Biochemical characterization of primary hyperparathyroidism with and without kidney stones

The exact metabolic-physiological background for kidney stone formation in primary hyperparathyroidism (PHPT) is unclear. To obtain clarification, this retrospective data analysis was conducted in 131 patients with PHPT who had undergone a detailed ambulatory evaluation on a random diet since 1980. The baseline biochemical presentation of 78 patients with PHPT with stones was compared with that of 53 patients without stones. Compared to those without stones, the stone-forming patients had a more marked hypercalciuria (343 ± 148 vs. 273 ± 148 mg/day, P < 0.01). Urinary saturation of calcium oxalate and brushite was significantly higher in stone-formers. Serum PTH and fasting urinary calcium were similar between the two groups, but serum phosphorus was significantly lower in stone-formers. Serum calcitriol (available in some patients) showed a slightly higher mean value in stone-formers but the difference was not significant. The increment in urinary calcium after oral load of 1-g calcium was twofold higher among stone-formers. Radial shaft and L2–L4 bone mineral densities resided within the normal ranges. Stone-formers with PHPT display exaggerated urinary calcium excretion due to intestinal hyperabsorption of calcium, contributing to a greater enhancement of the saturation of stone-forming calcium salts.     

Pathophysiology and therapy of hypercalciuria in patients who form recurrent stones.

There are two alternative mechanisms that might be responsible for idiopathic hypercalciuria in recurrent stone formers: increased intestinal absorption of calcium with parathyroid suppression and overflow hypercalciuria (primary intestinal hyperabsorption) or renal calcium leak with compensatory hyperparathyroidism and intestinal hyperabsorption (primary renal-tubular hypercalciuria). In this study, urinary excretion of cAMP, the intracellular effector substance synthetised under parathyroid hormone stimulation, was found to be in the normal range. This finding would argue against intestinal hyperabsorption of calcium as the primary cause of hypercalciuria.     

Phosphate depletion in the rat: effect of bisphosphonates and the calcemic response to PTH

BACKGROUND: The removal of phosphate from the diet of the growing rat rapidly produces hypercalcemia, hypophosphatemia, hypercalciuria, and hypophosphaturia. Increased calcium efflux from bone has been shown to be the important cause of the hypercalcemia and hypercalciuria. It has been proposed that the increased calcium efflux from bone is osteoclast mediated. Because bisphosphonates have been shown to inhibit osteoclast-mediated bone resorption, this study was performed to determine whether bisphosphonate-induced inhibition of osteoclast function changed the biochemical and bone effects induced by phosphate depletion. METHODS: Four groups of pair-fed rats were studied: (a) low-phosphate diet (LPD; phosphate less than 0.05%), (b) LPD plus the administration of the bisphosphonate Pamidronate (APD; LPD + APD), (c) normal diet (ND, 0.6% phosphate), and (d) ND + APD. All diets contained 0.6% calcium. A high dose of APD was administered subcutaneously (0.8 mg/kg) two days before the start of the study diet and on days 2, 6, and 9 during the 11 days of the study diet. On day 10, a 24-hour urine was collected, and on day 11, rats were either sacrificed or received an additional APD dose before a 48-hour parathyroid hormone (PTH) infusion (0.066 microgram/100 g/hr) via a subcutaneously implanted miniosmotic pump. RESULTS: Serum and urinary calcium were greater in the LPD and LPD + APD groups than in the ND and ND + APD groups [serum, 11.12 +/- 0.34 and 11.57 +/- 0.45 vs. 9.49 +/- 0.17 and 9.48 +/- 0.15 mg/dl (mean +/- SE), P < 0.05; and urine, 8.78 +/- 2.74 and 16.30 +/- 4.68 vs. 0.32 +/- 0.09 and 0.67 +/- 0.28 mg/24 hr, P < 0.05]. Serum PTH and serum and urinary phosphorus were less in the LPD and LPD + APD than in the ND and ND + APD groups (P < 0.05). The calcemic response to PTH was less (P < 0.05) in the LPD and LPD + APD groups than in the ND group and was less (P = 0.05) in the LPD + APD than in the ND + APD group. Bone histology showed that phosphate depletion increased the osteoblast and osteoclast surface, and treatment with APD reduced the osteoblast surface (LPD vs. LPD + APD, 38 +/- 4 vs. 4 +/- 2%, P < 0.05, and ND vs. ND + APD, 20 +/- 2 vs. 5 +/- 2%, P < 0.05) and markedly altered osteoclast morphology by inducing cytoplasmic vacuoles. CONCLUSIONS: (a) Phosphate depletion induced hypercalcemia and hypercalciuria that were not reduced by APD administration. (b) The calcemic response to PTH was reduced in phosphate-depleted rats and was unaffected by APD administration in normal and phosphate-depleted rats, and (c) APD administration markedly changed bone histology without affecting the biochemical changes induced by phosphate depletion.     

Physicochemical metabolic characteristics for calcium oxalate stone formation in patients with gouty diathesis

PURPOSE: We determined why calcium oxalate stones instead of uric acid stones form in some patients with gouty diathesis. MATERIALS AND METHODS: Gouty diathesis was diagnosed from absence of secondary causes of uric acid stones or low urinary pH, and reduced fractional excretion of urate with discriminant score of the relationship between urinary pH and fractional excretion of urate less than 80. From the stone registry 163 patients with gouty diathesis were identified, including 62 with uric acid stones (GD + UA) and 101 patients with calcium oxalate stones (GD + Ca). Metabolic data and 24-hour urinary chemistry study were compared between the 2 groups. RESULTS: Compared with GD + UA, GD + Ca had significantly greater urinary calcium (196 +/- 96 mg per day vs 162 +/- 82 mg per day, p <0.05) and significantly lower urinary citrate (430 +/- 228 vs 519 +/- 288 mg per day, p <0.05), resulting in higher urinary saturation of calcium oxalate. Both groups had low urinary pH (less than 5.5) and high urinary undissociated uric acid (greater than 100 mg/dl). Urinary calcium post-oral calcium load was significantly higher in GD + Ca than in GD + UA (0.227 vs 0.168 mg/dl glomerular filtrate, p <0.001). CONCLUSIONS: Calcium oxalate stones may form in some patients with gouty diathesis due to increased urinary excretion of calcium and reduced excretion of citrate. Relative hypercalciuria in GD + Ca may be due to intestinal hyperabsorption of calcium.     

Intestinal hyperabsorption of calcium and low bone turnover in hypercalciuric postmenopausal osteoporosis

Hypercalciuria of intestinal origin has been linked with bone loss in calcium nephrolithiasis and idiopathic osteoporosis. This retrospective data analysis was performed to explore potential pathogenetic link between intestinal hyperabsorption of calcium and postmenopausal osteoporosis. Data were retrieved from postmenopausal women who were evaluated for osteoporosis or osteopenia at the Mineral Metabolism Clinic of UT Southwestern Medical Center. A total of 319 patients underwent the test of calciuric response to oral calcium load to obtain an indirect measure of intestinal calcium absorption. Serum and urinary biochemistry and L2–L4 bone mineral density (BMD) were compared between five quintiles of calciuric response. There was a statistically significant trend toward a rise in 24-h urinary calcium and a decrease in urinary deoxypyridinoline (DPD) and BMD, with increasing order of quintiles. The presentation of those in the 1st quintile was consistent with vitamin D insufficiency or deficiency, with impaired calcium absorption, secondary hyperparathyroidism, and stimulated bone turnover (high normal urinary DPD). In contrast, patients in the 5th quintile displayed a picture of absorptive hypercalciuria of stone disease, with intestinal hyperabsorption of calcium, high or high normal urinary calcium and suppressed bone turnover (low or low normal urinary DPD). Thus, the assessment of intestinal calcium absorption in a seemingly homogeneous group of postmenopausal women with osteoporosis or osteopenia revealed a spectrum of calciuric response whose extremes may represent two physiologically distinct subtypes that have important diagnostic and therapeutic implications.     

Clinical performance of immunoreactive tartrate-resistant acid phosphatase isoform 5b as a marker of bone resorption

Previous immunoassays developed for the measurement of serum tartrate-resistant acid phosphatase (TRACP) have lacked specificity for osteoclastic TRACP, TRACP 5b, or have not shown satisfactory clinical performance. The aim of this study was to evaluate the clinical performance of a novel immunocapture activity assay for TRACP 5b, in comparison to telopeptide fragments of type I collagen. Within-subject variability and the effect of feeding on TRACP 5b and telopeptides of type I collagen were assessed in 20 healthy premenopausal women. Diurnal variation of TRACP 5b and serum beta C-terminal cross-linked telopeptide of type I collagen (sbetaCTX) was assessed in 12 healthy postmenopausal women. Renal clearance was assessed in 19 end stage renal failure patients undergoing routine haemodialysis. Response to antiresorptive treatment and calcium supplementation was assessed in osteoporotic postmenopausal women treated with alendronate and calcium (n = 16) or with calcium alone (n = 7) for 24 weeks.Within-subject variability (CVi) of TRACP 5b was 6.6%, lower than CVi of urinary and serum telopeptides. TRACP 5b decreased by 2.4 +/- 0.8%, in response to feeding (P < 0.05) compared to 7.0 +/- 2.6% to 7.9 +/- 3.7% for urinary telopeptides (P < 0.05 to < 0.01) and 8.5 +/- 1.7% to 17.8 +/- 2.6% for serum telopeptides (P < 0.0001). The amplitude of the diurnal rhythm for TRACP 5b was small compared to that of sbetaCTX, 14 +/- 4% vs. 137 +/- 14%. Haemodialysis did not have a significant effect on TRACP 5b but reduced sbetaCTX by 46 +/- 4% (P < 0.0001). In response to alendronate, TRACP 5b decreased by 39 +/- 4% compared to 49 +/- 4% to 69 +/- 5% for urinary telopeptides and 75 +/- 8% for sbetaCTX.We conclude that TRACP 5b shows an attenuated response to antiresorptive therapy in comparison with other markers of bone resorption, but that this may be offset by lower biological variability. TRACP 5b may provide useful additional information about bone resorption.     

Decreased in vitro osteoblast proliferation and low turnover bone disease in nonuremic proteinuric patients

Patients with proteinuria, even those with normal glomerular filtration rate, often present abnormal bone histology. We evaluated bone histology and the in vitro proliferation of osteoblasts in samples obtained from 17 proteinuric patients with primary glomerulopathies. Histomorphometric analysis of bone biopsies was performed, and bone fragments were obtained for osteoblast culture, in which we evaluated cell proliferation. In comparison to controls, patients presented lower trabecular bone volume (20.9+/-14.5% vs 26.8+/-5.9%; P=0.0008); lower trabecular number (1.7+/-0.2/mm vs 2.0+/-0.3/mm; P=0.004); and greater trabecular separation (475.5+/-96.4 microm vs 368.3+/-86.2 microm, P=0.0002). We also found alterations in bone formation and resorption: lower osteoid volume (0.9+/-0.7% vs 2.0+/-1.4%; P=0.0022); lower osteoid thickness (6.4+/-2.8 microm vs 11.5+/-3.2 microm; P<0.0001); less mineralizing surface (4.6+/-3.1% vs 13.5+/-6.0%; P<0.0001); lower bone formation rate (0.03+/-0.04 microm(3)/microm(2)/day vs 0.09+/-0.05 microm(3)/microm(2)/day; P<0.0001); and greater osteoclast surface (0.35+/-0.6 vs 0.05+/-0.1%, P=0.0016). Mean in vitro osteoblast proliferation was lower in patients than in controls (910.2+/-437.1 vs 2261.0+/-1121.0 d.p.m./well, P=0.0016). Serum concentrations of 25-hydroxyvitamin-D(3) correlated negatively with proteinuria and positively with in vitro osteoblast proliferation. Our results demonstrate that nonuremic proteinuric glomerulonephritic patients present bone structure disorder, low bone formation and high bone resorption, as well as low osteoblast proliferation.     

Studies of urinary risk factors in urolithiasis

Urinary excretions of calcium, oxalate and uric acid were estimated in 160 stone-formers (male 118, female 42) and 257 healthy controls (male 207, female 50). Stone-formers were divided into two groups according to their stone analysis: calcium containing stone-formers and non-calcium stone-formers. Calcium stone-formers were divided again into those who had a single stone episode and multiple or recurrent stone episodes. Urinary calcium and oxalate showed significant increases in calcium stone-formers, while urinary uric acid increased only in male calcium stone-formers. Recurrent calcium stone-formers demonstrated significant high levels of urinary calcium excretion especially in males, whereas no difference of urinary oxalate excretion between recurrent and single stone-formers. The frequency distributions on the excretion of three subjects were estimated respectively in patients with calcium stone and in controls. Relative risks, risk curves and stone probabilities were proposed and compared. The higher excretion values of urinary calcium and oxalate closely related to higher risks of forming calcium stones. On the other hand, urinary uric acid did not have such a relation to calcium stone formation. We defined the states which urinary excretions exceeded 95% upper confidence limits of normal controls as hyperexcretions. Hypercalciuria was more than 200 mg/day in male and female, hyperoxaluria was 50 mg/day in male and 45 mg/day in female and hyperuricosuria was 850 mg/day in male and 650 mg/day in female according to our definition. Among male calcium stone-formers, hypercalciuria was found in 45.3%, hyperoxaluria in 26.4% and hyperuricosuria in 15.1%. While in female calcium stone-formers, hypercalciuria in 23.7%, hyperoxaluria in 26.3% and hyperuricosuria in 13.2%. Of the male calcium stone-formers 57.5% showed either or both hypercalciuria and hyperoxaluria, and recurrent stone-formers also demonstrated a higher incidence among them. Excretion products of urinary calcium and oxalate were calculated and compared in each group. Calcium stone-formers showed significant high values especially in male recurrent stone-formers. The estimation by combining some risk factors will provide more useful means of assessing severity of urinary calculous diseases and therapeutic effects of their various treatments.     

Prevention of bone loss in paraplegics over 2 years with alendronate.

To assess the effects of long-term treatment of bone loss with alendronate in a group of paraplegic men, 55 patients were evaluated in a prospective randomized controlled open label study that was 2 years in duration comparing alendronate and calcium with calcium alone. Bone loss was stopped at all cortical and trabecular infralesional sites (distal tibial epiphysis, tibial diaphysis, total hip) with alendronate 10 mg daily. INTRODUCTION: Bone loss after spinal cord injury (SCI) leads to increased fracture risk in the lower limbs of paraplegics. The aim of this study was to document long-term treatment of bone loss with alendronate in a group of paraplegic men with complete motor lesion after SCI. MATERIALS AND METHODS: Sixty-five men with complete motor post-traumatic medullary lesion between T1 and L2 with total motor and sensory loss (Frankel classification, stage A) or with total motor and partial sensory loss (Frankel classification, stage B) after SCI were included in this prospective randomized controlled open label study that was 2 years in duration. The patients were randomized to either the treatment group with alendronate 10 mg daily and elemental calcium 500 mg daily or to the control group with elemental calcium 500 mg daily alone. The primary endpoint was defined as the effect over 24 months of alendronate and calcium compared with calcium alone on the BMD values at the distal tibial epiphysis (as a surrogate for trabecular bone in the paralyzed zone). The secondary endpoints were changes in BMD at supra- and infralesional sites of measurement. Biochemical markers of bone turnover were assessed. RESULTS: Fifty-five subjects, 0.1-29.5 years post-SCI, completed the study over 24 months. BMD at the distal tibial epiphysis significantly decreased from baseline in the calcium group (-10.8 +/- 2.7% at 24 months, p < 0.001), whereas it remained stable in the alendronate plus calcium group (-2.0 +/- 2.9% at 24 months, p = not significant versus baseline), leading to a significant intergroup difference over time (p = 0.017). At the tibial diaphysis, similar significant results were observed. At the ultradistal radius and the radial shaft, BMD did not change significantly from baseline in either treatment group. At the total hip, BMD decreased significantly in the calcium group (-4.1 +/- 1.6%, p = 0.038) but remained stable in the alendronate plus calcium group (+0.43 +/- 1.2%), with a significant intergroup difference (p = 0.037). At the lumbar spine, BMD increased significantly (p < 0.0001) from baseline in both groups. Biochemical markers of bone resorption were significantly decreased with alendronate versus baseline and control. Alendronate and calcium were generally safe and well tolerated. CONCLUSIONS: In paraplegic men, SCI bone loss was stopped at all measured cortical and trabecular infralesional sites over 24 months with alendronate 10 mg daily.     

The metabolic syndrome and uric acid nephrolithiasis: novel features of renal manifestation of insulin resistance

BACKGROUND: Uric acid nephrolithiasis primarily results from low urinary pH, which increases the concentration of the insoluble undissociated uric acid, causing formation of both uric acid and mixed uric acid/calcium oxalate stones. These patients have recently been described as exhibiting features of insulin resistance. This study was designed to evaluate if insulin resistance is associated with excessively low urinary pH in overtly healthy volunteers (non-stone formers) and if insulin resistance may explain the excessively low urinary pH in patients with uric acid nephrolithiasis. METHODS: Fifty-five healthy volunteers (non stone-formers) with a large range of body mass index and 13 patients with recurrent uric acid nephrolithiasis underwent hyperinsulinemic euglycemic clamp, 24-hour urinary studies, and anthropometric measurements of adiposity. A subgroup of 35 non-stone formers had 2-hour timed urinary collection before and during the hyperinsulinemic phase of the clamp studies. RESULTS: For the non-stone former population, low insulin sensitivity measured as glucose disposal rate significantly correlated with low 24-hour urinary pH (r= 0. 35; P= 0.01). In addition to the previously described acidic urine pH and hypouricosuria, patients with recurrent uric acid nephrolithiasis were found to be severely insulin resistant (glucose disposal rate: uric acid stone-formers vs. normals; 4.1 +/- 1.3 vs. 6.9 +/- 2.1 mg/min/kg of lean body mass, P= 0.008). Acute hyperinsulinemia was associated with higher urinary pH (6.1 +/- 0.7 at baseline to 6.8 +/- 0.7 during hyperinsulinemia; P < 0.0001), urinary ammonia excretion (2.7 +/- 1.6 mEq/2 hr at baseline and 4.0 +/- 2.6 mEq/2 hr P= 0.002) and urinary citrate excretion (48 +/- 33 mg/2 hr at baseline and 113 +/- 68 mg/2 hr P < 0.0001). CONCLUSION: We conclude that one renal manifestation of insulin resistance may be low urinary ammonium and pH. This defect can result in increased risk of uric acid precipitation despite normouricosuria.     

Short-term effect of alendronate on bone mass and bone remodeling in postmenopausal women

The short-term dose-response relationship between treatment with the bisphosphonate alendronate, biochemical markers of bone turnover, and changes in lumbar spine bone mineral density (BMD) over 9 months was assessed using a double-masked controlled study design in 65 postmenopausal women (mean age 51.6 years, mean 1.5 years since last menses) receiving 5, 20, 40 mg of alendronate or placebo for 6 weeks. After 6 weeks of alendronate, serum calcium phosphate and osteocalcin decreased, and intact parathyroid hormone increased significantly in dose-dependent fashions in the alendronate-treated groups (T) compared with placebo (P). Generally similar changes (decreases) were noted in 24-h urinary calcium and pyridinoline (deoxy- and hydroxylysl pyridoline); by 30 weeks post-treatment no significant changes from baseline or between T and P were noted. Lumbar BMD by dual-energy X-ray absorptiometry demonstrated a dose-dependent response over 9 months (median % change ±SD: –1.2±0.9 for 5 mg T, +0.7±0.8 for 20 mg T*, +1.2±1.1 for 40 mg T*;*p<0.01 vs=" p).=" alendronate=" was=" generally=" well=" tolerated=" over=" all=" dosages.=" these=" data=" demonstrate=" that=" short-term=" (6=" weeks)=" oral=" alendronate=" treatment=" (5–40=" mg=" daily)=" is=" well=" tolerated=" and=" effective=" in=" (reversibly)=" decreasing=" biochemical=" markers=" of=" bone=" turnover=" in=" early=" postmenopausal=" women,=" and=" in=" stabilizing=" spinal=" bmd=" over=" 9=" months.=" longer-term=" treatment=" with=" larger=" clinical=" populations=" is=" indicated=" to=" define=" more=" fully=" the=" potential=" efficacy=" and=" safety=" of=" chronic=" alendronate=">     

High sodium chloride intake is associated with low bone density in calcium stone-forming patients

BACKGROUND: Although renal stone disease has been associated with reduced bone mass, the impact of nutrient intake on bone loss is unknown. SUBJECTS AND METHODS: The present study was undertaken to investigate the influence of nutrient intake on bone density of 85 calcium stone-forming (CSF) patients (47 male and 38 premenopausal females) aged 41+/-11 years (X+/-SD). Bone mineral density (BMD) was measured using dual energy X-ray absorptiometry at the lumbar spine (L2-L4) and femoral neck sites, and low BMD was defined as a T score < -1 (WHO criteria). A 4-day dietary record and a 24-hour urine sample were obtained from each patient for the assessment of nutrient intake and urinary calcium (U(Ca)), sodium (U(Na)), phosphate and creatinine excretion. RESULTS: Forty-eight patients (56%) presented normal BMD and 37 (44%) low BMD. There were no statistical differences regarding age, weight, height, body mass index, protein, calcium and phosphorus intakes between both groups. The mean U(Ca), phosphorus and nitrogen appearance also did not differ between groups. However, there was a higher percentage of hypercalciuria among low vs normal BMD patients (62 vs 33%, p < 0.05). Low BMD patients presented a higher mean sodium chloride (NaCl) intake and excretion (UNa) than normal BMD (14+/-5 vs 12+/-4 g/day and 246+/-85 vs 204+/-68 mEq/day, respectively p < 0.05). The percentage of patients presenting NaCl intake > or = 16 g/day was also higher among low vs normal BMD patients (35 vs 12%, p < 0.05). After adjustment for calcium and protein intakes, age, weight, body mass index, urinary calcium, citrate and uric acid excretion, and duration of stone disease, multiple-regression analysis showed that a high NaCl intake (> or = 16 g/day) was the single variable that was predictive of risk of low bone density in CSF patients (odds ratio = 3.8). CONCLUSION: These data suggest that reducing salt intake should be recommended for CSF patients presenting hypercalciuria and osteopenia.     

Bone mineral density and histology in distal renal tubular acidosis

BACKGROUND: Chronic metabolic acidosis in distal renal tubular acidosis (RTA) has been implicated in the pathogenesis of enhanced bone resorption and osteopenia, resulting in a loss of bone mineral content. However, histomorphometric and bone densitometric studies of patients who suffered from long-standing distal RTA have rarely been done. METHODS: A cross-sectional study to determine the alterations of bone mineral density (BMD) and histology was done in 14 nonazotemic RTA patients (11 females and 3 males) who had never received alkaline therapy before enrolling into this study. The mean age was 32.7 +/- 11.9 years. BMD measurements and transiliac bone biopsy were done in all patients. Blood chemistries, intact parathyroid hormone level, and a 24-hour urine collection for the determination of urinary calcium, phosphate, sodium, and potassium were obtained from the RTA patients at the time of bone biopsy. Data from 28 age-, sex-, and body mass index-matched, normal controls who were residents in the same area were also obtained. RESULTS: Urinary excretion of calcium was 2.05 +/- 1.59 mmol/day. No patient had hypercalciuria. The serum intact parathyroid hormone level was 15.92 +/- 8.48 pg/mL. RTA patients had lower BMD in most areas when compared with normal controls. There were two patients who suffered from a pathologic fracture at the femur. Bone histomorphometry from RTA patients shows a significantly decreased bone formation rate (0.02 +/- 0.02 vs. 0.07 +/- 0.045 microm(3)/microm(2)/day, P < 0.05), not significantly decreased osteoblastic surface (0.78 +/- 1.03% vs. 2.6 +/- 1.1%) and osteoclastic surface (0.05 +/- 0.03 vs. 0.13 +/- 0.23%), but significantly increased osteoid surface (31.47 +/- 24.52 vs. 5.79 +/- 4.39%, P < 0.05) and osteoid volume (2.95 +/- 3.09 vs. 0.92 +/- 1.05%, P < 0.05) when compared with those of normal controls. There was no difference in osteoid thickness (10.65 +/- 6.10 vs. 8.69 +/- 2.14 microm). Only one distal RTA patient who had a marked increase in osteoid thickness justified the diagnosis of osteomalacia. CONCLUSIONS: This study demonstrates that low bone mass is common in distal RTA patients. Chronic metabolic acidosis results in suppression of bone formation and resorption, which in turn may contribute to the development of low bone mass in distal RTA patients. Although minor elevations in osteoid surface and osteoid volume are found among distal RTA patients, overt osteomalacia is not the predominant bone lesion.     

Bone mineral density changes in hypercalciuretic osteoporotic men treated with thiazide diuretics

A few studies suggest that thiazide diuretic agents may have modest beneficial effects on bone. Few data are available on the effects of these medications in patients with osteoporosis and hypercalciuria. OBJECTIVE: To evaluate the effects of thiazide diuretic therapy on bone mass and urinary calcium excretion in hypercalciuretic osteoporotic male patients. PATIENTS AND METHODS: Osteoporosis was defined as a greater than 2.5 standard deviation (S.D.) decrease in bone mineral density (BMD) at the lumbar spine or hip (T-score). We used an open-label prospective design to compare 14 patients with hypercalciuretic osteoporosis treated with a thiazide diuretic for 18 months and 13 patients with primary osteoporosis treated with calcium and vitamin D supplementation. Mean age was 53.5 +/- 9.6 years in the thiazide group and 48.7 +/- 8.4 years in the calcium-vitamin D supplementation group. The following serum parameters were assayed at baseline: 25OH-D3, 1,25OH-D3, parathyroid hormone (PTH), and bone turnover markers. Urinary calcium excretion and BMD by dual-energy X-ray absorptiometry at the spine and hip were determined at baseline and after 18 months of treatment. RESULTS: Annual BMD increases were similar in the two groups during the 18-month treatment period: lumbar spine, 0.6 +/- 2.5% (P = 0.47) in the thiazide group and 0.004 +/- 3% (P = 0.78) in the supplementation group; femoral neck, 0.47 +/- 2.6% (P = 0.89) and 1.1 +/- 3.2% (P = 0.22); total hip, 0.65 +/- 2.5% (P = 0.37) and 0.12 +/- 2.1% (P = 0.51). Urinary calcium excretion fell by 45.9% in the thiazide group from baseline to study completion (P = 0.0015). CONCLUSION: We found no evidence that thiazide therapy increased bone mass in patients with hypercalciuria and osteoporosis as compared to calcium-vitamin D supplementation in patients with osteoporosis but no hypercalciuria. In contrast, our results establish the efficacy of thiazide diuretics in reducing urinary calcium excretion, an effect that may decrease the risk of urinary lithiasis. Studies in larger patient cohorts treated for longer periods are needed to confirm or refute our findings.     

Intestinal absorption of oxalate and calcium in patients with jejunoileal bypass

Jejunoileal bypass (JIB) has been widely performed for treatment of excessive obesity. Formation of calcium oxalate stones is a common side effect. Since, under physiological conditions, the intestinal absorption of calcium and that of oxalate are interrelated, intestinal oxalate and calcium absorption were measured in the present study by isotope techniques in 19 JIB patients and 20 healthy controls. The JIB patients showed pronounced hyperoxaluria and markedly increased absorption of oxalate, with a urinary excretion of 14C-oxalate of 29 +/- 19% (controls 6.2 +/- 3.7%; p less than 0.001). There was a strong correlation between the intestinal absorption and urinary excretion of oxalate in the JIB patients (r = 0.72; p less than 0.001). Furthermore, their oxalate kinetics was altered, with continued urinary excretion of 14C-oxalate for up to 48 hours. The JIB patients also had reduced calcium absorption (36 +/- 9.1% vs. 47 +/- 9.0%; p less than 0.001) and patients with malabsorption of calcium and low urinary calcium had the highest intestinal absorption and urinary excretion of oxalate. It is concluded that hyperoxaluria in JIB patients is due to a significant extent to hyperabsorption of oxalate.     

Prevention of stone formation and bone loss in absorptive hypercalciuria by combined dietary and pharmacological interventions

PURPOSE: We determined whether dietary restriction of calcium and oxalate, combined with thiazide and potassium citrate treatment, would prevent stone formation and avert bone loss in 18 men and 10 women with type I absorptive hypercalciuria. MATERIALS AND METHODS: Patients were treated with thiazide (20) or indapamide (8) and potassium citrate (average dose 35 mEq. daily) for 1 to 11 years (mean 3.7) while maintained on low calcium oxalate diet. Serum and urinary chemistry studies and bone mineral density were measured at baseline and at the end of treatment. New stones formed were quantitated during 3 years before and during treatment. RESULTS: During treatment urinary calcium significantly decreased (346 +/- 85 to 248 +/- 79 mg. daily, p <0.001) but urinary oxalate did not change. Urinary pH and citrate significantly increased, and urinary saturation of calcium oxalate significantly decreased by 46%. Stone formation rate decreased significantly from 2.94 to 0.05 per year (p <0.001). L2-L4 bone mineral density increased significantly by 5.7% compared to normal peak value, and by 7.1% compared with normal age and gender matched value. Femoral neck bone mineral density also increased significantly. CONCLUSIONS: Dietary restriction of calcium and oxalate, combined with thiazide and potassium citrate, satisfactorily controlled hypercalciuria, prevented the secondary increase in urinary oxalate, reduced urinary saturation of calcium oxalate, virtually eliminated recurrent stone formation, and increased bone density of the spine and femoral neck. Thus, this dietary pharmacological program controlled stone formation as well as bone loss that often accompany type 1 absorptive hypercalciuria.     

Hypercalciuric rickets: metabolic studies and pathophysiological considerations

Extensive metabolic studies were performed in a 14-year-old boy suffering from the rare clinical entity known as childhood idiopathic hypercalciuria associated with dwarfism, renal tubular abnormalities and bone lesions. The salient features were: hyperphosphaturia with hypophosphatemia, hypercalciuria with normocalcemia, elevated serum 1,25-dihydroxycholecalciferol[1,25(OH)2D3] levels, marked intestinal hyperabsorption of calcium and phosphorus, with low serum parathyroid hormone (PTH) and urinary adenosine 3':5'-cyclic monophosphate (c-AMP). Bone biopsy confirmed the clinical and radiological diagnosis of rickets. It appears that the following pathophysiological sequence is operating: primary renal phosphate leak with hypophosphatemia, increased 1,25(OH)2D3 synthesis, enhanced intestinal calcium absorption which in turn inhibits release of PTH and c-AMP. Hypercalciuria is seen to be secondary to both avid intestinal calcium absorption and depressed PTH activity, and rickets the result of phosphate depletion. Treatment with oral phosphorus only resulted in an acceleration of growth rate, cure of rickets, and return of urinary calcium excretion to normal values.     

An immunoassay for type I collagen alpha 1 helicoidal peptide 620-633, a new marker of bone resorption in osteoporosis

Type I collagen fragments are the most sensitive markers of bone resorption in osteoporosis. Currently, all available type I collagen-related bone resorption markers detect in serum and/or urine fragments arising from the telopeptide region of the molecule. Our aim was to evaluate the technical and clinical performances of a new assay detecting in urine a degradation fragment originating from the helical part of type I collagen and consisting of the 620-633 sequence of the alpha1 chain. Urinary helical peptide was measured with a new ELISA (Metra Helical peptide, Quidel Corporation). Results were compared with those of urinary C-terminal cross-linking type I collagen of type I collagen (CTX), an established bone resorption marker. We measured urinary helical peptide levels in 89 healthy women (age 31-89 years) and in 59 postmenopausal women involved in two randomized studies of the efficacy of alendronate (10 mg/day; n = 20) and transdermal 17beta estradiol (50 microg/day; n = 39). The within-run and between-run CVs were < or = 7.3 and 8.7%, respectively. In 59 healthy women, urinary helical peptide levels highly correlated with those of urinary CTX (r = 0.78, P < 0.0001). The long-term intraindividual variability assessed over 6 months in 18 untreated postmenopausal women was 24%. Compared to 24 premenopausal women, urinary helical peptide was 42% (P < 0.0001) higher in 65 postmenopausal women (mean age, 60 years), an increase comparable to that of urinary CTX (+ 47%, P < 0.0001). Urinary helical peptide levels decreased by 72% (P < 0.0001) after 3 months of alendronate treatment and by 59% (P < 0.0001) after 6 months of transdermal estrogen therapy. These changes were of similar magnitude to those of urinary CTX (-69 and -62%, respectively; NS compared with changes in helical peptide). In women treated with transdermal 17beta estradiol, the percentage of change of urinary helical peptide and urinary CTX at 6 months significantly correlated with the change in spinal bone mineral density after 2 years (r = -0.58, P = 0.002, and r = -0.52, P = 0.006, for urinary helical peptide and CTX, respectively). This new assay for type I collagen helical peptide has demonstrated adequate analytical performance and was highly correlated with urinary CTX, an established type I collagen C-telopeptide bone resorption marker. The test was a sensitive indicator of the antiresorptive effects of bisphosphonate and estrogens in postmenopausal women. This new bone resorption marker should be useful for the clinical investigation of patients with osteoporosis.     

Cortisol inhibits acid-induced bone resorption in vitro

Metabolic acidosis increases urine calcium excretion without an increase in intestinal calcium absorption, resulting in a net loss of bone mineral. In vitro, metabolic acidosis has been shown to initially induce physicochemical mineral dissolution and then enhance cell-mediated bone resorption. Acidic medium stimulates osteoblastic prostaglandin E(2) production, which mediates the subsequent stimulation of osteoclastic bone resorption. Glucocorticoids are also known to decrease bone mineral density, and metabolic acidosis has been shown to increase glucocorticoid production. This study tested the hypothesis that glucocorticoids would exacerbate acid-induced net calcium efflux from bone. Neonatal mouse calvariae were cultured in acid (Acid; pH = 7.06 +/- 0.01; [HCO(3)(-)] = 10.6 +/- 0.3 mM) or neutral (Ntl; pH = 7.43 +/- 0.01; [HCO(3)(-)] = 26.2 +/- 0.5 mM) medium, with or without 1 microM cortisol (Cort), and net calcium efflux and medium prostaglandin E(2) (PGE(2)) levels and osteoclastic beta-glucuronidase activity were determined. Compared with Ntl, Cort alone decreased calcium efflux, medium PGE(2), and osteoclast activity; Acid led to an increase in all three parameters. The addition of Cort to Acid led to a reduction of calcium efflux, medium PGE(2) levels and beta-glucuronidase activity compared with Acid alone. There was a significant direct correlation between medium PGE(2) concentration and net calcium efflux (r = 0.944; n = 23; P < 0.0001), between osteoclastic beta-glucuronidase activity and net calcium efflux (r = 0.663; n = 40; P < 0.001), and between medium PGE(2) concentration and beta-glucuronidase activity (r = 0.976; n = 4; P < 0.01). Thus, in vitro cortisol inhibits acid-induced, cell-mediated osteoclastic bone resorption through a decrease in osteoblastic PGE(2) production. These results suggest that the osteopenia observed in response to metabolic acidosis in vivo is not due to an increase in endogenous cortisol production.