uric acid stones. In this state, insulin resistance may reduce ammonium excretion by the proximal tubule. On the other hand, defensive mechanisms may protect from kidney stone formation in conditions such as hypercalciuria where high luminal calcium concentrations stimulate urinary acidification and reduce urinary concentration via a calcium-sensing receptor, resulting in the excretion of acidic and diluted urine. This review will discuss a few aspects that relate to the capacity of the kidney to regulate pH and its impact on the excretion of solutes that participate in the formation or prevention of stones.
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PMID:Urinary pH and stone formation. 2117 Aug 75

Growth hormone excess has been associated with hypercalciuria and nephrolithiasis. Hypercalcemia in acromegaly is rare and usually due to coexistent primary hyperparathyroidism. To report two cases of 1,25-dihydroxyvitamin D (1,25 (OH)(2) D)-dependent hypercalcemia in cromegaly. A 50 year-old female with 2 years history of hypercalcemia presented with features of acromegaly. Serum calcium (Ca) was 10.9 mg/dl (8.6-10.2), parathyroid hormone (PTH) 20 pg/ml (10-65), PTH-related peptide undetectable, and 1,25 (OH)(2) D 119 pg/ml (15-75). Insulin-like growth factor 1 (IGF1) was 911 ng/ml (49-292) and growth hormone (GH) 14.5 ng/ml (0.03-10). MRI showed a 1.7 cm pituitary tumor. Transsphenoidal adenectomy (TSA) resulted in normalization of IGF1, GH, Ca, and 1,25 (OH)(2) D (50 pg/ml) and complete tumor resection. A 52-year-old female was diagnosed with visual field deficits on routine exam. MRI showed a 3 cm invasive pituitary macroadenoma. IGF1 was 416 ng/ml (87-238) and GH 75.8 (0-6.0) ng/ml. Incidentally, she was found with high Ca of 10.8 mg/dl (8.9-10.3) associated with PTH 19 pg/ml and 1,25 (OH)(2) D66 pg/ml. Postoperatively, IGF1 and GH remained abnormal (440 and 12.8 ng/ml, respectively), while MRI showed parasellar tumor residue. Ca remained high (10.1-11.1 mg/dl), along with elevated 1,25 (OH)(2) D level (81.3 pg/ml). In both cases, other causes of hypercalcemia were ruled out. We present 2 cases of 1,25 (OH)(2) D-dependent hypercalcemia associated with growth hormone excess. Complete resection of tumor produced biochemical remission of acromegaly and normalization of calcium and 1,25 (OH)(2) D levels, while incomplete resection was associated with persistent 1,25 (OH)(2) D-dependent hypercalcemia. Acromegaly should be considered a cause of 1,25 (OH)(2) D-dependent hypercalcemia.
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PMID:Acromegaly as a cause of 1,25-dihydroxyvitamin D-dependent hypercalcemia: case reports and review of the literature. 2118 40

The modern Western-type diet is deficient in fruits and vegetables and contains excessive animal products, generating the accumulation of non-metabolizable anions and a lifespan state of overlooked metabolic acidosis, whose magnitude increases progressively with aging due to the physiological decline in kidney function. In response to this state of diet-derived metabolic acidosis, the kidney implements compensating mechanisms aimed to restore the acid-base balance, such as the removal of the non-metabolizable anions, the conservation of citrate, and the enhancement of kidney ammoniagenesis and urinary excretion of ammonium ions. These adaptive processes lower the urine pH and induce an extensive change in urine composition, including hypocitraturia, hypercalciuria, and nitrogen and phosphate wasting. Low urine pH predisposes to uric acid stone formation. Hypocitraturia and hypercalciuria are risk factors for calcium stone disease. Even a very mild degree of metabolic acidosis induces skeletal muscle resistance to the insulin action and dietary acid load may be an important variable in predicting the metabolic abnormalities and the cardiovascular risk of the general population, the overweight and obese persons, and other patient populations including diabetes and chronic kidney failure. High dietary acid load is more likely to result in diabetes and systemic hypertension and may increase the cardiovascular risk. Results of recent observational studies confirm an association between insulin resistance and metabolic acidosis markers, including low serum bicarbonate, high serum anion gap, hypocitraturia, and low urine pH.
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PMID:Diet-induced metabolic acidosis. 2148 1

Diabetes mellitus (DM) and osteoporotic fractures are two of the most important causes of mortality and morbidity in older subjects. Recent data report a close association between fragility fracture risk and DM of both type 1 (DM1) and type 2 (DM2). However, DM1 is associated with reduced bone mineral density (BMD), whereas patients with DM2 generally have normal or increased BMD. This apparent paradox may be explained by the fact that, at a given level of BMD, diabetic patients present lower bone quality with respect to non-diabetics, as shown by several studies reporting that diabetes may affect bone tissue by means of various mechanisms, including hyperinsulinemia, deposition of advanced glycosylation endproducts (AGEs) in collagen, reduced serum levels of IGF-1, hypercalciuria, renal failure, microangiopathy and inflammation. In addition, the propensity to fall and several comorbidities may further explain the higher fracture incidence in DM patients with respect to the general population. It is reasonable to expect that close metabolic control of diabetes may improve bone status, although its effect on reduction of fracture risk has not yet been demonstrated. However, metformin has a direct effect on bone tissue by reducing AGE accumulation, whereas insulin acts directly on osteoclast activity, and thiazolidinediones (TZD) may have a negative effect by switching mesenchymal progenitor cells to adipose rather than bone tissue. New prospects include the incretins, a class of antidiabetic drugs which may play a role linking nutrition and bone metabolism. Better knowledge on how diabetes and its treatments influence bone tissue may lie at the basis of effective prevention of bone fracture in diabetic patients. Thus, close glycemic control, adequate intake of calcium and vitamin D, screening for low BMD, and prevention and treatment of diabetic complications are key elements in the management of osteoporosis in both DM1 and DM2. Attention should be paid to treating diabetes with TZD in women with DM2, particularly if elderly. Lastly, patients with osteoporosis and diabetes should be offered the same pharmacological treatments as non-diabetics, although specific trials on the effects of anti-osteoporotic drugs in the diabetic population are lacking.
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PMID:Osteoporosis and risk of fracture in patients with diabetes: an update. 2174 87


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