Neil A. Breslau

Ambulatory evaluation of nephrolithiasis. Classification, clinical presentation and diagnostic criteria.

Using the ambulatory protocol previously described, 241 patients with nephrolithiasis were evaluated. They could be categorized into 10 groups from the results obtained. Absorptive hypercalciuria type I (87 per cent male) comprised 24.5 per cent and was characterized by normocalcemia, normal fasting urinary calcium (less than 0.11 mg/100 ml glomerular filtration), an exaggerated urinary calcium following an oral calcium load (greater than 0.20 mg/mg creatinine), normal urinary cyclic adenosine monophosphate (AMP) (less than 5.4 nmol/100 ml glomerular filtration) and serum parathyroid hormone (PTH), and hypercalciuria (greater than 200 mg/day during a calcium- and sodium-restricted diet). Absorptive hypercalciuria type II (50 per cent male) accounted for 29.8 per cent; its biochemical features were the same as those for absorptive hypercalciuria type I, except for normocalciuria during a restricted diet and low urine volume (1.42 +/- 0.55 SD liter/day). Renal hypercalciuria (56 per cent male), disclosed in 8.3 per cent, was represented by normocalcemia and high values for fasting urinary calcium (0.160 +/- 0.054 mg/100 ml glomerular filtration), urinary cyclic AMP (6.80 +/- 2.10 nmol/100 ml glomerular filtration) and serum PTH. Primary hyperparathyroidism (57 per cent female), accounted for 5.8 per cent, typically included hypercalcemia, hypophosphatemia, hypercalciuria and high urinary cyclic AMP. Hyperuricosuric calcium urolithiasis (100 per cent male) comprised 8.7 per cent, and was characterized by hyperuricosuria (776 +/- 164 mg/day) and urinary pH exceeding pK for uric acid (5.91 +/- 0.33). In enteric hyperoxaluria (60 per cent female), encountered in 2.1 per cent of cases, urinary oxalate was increased (6.29 +/- 13.2 mg/day). Noncalcium-containing stones were found in 2.1 per cent of the patients with uric acid lithiasis (100 per cent male) and in another 2.1 per cent of the patients with infection lithiasis (60 per cent female). These conditions were typified by low urinary pH (5.29 +/- 0.12) and high urinary pH (6.69 +/- 1.16), respectively. Renal tubular acidosis was found in one patient (male, 0.4 per cent). In 10.8 per cent of the patients (81 per cent male), no metabolic abnormality could be found, although urine volume was low (1.41 +/- 0.51 liter/day). Hypercalciuria could not be differentiated between absorptive hypercalciuria and renal hypercalciuria in 5.4 per cent of the patients. Thus, this ambulatory protocol disclosed a physiologic disturbance in nearly 90 per cent of the cases and provided a definitive diagnosis in 95 per cent of the patients.

Hypercalcemia Associated with Increased Serum Calcitriol Levels in Three Patients with Lymphoma

A radioreceptor assay for serum 1,25-dihydroxyvitamin D (calcitriol) was used to screen patients with hypercalcemia of malignancy. Three patients with non-Hodgkins lymphoma and hypercalcemia (serum Ca, 12.0, 13.4, and 13.0 mg/dL, respectively) had increased serum calcitriol levels (56, 72, and 77 pg/mL, respectively; normal, less than 50 pg/mL). Elevated levels of calcitriol, an active vitamin D metabolite, occurred in the presence of significant renal impairment (creatinine clearance, 8 to 19 mL/min) and relative parathyroid suppression (serum immunoreactive parathyroid hormone, 17 to 39 microL-eq/mL; mean value in end-stage renal disease, 182 +/- 39 microL-eq/mL). Hypercalcemia and excessive serum calcitriol levels responded to glucocorticosteroid therapy. In two patients, the hypercalcemia and increased serum calcitriol level were related to a tumor, but not to the serum immunoreactive parathyroid hormone level. Fractional intestinal 47Ca absorption, measured in one patient, was increased (0.94; normal, less than 0.61) and varied directly with the serum calcitriol level. No patient had evidence of sarcoidosis. Hypercalcemia associated with certain lymphomas may be caused by the increased synthesis of calcitriol by lymphoma cells.

Resistance to multiple hormones in patients with pseudohypoparathyroidism. Association with deficient activity of guanine nucleotide regulatory protein.

Abstract Pseudohypoparathyroidism type I is characterized by resistance (defined as a deficient urinary cAMP response) to parathyroid hormone and, in most cases, hypocalcemia and hyperphosphatemia. Many patients with pseudohypoparathyroidism type I snow a peculiar somatic phenotype termed Albrights hereditary osteodystrophy, but patients without this feature who show identical parathyroid hormone resistance have been described. Parathyroid hormone resistance in pseudohypoparathyroidism type I has been attributed to a defective parathyroid hormone receptor-adenylate cyclase complex. Recent studies have demonstrated deficient activity of the guanine nucleotide regulatory protein (G unit) of adenylate cyclase in many patients with Pseudohypoparathyroidism. Since the G unit is common to all tissues, as opposed to hormone receptors, which are tissue specific, a defective G unit should lead to resistance to multiple hormones that act by stimulating adenylate cyclase. To test this hypothesis, we studied erythrocyte G unit activity and clinical endocrine function in 29 patients with pseudohypoparathyroidism type I. Thirteen patients had deficient erythrocyte G unit activity (43 ± 9 percent of control [mean ± 1 SD]); 16 patients had normal G unit activity (92 ± 8 percent of control) (p

Is selective therapy of recurrent nephrolithiasis possible

We evaluated, in 128 patients with recurrent nephrolithiasis, the efficacy of special treatment programs for some of the common causes of nephrolithiasis, chosen on the basis of their ability to correct underlying physicochemical and physiologic derangements. Therapy included sodium cellulose phosphate for 18 patients with absorptive hypercalciuria, thiazide diuretics for 27 patients with absorptive hypercalciuria and for 10 with renal hypercalciuria, orthophosphate for eight patients with hypophosphatemic absorptive hypercalciuria, allopurinol for 21 patients with hyperuricosuric calcium oxalate nephrolithiasis, thiazide and allopurinol for 26 patients with absorptive hypercalciuria with hyperuricosuria, and high fluid intake and/or low calcium diet for 22 patients with normocalciuric nephrolithiasis. Patients in all seven groups had a significant reduction in stone formation during 1.70 to 3.37 years of treatment, as compared with the pretreatment period of three years. Remission was found in 70 to 91 percent of patients and reduced stone formation rate was encountered in 88 to 100 percent. Each treatment program produced a significant decline in stone formation rate from 1.90 to 2.28 stones per year to 0.09 to 0.55 stones per year. The actual number of stones formed during treatment was significantly lower than the number predicted from the pretreatment frequency of stone formation (less than 26 percent). The results provide evidence supporting a selective approach to therapy of nephrolithiasis.

Slow-Release Sodium Fluoride in the Management of Postmenopausal Osteoporosis: A Randomized, Controlled Trial

Although fluoride can cause osteoblastic proliferation [1, 2] and stimulate new bone formation [3], its use in managing osteoporosis has been associated with frequent and sometimes serious complications, including gastric bleeding and microfractures [3]. Excessive exposure may lead to fluorosis [4], characterized by a formation of abnormal bone that may be poorly mineralized and mechanically defective. Further, in a placebo-controlled randomized trial [3], continuous treatment with plain (nonsustained release) sodium fluoride and calcium carbonate supplementation did not produce a statistically significant decrease in the spinal fracture rate despite a substantial increase in the lumbar vertebral bone mass. We previously reported [5, 6] a nonrandomized trial in which intermittent slow-release sodium fluoride with continuous calcium citrate supplementation stimulated the formation of normally mineralized bone and decreased the spinal fracture rate without serious complications. In 1986, we initiated a randomized trial using slow-release sodium fluoride plus calcium citrate compared with placebo plus calcium citrate in 99 patients with postmenopausal osteoporosis. The trial is ongoing, with an average duration of treatment in the two study groups of 2.44 and 2.14 cycles (14 mo/cycle) and with 15 patients completing the intended 4 cycles of treatment. Although the study is not expected to be completed until August 1996, this interim analysis was done in response to a request for an update at the Fourth International Symposium on Osteoporosis [7]. The trial will be completed in order to determine if the treatment effect is sustained. We believe that the interim analysis will not affect the conduct of the remainder of the trial. Methods Clinical Data Recruited into the trial were 110 fully ambulatory white women with postmenopausal osteoporosis, all of whom were referred for symptomatic osteoporosis by practicing physicians because of an inadequate response to conventional therapy or the unwillingness of physicians to care for them. No other ethnic groups were enrolled, probably because of the rarity of postmenopausal osteoporosis and the nature of the referred patients in the study areas. The entry criteria were as follows: postmenopausal state, radiographic evidence of osteoporosis, and one or more vertebral fractures believed to be nontraumatic. Exclusion criteria were as follows: the presence of conditions causing bone loss such as hyperparathyroidism, adrenocorticosteroid excess, thyrotoxicosis, chronic diarrheal state or malabsorption, renal tubular acidosis, renal impairment (endogenous creatinine clearance less than 0.7 mL/min per kg); previous treatment with diphosphonate, calcitonin, or fluoride; active peptic ulcer disease; and skeletal fractures that could not be quantified for anatomic or technical reasons. Those taking pharmacologic doses of vitamin D preparations were accepted if they had discontinued the drug for at least 6 months. At recruitment, 31 patients were taking estrogen (treatment initiated after osteoporosis was diagnosed). Thirteen patients had documented recurrent spinal fractures while receiving estrogen. The total duration of estrogen therapy represented about a third of their postmenopausal state (mean, 8 years). This treatment, usually consisting of conjugated estrogen, 0.625 mg/d given continuously or intermittently (25 d/mo), and intermittent progesterone (5 mg/d for 10 d/mo), was continued during the trial. Patients receiving estrogen had similar baseline demographic characteristics as patients not receiving estrogen and were considered at increased risk for further fractures. Randomization and Treatment Scheme Participants were randomly assigned to the two treatment groups, stratified according to estrogen treatment (untreated or estrogen-treated). Patients in the treatment group received slow-release sodium fluoride (Slow Fluoride; Mission Pharmacal Company, San Antonio, Texas), 25 mg twice daily given orally before breakfast and at bedtime intermittently in repeated cycles of 14 months (12 months receiving treatment, followed by 2 months off treatment) and calcium citrate (Citracal, Mission Pharmacal Company) as 400 mg of calcium twice daily before breakfast and at bedtime. In the placebo group, medication identical in appearance to Slow Fluoride that was devoid of sodium fluoride was given on the same time schedule along with calcium citrate at the same dose and schedule. Study Protocol Patients were evaluated in an outpatient setting before treatment and at 3, 6, 9, 12, and 14 months of each cycle. At each visit, a careful history was taken for gastrointestinal and musculoskeletal side effects defined as symptoms that newly appeared or increased from baseline without apparent cause and persisted more than a month during treatment or disappeared during withdrawal. Where severe lower-extremity pain lasted more than 2 weeks, the protocol required a bone scan followed by radiographs for detection of microfracture; however, none was required. In addition, systematic multichannel analysis of venous blood, complete peripheral blood count, and 24-hour urinary calcium were determined at each visit; serum parathyroid hormone, reticulocyte count, and 24-hour urinary hydroxyproline were measured before and at 6 and 12 months of each cycle. Serum fluoride was measured before the morning dose of slow-release sodium fluoride at 0, 6, and 12 months of each cycle. Before treatment and at 12 months of each cycle, a lateral spinal radiograph was obtained to detect spinal fractures; moreover, bone mineral content of the L2 to L4 vertebrae, bone density of the distal third of the radius of the nondominant forearm, and bone density of the femoral neck were measured. Quantitation of Spinal Fractures Lateral spinal films taken before treatment and at 12 months of the first cycle were compared in order to determine new and recurrent fractures occurring during the first cycle of treatment. For each vertebra from T3 to L5, landmarks (anterior and posterior corners and midpoints) were recorded using an electrostatic digitizing board (Scriptel Corporation, Columbus, Ohio) with a coefficient of variation of 1.5%. A computer software program developed by one of the authors was used to compute changes in vertebral heights and area, and to calculate the magnification error between the two sets of radiographs. After correction for the magnification error, if any, a decrease in height of more than 20% of anterior, middle, or posterior height, accompanied by a decrease in area of more than 10% in a previously unaffected vertebra, was considered a new fracture [8], or if the decrease was in a previously fractured vertebra, it was considered to be a recurrent fracture. Identical criteria were used to identify new and recurrent fractures occurring during the second cycle (by comparing 26 months with 12 months), during the third cycle (by comparing 40 months with 26 months), and during the fourth cycle (by comparing 54 months with 40 months). Moreover, spinal films taken after the last cycle of follow-up were compared not only with the immediately preceding films but also with earlier radiographs. The same procedure was followed for the identification of new and recurrent fractures. Thus, it was possible to detect fractures occurring during two or more cycles (cumulative fractures) that escaped disclosure by previous cycle-to-cycle analysis. Bone Mass Measurement During the course of this study, two instruments were used to measure the L2 to L4 bone mineral content and the femoral neck bone density. A dual-photon x-ray absorptiometer (1.5 version, Lunar Radiation, Madison, Wisconsin) was used initially. It was replaced by quantitative digital radiography (Hologic, Waltham, Massachusetts) that yielded different absolute values for bone mass. The following procedures were adopted to accommodate problems imposed by the measurement of bone mass by two different densitometers. First, in estimating the extent of spinal bone loss at baseline, a given patients L2 to L4 bone density obtained by either method was compared with the mean value for a normal 30-year-old woman established for the corresponding instrument. Second, in quantifying changes in the L2 to L4 bone mineral content and the femoral neck bone density produced by treatment, results were expressed as a percentage change for each cycle rather than as absolute values. When the same densitometer was used at the beginning and the end of a given cycle, the experimentally derived values were used to calculate the percentage change in bone mineral content or bone density. For a given cycle with the initial bone mass obtained by the Lunar method and the final bone mass measured by the Hologic technique, a correction factor was applied to convert the Lunar-derived value to the latter value. In patients who initially had bone mass determined by the Lunar method, a concurrent analysis by the Hologic instrument was done before converting to the latter technique for subsequent follow-up measurements. Thus, a correction factor could be calculated. The radial shaft bone density was obtained throughout the study by a single-photon absorptiometer (Norland, Ft. Atkinson, Wisconsin) [9]. For follow-up measurements, actual experimentally derived bone densities were used to calculate the percentage change in bone density for each cycle. The coefficient of variation for the L2 to L4 bone mineral content using the Lunar or Hologic method was 1%, whereas that for the femoral neck bone density and the radial shaft bone density was 1% to 2%. Biochemical Analysis The blood screen was done as SMA-20 (Smith-Kline Laboratory, Dallas, Texas). The serum parathyroid hormone level was analyzed by the whole-molecule, immunoradiometric assay (using a kit from Nichols Institute, San Juan Capistrano, California). The serum fluoride level was measured using an ion-specific electrode. The urinary

Impaired bone formation in male idiopathic osteoporosis: Further reduction in the presence of concomitant hypercalciuria

We present iliac bone histomorphometric data and related biochemical data from 16 nonalcoholic men (50±11 (SD) years) referred for evaluation of spontaneous skeletal and/or appendicular fractures and reduced spinal bone density. All men were eugonadal and had no known underlying disorder associated with osteopenia. For the group, mean serum chemistry values were within normal limits including immunoreactive parathyroid hormone, osteocalcin and serum 1,25-dihydroxyvitamin D [1,25(OH)2D]. Nine men demonstrated hypercalciuria (⩾0.1 mmol/kg per day) while on a constant metabolic diet of 20 mmol/day Ca. Their 24-hour urinary calcium was significantly greater than that for the remaining 7 men (7.4±1.6 vs. 5.0±0.8 mmol/day,p=0.003), as was their calciuric response to a 1 g oral calcium load (0.23±0.06 vs. 0.15±0.05 Ca/creatinine,p=0.042). Serum parameters (including parathyroid hormone and 1,25(OH)2D) of hypercal-ciuric and normocalciuric men were not significantly different. Histomorphometric indices for cancellous bone demonstrated significant differences between the entire group of osteoporotic men and age-adjusted normal values for bone volume (11.4±4.0% vs. 23.2±4.4%), osteoid surface (5.6±3.9% vs. 12.1±4.6%), osteoblastic surface (2.0±2.3% vs. 3.9±1.9%), and mineralizing surface (1.9±2.4% vs. 5.1±2.7%);there were also significant differences in bone formation rate (total surface referent) (0.004±0.001 vs. 0.011±0.006 mm3/mm2 per year). Compared with the normocalciuric group the 9 hypercalciuric men had significantly lower osteoblastic surfaces (1.6±1.9% vs. 2.5±2.6%) and mineralizing surfaces (1.4±1.5% vs. 2.7±3.2%). Cortical bone indices demonstrated a similar trend in formation parameters although these differences did not reach significance. These results suggest that idiopathic osteoporosis in men is characterized by suppressed bone formation due to reduced osteoblast proliferation and that this defect is exaggerated in hypercalciuric men as opposed to normocalciuric men. The cause for suppressed bone formation and increased intestinal absorption of calcium in some men is not known but may be the result of 1,25(OH)2D or some previously unrecognized factor(s).

Oral contraceptive pills, gonadotropin-releasing hormone agonists, or use in combination for treatment of hirsutism: a clinical research center study.

The effectiveness of oral contraceptive pills (OCPs), GnRH agonist (GnRH-a), and a combination of OCPs and GnRH-a in the treatment of hirsute women was compared and the impact of these treatments on hormonal and Ca metabolism was investigated. Thirty-three women were prospectively enrolled and randomized into three treatment groups (11 in each group). The serum levels of LH, estradiol, testosterone, free testosterone, androstenedione, and 17-hydroxyprogesterone declined in all 3 treatment groups, whereas the inclusion of GnRH-a treatment tended to promote a more rapid decrease in these hormone levels. Total cholesterol, low density lipoprotein, and high density lipoprotein levels remained unchanged. The assessment of hirsutism by the Ferriman-Gallwey score revealed a similar 25% reduction in score by all three treatment groups by 6 months. In addition, no difference was detected between groups with respect to hair diameters and the vellus index. Clinical assessment of hirsutism at 3 months by the patients revealed that the GnRH-a and the OCPs-plus-GnRH-a groups had better responses than the group on OCPs alone, but by 6 months all three groups were similar. The symptoms of hot flashes and vaginal dryness were greatest in subjects treated with GnRH-a alone. Serum Ca, phosphorus, alkaline phosphatase, osteocalcin, and 2-h fasting and 24-h urinary Ca excretion levels all increased significantly in subjects treated with the GnRH-a alone, whereas a decrement or no changes occurred for these measurement in the other two groups. The estimated Ca balance was unchanged in the OCPs and the OCPs-plus-GnRH-a groups but declined by 90 mg/day from baseline in the GnRH-a-treated women (p < or = 0.001). Bone density significantly decreased in the lumber spine in women treated with GnRH-a alone, with a less marked decline in the femoral neck. In contrast, women receiving OCPs plus GnRH had increased bone density in the lumbar spine. It is concluded that: 1) clinical measures of hirsutism are not different after 6 months of treatment with OCPs alone, GnRH-a alone, or a combination of the two; 2) the decline in gonadotropins and steroid hormones and improvement in clinical response were more rapid and pronounced when GnRH-a treatment was added to OCP administration; and 3) the negative impact of GnRH-a alone on Ca balance and bone loss limits its usefulness as a single agent for long-term therapy of hirsutism.

Southwestern internal medicine conference: normal and abnormal regulation of 1,25-(OH)2D synthesis

1,25-Dihydroxyvitamin D (1,25-(OH)2D) plays a crucial role in the maintenance of blood calcium and phosphorus levels and in normal skeletal mineralization. The concentration of this metabolite in the blood is, by necessity, tightly regulated. The most important stimuli for renal 1,25-(OH)2D synthesis include parathyroid hormone (PTH), its second messenger cyclic adenosine monophosphate (cAMP) and phosphate deprivation. Hypocalcemia and calcitonin, initially thought to act via stimulation of PTH release, have now been shown to directly stimulate 1-hydroxylation. Estrogens also increase 1,25-(OH)2D production, probably by upregulating renal PTH receptors. Inhibitors of the renal 25-(OH)D 1 alpha-hydroxylase include 1,25-(OH)2D itself, hypercalcemia, and phosphate loading. The PTH-vitamin D axis as modulated by the serum ionized calcium level controls adaptation to alterations in dietary calcium and sodium intake and to changes in skeletal turnover based on the level of physical activity. Although normally the renal production of 1,25-(OH)2D is tightly regulated and changes little in response to vitamin D challenge, there are certain conditions in which 1,25-(OH)2D appears to be substrate-dependent. These include hypoparathyroidism, hyperparathyroidism, vitamin D deficiency, sarcoidosis and the anephric state, conditions in which PTH is not well-modulated by alterations in serum ionized calcium or in which extrarenal synthesis of 1,25-(OH)2D occurs. In several disorders, including absorptive hypercalciuria, pseudohypoparathyroidism, hypophosphatemic rickets, and tumoral calcinosis, the regulation of the renal 1 alpha-hydroxylase appears to be altered.

Noninvasive localization of parathyroid adenomas: A comparison of X-ray computerized tomography, ultrasound, scintigraphy and MRI

Thirty-two (32) patients with primary hyperparathyroidism (17 with prior localization surgery, 15 without) were studied by a combination of computed tomography (CT), ultrasound (US), nuclear medicine (NM), and magnetic resonance imaging (MRI) for parathyroid adenoma localization. The sensitivity and true-positive ratio of each imaging technique and various combinations of techniques were evaluated. Of the 28 proven parathyroid adenomas (27 by surgery, 1 by digital subtraction angiography), 24 were imaged by two techniques, 19 by three techniques, and 10 by all four imaging techniques. The sensitivities were NM (65%), CT (76%), US (77%), and MRI (81%). The differences between true-positive ratios of 82%, 64%, 71%, and 77%, respectively, were not statistically significant. If multiple techniques were considered as a single test (i.e., a positive localization requires two or more tests to be positive at the same location), then sensitivity for a two-study combination was 79% and true-positive ratio 86%. Three techniques showed a sensitivity of 63% and a true-positive ratio of 92%, four modalities 40% and 100%, respectively. There was no significant difference in the various combinations of techniques employed (e.g., CT and US, US and MR, NM and MR, etc.). Thus, there appears to be an advantage in performing multiple techniques (regardless of which combination is selected) until two tests are positive at the same location.

Vitamin D receptor quantitation in human blood mononuclear cells in health and disease

Vitamin D receptor (VDR) concentration was quantitated in human peripheral blood mononuclear cells (PBMC) from patients with absorptive hypercalciuria (AH) and patients with high 1,25(OH)2D3 due to acquired or transient disease states and the results compared to those in normal subjects. VDR concentration in resting cells was not different between the three groups and represented constitutive receptor expression of monocytes. Following activation with phytohemagglutinin, patients with hypercalcitriolemia demonstrated significantly greater VDR concentrations. Patients with AH demonstrated a normal value for the group, but 6 patients had significantly greater concentrations of VDR despite normal plasma 1,25(OH)2D3 in four of the patients. Proliferation, as assessed from [3H]thymidine incorporation was inversely correlated with serum 1,25(OH)2D3 and was significant (R = -0.299, p = 0.048). Taken together, the results suggest that PBMC provide a useful system for studying VDR status in transient or acquired states of hypercalcitriolemia. Furthermore, the studies in patients with absorptive hypercalciuria disclosed it to be a heterogeneous disorder, characterized by both vitamin D-dependent and D-independent forms of receptor up-regulation.