Hypocitraturia Is an Untoward Side Effect of Synthetic Human Parathyroid Hormone (hPTH) 1-34 Therapy in Hypoparathyroidism That May Increase Renal Morbidity.

Subcutaneous human parathyroid hormone (hPTH) therapy can effectively manage hypocalcemia in hypoparathyroidism, with varying effects on hypercalciuria. However, little is known about its ability to decrease the renal comorbidities of hypoparathyroidism: nephrocalcinosis (NC), nephrolithiasis (NL), and renal insufficiency. Urinary citrate (Ucit) promotes the solubility of urinary calcium (UCa); hypocitraturia is a risk factor for NC/NL. Twenty-four-hour UCa, Ucit, and UCa/Ucit were determined in 31 hypoparathyroid subjects receiving hPTH 1-34 therapy for up to 5 years. Before hPTH 1-34, the geometric least squares mean UCa was 346 mg/day (normal <250) and Ucit was 500 mg/day (normal 250-1190); UCa/Ucit was 0.67 mg/mg. After 6 months of hPTH 1-34, UCa decreased (238, p < 0.001), but with a greater decrease in Ucit (268, p < 0.001), increasing UCa/Ucit, which became significant over time (p < 0.001). After stopping hPTH 1-34 and resuming conventional therapy (follow-up; FU), compared to the last measures on hPTH 1-34, Ucit rose to 626 (p < 0.001), reducing UCa/Ucit to 0.44, (p < 0.05); UCa also rose (273), but was still lower than baseline (p < 0.05). Daily hPTH 1-34 dose did not correlate with UCa, but was inversely related to Ucit, and directly related to UCa/Ucit (p < 0.01). Mean blood bicarbonate decreased significantly on hPTH 1-34 and remained lower than baseline at FU (p < 0.01). Mean eGFR increased on hPTH 1-34 (86 to 96 mL/min/1.73 m2 , p < 0.001) and returned to baseline at FU. On renal imaging, 6 subjects did not have NC/NL, 8 had NC/NL prior to hPTH 1-34 that remained unchanged, and 16 developed new-onset (n = 10) or progressive (n = 6) NC/NL while on hPTH 1-34. Our data demonstrate that treatment with subcutaneous hPTH 1-34 may have an untoward effect of hypocitraturia and high UCa/Ucit ratio that may increase renal morbidity. With increasing use of PTH therapy in hypoparathyroidism, close monitoring and exploration for treatment of hypocitraturia seem warranted. Published 2018. This article is a U.S. Government work and is in the public domain in the USA.

Continuous Subcutaneous Recombinant Parathyroid Hormone (1-34) Infusion in the Management of Childhood Hypoparathyroidism Associated with Malabsorption.

BACKGROUND/AIMS: Hypoparathyroidism associated with malabsorption can be particularly challenging to manage due to limited and erratic intestinal absorption of calcium and vitamin D analogues, resulting in episodes of hypo- or hypercalcaemia. We evaluated the role of continuous subcutaneous recombinant parathyroid hormone (rhPTH 1-34) infusion (CSPI) in children with hypoparathyroidism associated with intestinal malabsorption resistant to conventional therapy. METHOD: Four patients (8-13 years of age), with symptomatic hypocalcaemia resistant to conventional therapy, were started on CSPI (follow-up 3-8 years) in two paediatric endocrinology units in Europe. RESULTS: Serum calcium normalized within 48 h of commencing treatment in all 4 patients. An average rhPTH 1-34 dose of 0.4 µg/kg/day resulted in a substantial reduction in symptomatic hypocalcaemia and hypo-/hypercalcaemia-related hospital admissions. An increased alkaline phosphatase activity was noted in the first 6 months on CSPI, indicating an increase in bone turnover. In 2 patients with elevated urinary calcium excretion before CSPI, this normalized in the first year on treatment. No significant side effects were noticed in the short or long term, with patient-reported preference of CSPI over conventional treatment. CONCLUSION: CSPI is a promising and effective treatment option for managing hypocalcaemia and hyperphosphataemia in children with hypoparathyroidism associated with intestinal malabsorption.

[Clinical characteristics of adult-onset primary hypoparathyroidism: a retrospective analysis of 200 cases].

Objective: To study the clinical characteristics of primary hypoparathyroidism in adults. Methods: The clinical data of 200 cases with adult-onset primary hypoparathyroidism in Peking Union Medical College Hospital during December 1987 to December 2015 were collected and analyzed retrospectively. Among them, 128 cases were followed up for a median period of 3 years. Results: The major manifestations at their first visits were tetany and numbness in the distal extremities(81.5%, 163/200 and 62.0%, 124/200). Thirty-two percent of the cases (62 cases) had history of seizures, and 60.9%(98/161) and 74.4%(96/129) of them were with intracerebral calcifications and cataracts, respectively.Most of subjects(155/200)had more than one year delay in diagnosis. Hypercalciuria occurred in 67.2%(86/128) of the cases during the follow-up. No significant differences in the clinical characteristics and biochemical markers between the hypercalciuria subjects and the non-hypercalciuria subjects. Renal nephrocalcinosis or stones were found in 6.5%(5/77) of the cases, and kidney function decreased in 6.6%(6/91) of the patients. Kidney function was negatively associated with age and duration of disease. Conclusions: The predominant manifestations of primary hypoparathyroidism in adults included tetany and numbness in the distal extremities and seizures. It is often misdiagnosed. Calcium supplement combined with vitamin D or its metabolites effectively relieve clinical symptoms and signs. The serum and urinary calcium levels should be monitored frequently to reduce renal complications.

Parathyroid Hormone Replacement Therapy in Hypoparathyroidism: A Meta-Analysis.

This study investigated the effect of human parathyroid hormone replacement therapy on specific disease-related outcomes in patients with hypoparathyroidism. Medline, Cochrane, EMBASE, and Google Scholar databases were searched until January 13, 2015 for randomized trials using the following search terms: hypoparathyroidism, parathyroid hormone/PTH, and hormone replacement therapy. Five randomized controlled trials (n=245) that investigated effect of either PTH (1-34) (3 trials) or PTH (1-84) (2 trials) on serum calcium, phosphate, 1, 25-dihydroxyvitamin D, 25-dihydroxyvitamin D levels, and urine level of calcium were included in the meta-analysis. Both PTH (1-34) and PTH (1-84) therapies were not associated with change in serum calcium level compared with calcitriol/placebo. The level of 24-h urine calcium excretion had a significant decrease in PTH (1-34)-treated group compared placebo/calcitriol (control) group (p≤0.012). PTH (1-34) did not change serum phosphate (p=0.053). PTH (1-84) did not change level of 24-h urine calcium excretion compared with control (p≥0.214) but it did decrease the levels of serum phosphorous (p=0.000). Both PTH-replacement therapies were not associated with change in serum 1,25-dihydroxyvitamin D level compared with control (p≥0.606), but were associated with a significant decrease in serum 25-dihydroxyvitamin D levels (p≤0.04). In conclusion, although the number of randomized trial is limited, our meta-analysis suggests that PTH (1-34) replacement therapy may maintain the serum calcium levels in the normal range by reducing the levels of urine calcium excretion, and both replacement therapies may maintain 1,25-dihydroxyvitamin D serum levels by reducing serum level of 25-dihydroxyvitamin D.

Therapy of Hypoparathyroidism With PTH(1-84): A Prospective Six Year Investigation of Efficacy and Safety.

CONTEXT: Human recombinant (rh)PTH(1-84) was recently approved for the treatment of refractory hypoparathyroidism, based upon a short-term phase 3 clinical trial. Long-term data are needed, because no time limit was placed on the treatment period. OBJECTIVE: We studied the effect of long-term rhPTH(1-84) treatment in hypoparathyroidism for up to 6 years. DESIGN: Prospective open-label study. SETTING: Referral center. PATIENTS: A total of 33 subjects with hypoparathyroidism. INTERVENTIONS: rhPTH(1-84) treatment was initiated at a starting dose of 100 µg every other day for 6 years. Due to the availability of new dosages during the 6-year time period of the study, the dose could be and was adjusted for most patients to a daily dosing regimen. MAIN OUTCOME MEASURES: Supplemental calcium and vitamin D requirements, serum and urinary calcium (monthly for 6 mo and then biannually), serum phosphorus, bone turnover markers, and bone mineral density (BMD) biannually. RESULTS: Treatment with rhPTH(1-84) progressively reduced supplemental calcium requirements over 6 years by 53% (P < .0001) and 1,25-dihydroxyvitamin D requirements by 67% (P < .0001). Sixteen subjects (48%) were able to eliminate 1,25-dihydroxyvitamin D supplementation completely. Serum calcium concentration remained stable, and urinary calcium excretion fell. Lumbar spine BMD increased (3.8 ± 1%, P = .004) as did total hip BMD (2.4 ± 1%, P = .02), whereas femoral neck BMD remained stable and the distal one third radius decreased (-4.4 ±1%, P < .0001). Bone turnover markers increased significantly, reaching a 3-fold peak above baseline values at 1 year and subsequently declining but remaining higher than pretreatment values. Hypercalcemia was uncommon (12 episodes over 6 y; 2.5% of all values). CONCLUSIONS: Long-term, continuous therapy of hypoparathyroidism for 6 years with rhPTH(1-84) is associated with reductions in supplemental calcium and calcitriol requirements, stable serum calcium concentration, and reduced urinary calcium excretion. The safety profile remains good. These data represent the longest experience with the therapeutic use of PTH for any condition and demonstrate its long-term efficacy and safety in hypoparathyroidism.

AN OPEN-LABEL EXTENSION STUDY OF PARATHYROID HORMONE RHPTH(1-84) IN ADULTS WITH HYPOPARATHYROIDISM.

OBJECTIVE: Hypoparathyroidism is characterized by inadequate parathyroid hormone (PTH), resulting in hypocalcemia, hyperphosphatemia, and bone abnormalities. Adults with hypoparathyroidism treated with recombinant human PTH, rhPTH(1-84), in the 24-week, phase III REPLACE study maintained serum calcium despite reductions in oral calcium and active vitamin D. This study assessed the long-term efficacy and safety of rhPTH(1-84) for hypoparathyroidism. METHODS: This was a 24-week, open-label, flexible-dose extension study of REPLACE (REPEAT) conducted in 3 outpatient centers in Hungary. Patients who previously completed or enrolled in REPLACE received 50 µg/day rhPTH(1-84), escalated to 75 and then to 100 µg/day, if needed, to reduce active vitamin D and oral calcium. The primary endpoint was ≥50% reduction in oral calcium (or ≤500 mg/day) and active vitamin D (or calcitriol ≤0.25 µg/day or alfacalcidol ≤0.50 µg/day) with normocalcemia. RESULTS: Twenty-four patients (n = 16 previously treated with rhPTH[1-84]; n = 8 rhPTH[1-84]-naïve) were enrolled and completed the study. At Week 24, 75% of patients (95% confidence interval [CI], 53.3-90.2%) achieved the study endpoint; 58% eliminated oral calcium and active vitamin D. Urinary calcium, serum phosphate, and calcium × phosphate (Ca × P) product decreased by Week 24. Mean serum bone turnover markers increased with rhPTH(1-84). Treatment-emergent adverse events (TEAEs) were reported by 92% of patients. No serious adverse events (AEs) occurred. CONCLUSION: This study used a simplified treatment algorithm intended to better mimic typical clinical practice and demonstrated the extended efficacy and safety of rhPTH(1-84) in patients with hypoparathyroidism and confirmed the REPLACE findings. Sustained rhPTH(1-84) efficacy up to 48 weeks was observed despite treatment interruption between studies.

PTH(1-84) replacement therapy in hypoparathyroidism: a randomized controlled trial on pharmacokinetic and dynamic effects after 6 months of treatment.

Untreated, hypoparathyroidism (hypoPT) is a state of hypocalcemia with inappropriately low plasma parathyroid hormone (PTH) levels and hyperphosphatemia. PTH administration normalizes plasma calcium and phosphate levels and reduces the doses of calcium and active vitamin D analogues needed. To develop an evidence-based clinical algorithm to monitor hypoPT patients treated with recombinant human PTH (rhPTH[1-84]) injected subcutaneously in the thigh, we performed a 24-hour monitoring study of pharmacokinetic and pharmacodynamic effects in a group of 38 patients who had completed a 6-month randomized study on effects of treatment with a fixed rhPTH(1-84) dose of 100 µg/d or similar placebo as an add-on to conventional treatment. PTH levels rose immediately, reaching a median peak level of 26.5 (interquartile range [IQR], 20.1-42.5) pmol/L 15 minutes following injection. Thereafter, levels gradually decreased until reaching predosing levels after 16 hours, with a plasma half-life of 2.2 (1.7-2.5) hours. rhPTH(1-84) changed the diurnal rhythms of ionized calcium levels and 1,25-dihydroxyvitamin D (1,25[OH]2 D) levels, with rising levels following injection. Ionized calcium peaked after 7.0 (5.0-10.0) hours. Asymptomatic hypercalcemia was present in 71% of the rhPTH(1-84)-treated patients. Compared with placebo, 24-hour urinary calcium, phosphate, and magnesium did not change, although the diurnal variation in renal excretion rates changed significantly in response to treatment. In conclusion, as a safety precaution, we recommend occasionally measuring calcium levels at approximately 7 hours after administration in order to reveal episodes of hypercalcemia. A 100-µg daily dose of rhPTH(1-84) appears to be too high in some patients, suggesting a need for a device allowing for individual dose adjustments.

Daily parathyroid hormone 1-34 replacement therapy for hypoparathyroidism induces marked changes in bone turnover and structure.

Parathyroid hormone (PTH) has variable actions on bone. Chronically increased PTH is catabolic and leads to osteoporosis; yet intermittent administration is anabolic and increases bone mass. PTH deficiency is associated with decreased bone remodeling and increased bone mass. However, the effects of PTH replacement therapy on bone in hypoparathyroidism are not well known. We discontinued calcitriol therapy and treated 5 hypoparathyroid subjects (2 adults and 3 adolescents) with synthetic human PTH 1-34 (hPTH 1-34), injected two to three times daily for 18 months, with doses individualized to maintain serum calcium at 1.9 to 2.25 mmol/L. Biochemical markers and bone mineral density (BMD) were assessed every 6 months; iliac-crest biopsies were performed before and after 1 year of treatment. hPTH 1-34 therapy significantly increased bone markers to supranormal levels. Histomorphometry revealed that treatment dramatically increased cancellous bone volume and trabecular number and decreased trabecular separation. Changes in trabecular width were variable, suggesting that the increase in trabecular number was due to the observed intratrabecular tunneling. Cortical width remained unchanged; however, hPTH 1-34 treatment increased cortical porosity. Cancellous bone remodeling was also stimulated, inducing significant changes in osteoid, mineralizing surface, and bone formation rate. Similar changes were seen in endocortical and intracortical remodeling. BMD Z-scores were unchanged at the spine and femoral neck. Total hip Z-scores increased; however, total body BMD Z-scores decreased during the first 6 months of treatment and then stabilized, remaining significantly decreased compared to baseline. Radial Z-scores also decreased with treatment; this was most pronounced in the growing adolescent. Daily hPTH 1-34 therapy for hypoparathyroidism stimulated bone turnover, increased bone volume, and altered bone structure in the iliac crest. These findings suggest that treatment with hPTH 1-34 in hypoparathyroid adults and adolescents has varying effects in the different skeletal compartments, leading to an increase in trabecular bone and an apparent trabecularization of cortical bone.

Treatment of hypocalcemia caused by hypoparathyroidism or pseudohypoparathyroidism with domestic-made calcitriol: a prospective and self-controlled clinical trial.

BACKGROUND: Parathyroid hormone deficiency or resistance may cause hypocalcemia with related symptoms and signs. Lifelong treatment of calcium combined with vitamin D or its metabolites is always necessary for these patients. Here we reported a prospective and open-label trial to investigate the efficacy and safety of domestic-made calcitriol in treatment of hypocalcemia caused by hypoparathyroidism or pseudohypoparathyroidism. METHODS: Twenty-four patients with confirmed hypoparathyroidism or pseudohypoparathyroidism aged (36.5 +/- 11.0) years old were studied. Among them, 16 patients had idiopathic hypoparathyroidism, 2 had pseudohypoparathyroidism and 6 had hypoparathyroidism secondary to cervical surgery. Serum calcium levels were lower than 1.88 mmol/L. Oral calcitriol was administered twice or three times with elemental calcium 1.2 g per day. All patients were followed every 4 weeks throughout the 12-week period. Dose adjustments of calcitriol were based on serum and urinary calcium levels and symptoms of hypocalcemia. RESULTS: Twenty patients were included by the end of this study. Muscular weakness, cramps, extremity paresthesia, Chovestek's sign and Trousseau's sign were relieved in 76.9%, 100%, 94.4%, 93.3% and 78.9% of patients, respectively. Serum calcium, plasma ionized calcium and serum phosphorus levels were (1.54+/-0.25) mmol/L, (0.64+/-0.10) mmol/L and (2.00+/-0.46) mmol/L at baseline, and reached (2.20+/-0.20) mmol/L, (0.95+/-0.06) mmol/L and (1.68+/-0.25) mmol/L (P<0.01) at the 12th week of treatment, respectively. Eighty percent of patients were assessed as effective and 20% as partly effective. Three, four and eight patients had hypercalciuria at the 4th, 8th and 12th week of treatment, respectively, which were reduced by thiazide diuretics. The final dose of calcitriol was (1.09+/-0.50) microg/d. CONCLUSIONS: Calcitriol combined with calcium can be used in treatment of hypocalcemia caused by hypoparathyroidism or pseudohypoparathyroidism effectively and safely. Serum and urinary calcium levels should be monitored during the course of the therapy.

PTH(1-34) replacement therapy in a child with hypoparathyroidism caused by a sporadic calcium receptor mutation.

Autosomal dominant hypocalcemia (ADH) is an inherited form of hypoparathyroidism caused by activating mutations in the calcium-sensing receptor (CaR). Treatment with PTH(1-34) may be superior to conventional therapy but is contraindicated in children, and long-term effects on the skeleton are unknown. The patient is a 20-yr-old female with ADH treated with PTH continuously since 6 yr and 2 mo of age. A bone biopsy was obtained for histomorphometry and quantitative backscattered electron imaging (qBEI). Her data were compared with one age-, sex-, and length of hypoparathyroidism-matched control not on PTH and two sex-matched ADH controls before and after 1 yr of PTH. The patient's growth was normal. Hypercalciuria and hypermagnesuria persisted despite normal or subnormal serum calcium and magnesium levels. Nephrocalcinosis, without evidence of impaired renal function, developed by 19 yr of age. Cancellous bone volume was dramatically elevated in the patient and in ADH controls after 1 yr of PTH. BMD distribution (BMDD) by qBEI of the patient and ADH controls was strikingly shifted toward lower mineralization compared with the non-ADH control. Moreover, the ADH controls exhibited a further reduction in mineralization after 1 yr of PTH. These findings imply a role for CaR in bone matrix mineralization. There were no fractures or osteosarcoma. In conclusion, long-term PTH replacement in a child with ADH was not unsafe, increased bone mass without negatively impacting mineralization, and improved serum mineral control but did not prevent nephrocalcinosis. Additionally, this may be the first evidence of a role for CaR in human bone.

Effects of once versus twice-daily parathyroid hormone 1-34 therapy in children with hypoparathyroidism.

CONTEXT: Hypoparathyroidism is among the few hormonal insufficiency states not treated with replacement of the missing hormone. Long-term conventional therapy with vitamin D and analogs may lead to nephrocalcinosis and renal insufficiency. OBJECTIVE: Our objective was to compare the response of once-daily vs. twice-daily PTH 1-34 treatment in children with hypoparathyroidism. SETTING: The study was conducted at a clinical research center. SUBJECTS: Fourteen children ages 4-17 yr with chronic hypoparathyroidism were studied. STUDY DESIGN: This was a randomized cross-over trial, lasting 28 wk, which compared two dose regimens, once-daily vs. twice-daily PTH1-34. Each 14-wk study arm was divided into a 2-wk inpatient dose-adjustment phase and a 12-wk outpatient phase. RESULTS: Mean predose serum calcium was maintained at levels just below the normal range. Repeated serum measures over a 24-h period showed that twice-daily PTH 1-34 increased serum calcium and magnesium levels more effectively than a once-daily dose. This was especially evident during the second half of the day (12-24 h). PTH 1-34 normalized mean 24-h urine calcium excretion on both treatment schedules. This was achieved with half the PTH 1-34 dose during the twice-daily regimen compared with the once-daily regimen (twice-daily, 25 +/-15 microg/d vs. once-daily, 58 +/- 28 microg/d; P < 0.001). CONCLUSIONS: We conclude that a twice-daily PTH 1-34 regimen provides a more effective treatment of hypoparathyroidism compared with once-daily treatment because it reduces the variation in serum calcium levels and accomplishes this at a lower total daily PTH 1-34 dose. The results showed, as in the previous study of adult patients with hypoparathyroidism, that a twice-daily regimen produced significantly improved metabolic control compared with once-daily PTH 1-34.

Sporadic hypoparathyroidism treated with teriparatide: a case report and literature review.

Herein we describe the case of a 64-year-old woman with hypoparathyroidism diagnosed at the age of 40, after an acute episode of tetany and seizures due to severe hypocalcemia. She was treated for more than 20 years with calcitriol and calcium supplementation but she presented with marked hypercalciuria and recently nephrolithiasis, although serum calcium was maintained at levels below normal range. Provided that any attempt to increase the recommended dose of calcitriol was leading to an exacerbation of hypercalciuria, we decided to enroll an alternative tool in the treatment strategy. In order to avoid further deterioration of renal function she was administered once-daily a subcutaneous (sc) injection of synthetic human parathyroid hormone (PTH 1-34) while doses of calcium and calcitriol were gradually decreased depending on the response of calcium metabolism in serum and urine samples taken periodically. Within two months of administration, PTH (1-34) significantly reduced the level of urine calcium excretion compared with calcitriol therapy and maintained serum calcium in the normal range. The relevant literature is reviewed in light of this alternative therapeutic approach in long-standing hypoparathyroidism, illustrating the potential benefits and the unresolved issues in parathyroid hormone replacement.

Effect of parathyroid hormone administration in a patient with severe hypoparathyroidism caused by gain-of-function mutation of calcium-sensing receptor.

Hypoparathyroidism caused by gain-of-function mutations of the calcium-sensing receptor (CaR) in the transmembrane domain is usually severe and difficult to manage. A patient with severe hypoparathyroidism, caused by CaR activating mutation F821L, was treated for 3 days (Day 1 to Day 3) with synthetic human parathyroid hormone 1-34 (teriparatide, PTH). An Ellsworth-Howard test of the patient revealed normal responses of urine phosphate and cyclic AMP excretion, indicating that the patient's renal tubules normally responded to extrinsic PTH. On Day 1 to Day 3, 0.9 microg/kg/day of PTH was administered subcutaneously twice daily at 0800 and 2000. On Day 1, the serum calcium level that was 1.8 mmol/l before PTH administration increased to 2.1 mmol/l at 1200, and gradually decreased to 1.8 mmol/l at 2000. On Days 2 and 3, the maximum calcium levels were 2.5 and 2.4 mmol/l, respectively, at 1200. At 2000, they returned to or below basal levels at 0800. On Day 4 without PTH administration, the calcium levels were maintained at the basal levels at Day 0. The urine calcium/creatinine (Ca/Cr) ratio that was high (>0.4) before PTH injection decreased after PTH administration (0.4>). Changes in the ionized calcium levels were almost parallel with the total calcium levels. The serum inorganic phosphate (IP) level decreased to 2.4 mmol/l at 1000, but gradually increased before the second PTH injection to the level at 0800 on Day 1. The minimum IP level on Days 2 and 3 was 2.1 mmol/l and 2.0 mmol/l, respectively. In contrast to the remarkable changes in the serum calcium level by PTH treatment, the serum magnesium levels showed few changes. These results indicate that PTH therapy could be effective in correcting serum and urine calcium and the phosphate levels in hypoparathyroidism caused by activating mutation of CaR.

Hypoparathyroidism: a rare treatable cause of epilepsy - report of two cases.

Hypoparathyroidism occurs due to insufficient production of parathyroid hormone to maintain extracellular calcium levels within the normal range. The acute clinical symptoms and signs of hypoparathyroidism are those of hypocalcaemia, ranging from tingling and numbness of limb extremities to intractable seizures. Often seizures are mistaken for epilepsy. Though hypoparathyroidism is not uncommon, the diagnosis is often missed due to its unusual clinical manifestation. This is the first documented report with vitamin D, Parathormone levels and urinary biochemical parameters from India. We present two cases of hypoparathyroidism who presented with seizures along with a short review of literature.

Pregnancy and sarcoidosis: an insight into the pathogenesis of hypercalciuria.

Hypercalciuria with or without hypercalcemia is a well-known complication of sarcoidosis, the pathogenesis of which is not fully understood. Pregnancy is associated with physiologic alterations in calcium metabolism. These changes can further alter the derangement of calcium metabolism that occurs in sarcoidosis, if the two conditions coexist. We had the opportunity to study prospectively the changes in serum and urine calcium along with all the hormonal changes that occur during pregnancy in a young woman with sarcoidosis, who had hypercalciuria at presentation. We believe that an increased level of calcitriol is central to the calcium abnormalities in our patient. In her case, the increased calcitriol is derived from sarcoid granulomas and renal sources enhanced by the effect of estradiol and prolactin on the conversion of 25(OH)D to 1,25(OH)(2) D. She acquired hypoparathyroidism, with normal serum calcium, which probably was due to the direct suppression of parathyroid hormone (PTH) secretion by calcitriol. Finally, hypercalciuria is the result of the combined effect of hyperabsorption of calcium from the gut (the result of increased calcitriol levels leading to increased filtration of calcium) and decreased tubular reabsorption of calcium, as a result of undetectable PTH.

Comparison of hypocalcemic hypercalciuria between patients with idiopathic hypoparathyroidism and those with gain-of-function mutations in the calcium-sensing receptor: is it possible to differentiate the two disorders?

Gain-of-function mutations in the calcium ion-sensing receptor (CaR) cause hypocalcemia with low PTH levels. It is stated that patients with activating CaR mutations generally show milder degree of hypocalcemia before treatment and more profound hypercalciuria during treatment than those with idiopathic hypoparathyroidism (IHP). To test this validity we analyzed the data of serum and urinary calcium collected from 85 patients with IHP and 15 with activating CaR mutations. The mean (+/-SEM) serum calcium concentration before treatment was significantly higher (P: < 0.001) in patients with activating CaR mutations (1.76 +/- 0.05 mmol/L; n = 15) than in those with IHP (1.41 +/- 0.03; n = 58), but there was a substantial overlap in the range of hypocalcemia between the two groups (1.25-2. 05 vs. 0.90-1.95). The mean urinary calcium/creatinine ratio (Ca/Cr) in patients with activating CaR mutations before treatment (0.362 +/- 0.045 mmol/mmol; n = 9) was almost equal to that in normocalcemic controls (0.331 +/- 0.022; n = 56) and markedly higher (P: < 0.001) than in patients with IHP (0.093 +/- 0.008; n = 57). The overlap of pretreatment urinary Ca/Cr between the 2 disorders was relatively small; subnormal urinary Ca/Cr was observed in only 1 of 9 patients with CaR mutations and in the majority (49 of 57) of patients with IHP. In contrast to pretreatment findings, the degree of hypercalciuria during treatment was not different between the 2 disorders. The data points of urinary Ca/Cr plotted as a function of the serum calcium concentration were not separable between patients with CaR mutations (n = 8) and those with IHP (n = 40). Comparison of urinary Ca/Cr between 2 patients with a CaR mutation and 7 with IHP over a wide range of serum calcium concentrations measured during 4-8 yr of treatment also indicated that the 2 disorders were inseparable. These results suggested that inappropriately normal urinary Ca/Cr in patients with untreated hypocalcemia, mostly of mild degree, might be a better biochemical clue than the development of severe hypercalciuria during treatment to suspect gain-of-function mutations in the CaR.

Synthetic human parathyroid hormone 1-34 vs calcitriol and calcium in the treatment of hypoparathyroidism.

OBJECTIVE: To test the hypothesis that treatment with human parathyroid hormone 1-34 (PTH 1-34) can maintain normal serum calcium without hypercalciuria in patients with hypoparathyroidism. DESIGN: Randomized crossover trial lasting 20 weeks. Each 10-week arm consisted of a 2-week inpatient dose-adjustment phase followed by an 8-week outpatient phase. SETTING: Tertiary care center. PATIENTS: A total of 10 patients with hypoparathyroidism were enrolled consecutively over a 15-month period. Half of the patients were prior National Institutes of Health patients, and the other 5 patients were referred from outside physicians. INTERVENTIONS: A dose of PTH 1-34 was administered each morning by subcutaneous injection. Calcitriol was given orally twice daily with supplemental calcium carbonate. MAIN OUTCOME MEASURES: Serum and urine calcium and phosphorus levels. RESULTS: Once-daily treatment with PTH 1-34 maintained serum calcium in the normal range with decreased urine calcium excretion (P<.05 at 2 weeks and P<.Ol at 10 weeks) compared with calcitriol treatment. Biochemical markers of bone turnover increased significantly (P<.Ol at 10 weeks) during PTH 1-34 treatment. CONCLUSIONS: Treatment of hypoparathyroidism with PTH 1-34 reduces urine calcium excretion compared with treatment with calcitriol and calcium.

The relationship between serum intact parathyroid hormone and calcium in idiopathic hypoparathyroidism.

We studied the relationship between serum calcium (Ca) and parathyroid hormone (PTH) in patients with idiopathic hypoparathyroidism (IHP) to investigate the diversity of the degree of parathyroid insufficiency and a regulation of PTH secretion by Ca in IHP. Serum intact PTH concentrations ranged from < 1.0 to 10.3 pg/ml in 20 patients with IHP and were above the detection limit in 18 (90%) patients. Serum total Ca levels in IHP were positively correlated with serum intact PTH (r = 0.824, P < 0.001), in contrast with a negative correlation between serum intact PTH and Ca in 91 normal subjects (r = -0.378, P < 0.001) and abnormally high serum intact PTH values against hypocalcemia in five patients with pseudohypoparathyroidism. In three patients with IHP, serum intact PTH decreased in response to treatment with active vitamin D3 which increased serum Ca and 1,25(OH)2D. An inverse sigmoidal relationship between serum ionized Ca and intact PTH was demonstrated in a patient with IHP before treatment [IHP(-)] and three patients with IHP treated with active vitamin D3[IHP(+)]. Peak serum intact PTH values were reduced in IHP(-) and IHP(+). Baseline serum intact PTH was 77.0% of the maximal level in IHP(-), 51.7-72.1% in IHP(+), and 31.1-42.3% in five normal subjects. The degree of parathyroid dysfunction in IHP differs from one patient to another and serum Ca levels are thought to be determined by circulating PTH levels. Although PTH secretory reserve is diminished, PTH secretion is negatively regulated by Ca and is stimulated at baseline in patients with IHP before and during the treatment with active vitamin D3.