Your search keyword '"Hypercalcemia congenital"' showing total 145 results

1. Familial hypocalciuric hypercalcemia in an infant: diagnosis and management quandaries.

Author

Goldsweig B, Turk Yilmaz RS, Ravindranath Waikar A, Brownstein C, and Carpenter TO

Subjects

Humans, Female, Infant, Newborn, Calcium blood, Parathyroid Hormone blood, Receptors, Calcium-Sensing genetics, Infant, Adaptor Protein Complex 2, Adaptor Protein Complex sigma Subunits, Hypercalcemia genetics, Hypercalcemia diagnosis, Hypercalcemia congenital, Hypercalcemia therapy, Hypercalcemia blood

Abstract

Familial hypocalciuric hypercalcemia (FHH) is typically a benign condition characterized by elevated serum calcium, low urinary calcium excretion, and non-suppressed circulating levels of parathyroid hormone (PTH), usually requiring no intervention. FHH is inherited in an autosomal-dominant manner. Three subtypes are described, representing variants in genes with critical roles in extracellular calcium-sensing. FHH1, due to heterozygous inactivating variants in the calcium-sensing receptor gene (CASR), accounts for the majority of cases. FHH2, due to variants in GNA11, encoding the α-subunit of the downstream signaling protein, G11, is the rarest form of FHH. FHH3, resulting from variants in AP2S1, may present with a more pronounced phenotype than FHH1 or FHH2. We describe herein a newborn girl presenting with in utero femoral fractures, hypercalcemia, hypophosphatemia, and elevated circulating PTH. She was diagnosed with mild hyperparathyroidism and provided supplemental phosphate upon hospital discharge. However, serum calcium and PTH remained elevated at 5 mo of age. The combination of low-calcium formula and cinacalcet improved the biochemical profile. No pathogenic variants in the coding region of CASR were identified; subsequent whole exome sequencing revealed a G- > T transition at c.44 (p.R15L) in AP2S1. Family studies identified this variant in the father and an affected brother. The mother was unexpectedly found to be hypocalcemic and was diagnosed with idiopathic hypoparathyroidism. This case demonstrates successful treatment of FHH3 using a low-calcium formula to limit dietary calcium availability and cinacalcet to modify PTH levels., (© The Author(s) 2024. Published by Oxford University Press on behalf of the American Society for Bone and Mineral Research. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2024

2. [Familial Hypocalciuric Hypercalcemia Type 1 Likely Secondary to a New Inactivating Mutation of CASR].

Author

Zanchelli F, Giudicissi A, Neri L, Sgarlato V, Bruno PF, Ruggeri M, Signorotti S, Apuzzo D, Notaro E, and Buscaroli A

Subjects

Humans, Mutation, Male, Female, Receptors, Calcium-Sensing genetics, Hypercalcemia genetics, Hypercalcemia diagnosis, Hypercalcemia congenital

Abstract

Familial Hypocalciuria Hypercalcemia (FHH) is an inherited disease with autosomal dominant transmission characterized by the presence of usually mild-to-moderate hypercalcemia, hypophosphatemia, hypocalciuria, and normal or moderately increased PTH values. Generally, FFH is asymptomatic although symptoms related to elevated plasma calcium values such as asthenia, intense thirst, polyuria, polydipsia or confusional state may occur. Three types of FHH, which differ in the genetic alterations underlying the condition, are described. The majority of FHH cases are classified as type 1 (about 65 percent of cases), due to mutation in the gene for the calcium-sensitive receptor CASR, expressed on chromosome (Chr) 3q13.3-21, which encodes for a calcium-sensitive receptor G-protein-coupled protein of the plasma membrane. FHH types 2 and 3 are due to GNA11 and AP2S1 mutations, respectively, and other genes involved in the pathogenesis of the disease have likely yet to be identified. Rarely, familial hypocalciuric hypercalcemia may not recognize a genetic cause but be caused by autoantibodies directed against CASR. The frequency of the disease is not known and is estimated, probably by default, because of paucisymptomatic presentation of the disease, to be around 1:80000 cases. Recognition of FHH is especially important for differential diagnosis with primary hyperparathyroidism, which has a much higher incidence, about 1:1000 cases. This allows for the identification of patients at risk for chondrocalcinosis and/or pancreatitis. Clinical suspicion must be raised in cases of hypercalcaemia associated with hypocalciuria, and genetic analysis is fundamental in the differential diagnosis toward forms of primary hyperparathyroidism that might result in unnecessary surgical interventions. We describe a clinical case in which a novel inactivating mutation of CASR leading to FHH type 1 was found., (Copyright by Società Italiana di Nefrologia SIN, Rome,Italy.)

Published

2024

3. A novel mouse model for familial hypocalciuric hypercalcemia (FHH1) reveals PTH-dependent and independent CaSR defects.

Author

Küng CJ, Daryadel A, Fuente R, Haykir B, de Angelis MH, Hernando N, Rubio-Aliaga I, and Wagner CA

Subjects

Animals, Male, Mice, Calcium metabolism, Disease Models, Animal, Mice, Inbred C57BL, Hypercalcemia genetics, Hypercalcemia metabolism, Hypercalcemia congenital, Parathyroid Hormone metabolism, Parathyroid Hormone genetics, Receptors, Calcium-Sensing genetics, Receptors, Calcium-Sensing metabolism

Abstract

The Calcium-sensing receptor (CaSR) senses extracellular calcium, regulates parathyroid hormone (PTH) secretion, and has additional functions in various organs related to systemic and local calcium and mineral homeostasis. Familial hypocalciuric hypercalcemia type I (FHH1) is caused by heterozygous loss-of-function mutations in the CaSR gene, and is characterized by the combination of hypercalcemia, hypocalciuria, normal to elevated PTH, and facultatively hypermagnesemia and mild bone mineralization defects. To date, only heterozygous Casr null mice have been available as model for FHH1. Here we present a novel mouse FHH1 model identified in a large ENU-screen that carries an c.2579 T > A (p.Ile859Asn) variant in the Casr gene (Casr BCH002 mice). In order to dissect direct effects of the genetic variant from PTH-dependent effects, we crossed Casr BCH002 mice with PTH deficient mice. Heterozygous Casr BCH002 mice were fertile, had normal growth and body weight, were hypercalcemic and hypermagnesemic with inappropriately normal PTH levels and urinary calcium excretion replicating some features of FHH1. Hypercalcemia and hypermagnesemia were independent from PTH and correlated with higher expression of claudin 16 and 19 in kidneys. Likewise, reduced expression of the renal TRPM6 channel in Casr BCH002 mice was not dependent on PTH. In bone, mutations in Casr rescued the bone phenotype observed in Pth null mice by increasing osteoclast numbers and improving the columnar pattern of chondrocytes in the growth zone. In summary, Casr BCH002 mice represent a new model to study FHH1 and our results indicate that only a part of the phenotype is driven by PTH., (© 2024. The Author(s).)

Published

2024

4. Gα11 deficiency increases fibroblast growth factor 23 levels in a mouse model of familial hypocalciuric hypercalcemia.

Author

Ay B, Cyr SM, Klovdahl K, Zhou W, Tognoni CM, Iwasaki Y, Rhee EP, Dedeoglu A, Simic P, and Bastepe M

Subjects

Animals, Female, Male, Mice, Hypophosphatemia genetics, Hypophosphatemia metabolism, Interleukin-1beta metabolism, Interleukin-1beta genetics, Interleukin-1beta blood, Liver metabolism, Parathyroid Hormone blood, Parathyroid Hormone metabolism, Signal Transduction, Disease Models, Animal, Fibroblast Growth Factor-23, Fibroblast Growth Factors blood, Fibroblast Growth Factors genetics, Fibroblast Growth Factors metabolism, GTP-Binding Protein alpha Subunits, Gq-G11 genetics, GTP-Binding Protein alpha Subunits, Gq-G11 metabolism, Hypercalcemia genetics, Hypercalcemia congenital, Hypercalcemia blood, Hypercalcemia metabolism, Mice, Knockout

Abstract

Fibroblast growth factor 23 (FGF23) production has recently been shown to increase downstream of Gαq/11-PKC signaling in osteocytes. Inactivating mutations in the gene encoding Gα11 (GNA11) cause familial hypocalciuric hypercalcemia (FHH) due to impaired calcium-sensing receptor signaling. We explored the effect of Gα11 deficiency on FGF23 production in mice with heterozygous (Gna11+/-) or homozygous (Gna11-/-) ablation of Gna11. Both Gna11+/- and Gna11-/- mice demonstrated hypercalcemia and mildly raised parathyroid hormone levels, consistent with FHH. Strikingly, these mice also displayed increased serum levels of total and intact FGF23 and hypophosphatemia. Gna11-/- mice showed augmented Fgf23 mRNA levels in the liver and heart, but not in bone or bone marrow, and also showed evidence of systemic inflammation with elevated serum IL-1β levels. Furin gene expression was significantly increased in the Gna11-/- liver, suggesting enhanced FGF23 cleavage despite the observed rise in circulating intact FGF23 levels. Gna11-/- mice had normal renal function and reduced serum levels of glycerol-3-phosphate, excluding kidney injury as the primary cause of elevated intact FGF23 levels. Thus, Gα11 ablation caused systemic inflammation and excess serum FGF23 in mice, suggesting that patients with FHH - at least those with GNA11 mutations - may be at risk for these complications.

Published

2024

5. [First Report of a Family with Familial Hypocalciuric Hypercalcemia in Chile: Differential Diagnosis in a Patient with PTH-Dependent Hypercalcemia Post-Parathyroidectomy].

Author

Valenzuela R F and González V G

Subjects

Humans, Female, Middle Aged, Diagnosis, Differential, Chile, Pedigree, Receptors, Calcium-Sensing genetics, Hypercalcemia genetics, Hypercalcemia diagnosis, Hypercalcemia congenital, Parathyroidectomy, Parathyroid Hormone blood

Abstract

We report a 45-year-old woman with persistent post-parathyroidectomy PTH-dependent asymptomatic hypercalcemia who, after evaluation in our bone clinic, was diagnosed as having familial hypocalciuric hypercalcemia based on concomitant hypocalciuria and a family history of asymptomatic hypercalcemia. Genetic study shows a variant of uncertain significance in the CASR gene. To our knowledge, this is the first report on a Chilean family with HHF.

Published

2024

6. Clinical and outcome comparison of genetically positive vs. negative patients in a large cohort of suspected familial hypocalciuric hypercalcemia.

Author

Asla Q, Sardà H, Seguí N, Martínez de Pinillos G, Mazarico-Altisent I, Capel I, Rives J, Suárez J, Ávila-Rubio V, Muñoz Torres M, Saigí I, Palacios N, Urgell E, Webb SM, Fernández M, Oriola J, Mora M, Tondo M, and Aulinas A

Subjects

Humans, Retrospective Studies, Magnesium, Prospective Studies, Hypercalcemia diagnosis, Hypercalcemia genetics, Hypercalcemia congenital, Hyperparathyroidism, Primary diagnosis

Abstract

Objective: Biochemical suspicion of familial hypocalciuric hypercalcemia (FHH) might provide with a negative (FHH-negative) or positive (FHH-positive) genetic result. Understanding the differences between both groups may refine the identification of those with a positive genetic evaluation, aid management decisions and prospective surveillance. We aimed to compare FHH-positive and FHH-negative patients, and to identify predictive variables for FHH-positive cases., Design: Retrospective, national multi-centre study of patients with suspected FHH and genetic testing of the CASR, AP2S1 and GNA11 genes., Methods: Clinical, biochemical, radiological and treatment data were collected. We established a prediction model for the identification of FHH-positive cases by logistic regression analysis and area under the ROC curve (AUROC) was estimated., Results: We included 66 index cases, of which 30 (45.5%) had a pathogenic variant. FHH-positive cases were younger (p = 0.029), reported more frequently a positive family history (p < 0.001), presented higher magnesium (p < 0.001) and lower parathormone levels (p < 0.001) and were less often treated for hypercalcemia (p = 0.017) in comparison to FHH-negative cases. Magnesium levels showed the highest AUROC (0.825, 95%CI: 0.709-0.941). The multivariate analysis revealed that family history and magnesium levels were independent predictors of a positive genetic result. The predictive model showed an AUROC of 0.909 (95%CI: 0.826-0.991)., Conclusions: The combination of magnesium and a positive family history offered a good diagnostic accuracy to predict a positive genetic result. Therefore, the inclusion of magnesium measurement in the routine evaluation of patients with suspected FHH might provide insight into the identification of a positive genetic result of any of the CaSR-related genes., (© 2023. The Author(s).)

Published

2024

7. Identification and characterization of a novel CASR mutation causing familial hypocalciuric hypercalcemia.

Author

Lin CM, Ding YX, Huang SM, Chen YC, Lee HJ, Sung CC, and Lin SH

Subjects

Male, Humans, Middle Aged, Receptors, Calcium-Sensing genetics, Receptors, Calcium-Sensing metabolism, Calcium metabolism, Mutation, Hypercalcemia drug therapy, Hypercalcemia genetics, Hypercalcemia diagnosis, Hypercalcemia congenital, Hyperparathyroidism, Kidney Diseases

Abstract

Context: Although a monoallelic mutation in the calcium-sensing receptor ( CASR ) gene causes familial hypocalciuric hypercalcemia (FHH), the functional characterization of the identified CASR mutation linked to the clinical response to calcimimetics therapy is still limited., Objective: A 45-year-old male presenting with moderate hypercalcemia, hypocalciuria, and inappropriately high parathyroid hormone (PTH) had a good response to cinacalcet (total serum calcium (Ca 2+ ) from 12.5 to 10.1 mg/dl). We identified the genetic mutation and characterized the functional and pathophysiological mechanisms, and then linked the mutation to calcimimetics treatment in vitro ., Design: Sanger sequencing of the CASR , GNA11 , and AP2S1 genes was performed in his family. The simulation model was used to predict the function of the identified mutant. In vitro studies, including immunoblotting, immunofluorescence, a cycloheximide chase study, Calbryte™ 520 Ca 2+ detection, and half-maximal effective concentration (EC 50 ), were examined., Results: This proband was found to carry a de novo heterozygous missense I554N in the cysteine-rich domain of CASR , which was pathogenic based on the different software prediction models and ACGME criteria. The simulation model showed that CASR I554N mutation decreased its binding energy with Ca 2+ . Human CASR I554N mutation attenuated the stability of CASR protein, reduced the expression of p-ERK 1/2, and blunted the intracellular Ca 2+ response to gradient extracellular Ca 2+ (eCa 2+ ) concentration. The EC 50 study also demonstrated the correctable effect of calcimimetics on the function of the CASR I554N mutation., Conclusion: This novel CASR I554N mutation causing FHH attenuates CASR stability, its binding affinity with Ca 2+ , and the response to eCa 2+ corrected by therapeutic calcimimetics., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Lin, Ding, Huang, Chen, Lee, Sung and Lin.)

Published

2024

8. Reduced affinity of calcium sensing-receptor heterodimers and reduced mutant homodimer trafficking combine to impair function in a model of familial hypocalciuric hypercalcemia type 1.

Author

Wang X, Lundblad J, and Smith SM

Subjects

Calcium metabolism, Humans, Infant, Newborn, Mutation, Receptors, Calcium-Sensing genetics, Receptors, Calcium-Sensing metabolism, Hypercalcemia congenital, Hypercalcemia genetics, Hypercalcemia metabolism, Hyperparathyroidism, Primary

Abstract

Heterozygous loss-of-function mutation of the calcium sensing-receptor (CaSR), causes familial hypocalciuric hypercalcemia type 1 (FHH1), a typically benign condition characterized by mild hypercalcemia. In contrast, homozygous mutation of this dimer-forming G-protein coupled receptor manifests as the lethal neonatal severe hyperparathyroidism (NSHPT). To investigate the mechanisms by which CaSR mutations lead to these distinct disease states, we engineered wild-type (WT) and an exon 5-deficient disease-causing mutation, and transfected expression constructs into human embryonic kidney (HEK) cells. WT protein was mainly membrane-expressed whereas the mutant CaSR protein (mCaSR) was confined to the cytoplasm. Co-expression of WT CaSR directed mCaSR to the cell membrane. In assays of CaSR function, increases in extracellular [Ca2+] ([Ca2+]o) increased intracellular [Ca2+] ([Ca2+]i) in cells expressing WT CaSR while the response was reduced in cells co-expressing mutant and WT receptor. Untransfected cells or those expressing mCaSR alone, showed minimal, equivalent responses to increased [Ca2+]o. Immunoprecipitation experiments confirmed an association between mutant and wild-type CaSR. The affinity of the WT CaSR for calcium was three times greater than that of the heterodimer. The maximal functional response to [Ca]o was dependent on localization of CaSR to the membrane level and independent of homo- or heterodimerizations. In summary, these results suggest that heterodimerization of WT and mCaSR receptors, rescues the trafficking defect of the mutant receptors and also reduces the affinity of the WT-mutant heterodimer for [Ca]o. In contrast, the homozygous mutants do not produce functional receptors on cell membrane. These data indicate how substantial differences between signaling of hetero- and homodimeric mutants may lead to profound differences in the severity of disease in heterozygous and homozygous carriers of these mutations., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

9. A case of familial hypocalciuric hypercalcemia type 1 due to CASR p.Pro55Leu mutation.

Author

Sumida A, Iizuka K, Kato T, Liu Y, Kubota S, Kubota-Okamoto S, Sakurai T, Imaizumi T, Takahashi Y, Mizuno M, Takao K, Hirota T, Suwa T, Horikawa Y, Yamamoto M, Seino Y, Suzuki A, and Yabe D

Subjects

Adolescent, Calcium, Female, Humans, Male, Mutation, Receptors, Calcium-Sensing genetics, Hypercalcemia congenital, Hypercalcemia diagnosis, Hypercalcemia genetics, Hyperparathyroidism, Primary diagnosis, Hyperparathyroidism, Primary genetics

Abstract

Background: Familial hypocalciuric hypercalcemia (FHH) is a rare autosomal dominant disease, which requires differential diagnosis from relatively common primary hyperparathyroidism (PHPT) in order to avoid unnecessary surgery., Case Presentation: A 16-year-old female had been followed by the department of psychosomatic medicine at our institution. Throughout the follow-up period, her plasma calcium levels were high, plasma Pi levels were relatively low, and plasma intact PTH was relatively high. She was referred to our department to determine the cause of her hypercalcemia. Her 24 h urinary calcium excretion was as low as 100 mg/day, and calcium creatinine clearance ratio was below 0.01. Moreover, she had a family history of hypercalcemia (proband, her brother, and her father). The genetic testing for her family revealed that she, her brother, and her father were definitively diagnosed with FHH type 1 due to the heterozygous calcium-sensing receptor mutation (NM&#95;00388:4:c.164C > T:p.Pro55Leu)., Conclusion: We experienced a 16-year-old female with FHH, in whom genetic testing identified the heterozygous calcium-sensing receptor mutation (NM&#95;00388:4:c.164C > T:p.Pro55Leu) as pathogenic, permitting a definitive diagnosis of FHH type 1. The genetic testing for calcium sensing receptor is beneficial to distinguish asymptomatic primary hyperparathyroidism from FHH., (© 2022. The Author(s).)

Published

2022

10. Prenatal bone abnormalities in three cases of familial hypocalciuric hypercalcemia.

Author

Frerot A, Baudouin V, Rideau-Batista A, Couderc A, Garel C, Soltane S, Colella M, Vargas-Poussou R, and Hureaux M

Subjects

Calcium, Female, Humans, Infant, Newborn, Male, Mutation, Pregnancy, Receptors, Calcium-Sensing genetics, Hypercalcemia complications, Hypercalcemia congenital, Hypercalcemia diagnosis, Hypercalcemia genetics, Hyperparathyroidism complications, Kidney Diseases complications

Abstract

Introduction: Prenatal diagnosis of bone and mineralization anomalies is associated with a wide range of etiologies and prognoses. The improvement of antenatal ultrasound combined with the development of molecular diagnosis in genetics has transformed antenatal medicine into a challenging discipline. Of the various known causes of bone abnormalities and hypomineralization, calcium and phosphate metabolism disorders are exceptional. An accurate diagnosis is crucial for providing appropriate genetic counseling and medical follow-up after birth., Case: We report on three siblings with severe bone abnormalities diagnosed during the second trimester ultrasound of pregnancy. Postnatal follow-up showed transitory hyperparathyroidism, with hypercalcemia and hypocalciuria., Methods: Sanger sequencing performed after birth in the three newborns revealed a monoallelic pathogenic variant in the CASR gene, encoding the calcium sensing receptor, confirming the diagnosis of familial hypocalciuric hypercalcemia, paternally inherited. Postnatal evolution was favorable after treatment with a calcimimetic agent., Conclusions: Previously, prenatal bone abnormalities caused by familial hypocalciuric hypercalcemia had only been described in one patient. This entity should be considered as differential diagnosis of bones abnormalities. Knowing about this unusual etiology is important to guide the diagnosis, the prenatal counseling and to improve medical management., (© 2022 John Wiley & Sons Ltd.)

Published

2022

11. A Novel Genetic Variant Resulting in Familial Hypocalciuric Hypercalcaemia.

Author

Coughlan AK, Khan F, and Brassill MJ

Subjects

Adolescent, Calcium, Humans, Male, Hypercalcemia congenital, Hypercalcemia genetics

Abstract

Presentation A 17-year-old male was referred to the endocrinology service with an incidental finding of hypercalcaemia. Over the course of the previous year his calcium ranged from 2.64-2.77mmol/L (reference range: 2.2-2.6mmol/L) in the setting of a normal/low parathyroid hormone (PTH) of 14-35pg/ml (reference range: 15-65pg/ml). Diagnosis Following biochemical confirmation of hypocalciuric hypercalcaemia he was referred for molecular genetic analysis which showed a heterozygous variant in the CASR gene previously undescribed in the literature: c.491A>G; p.GIn164Arg. Treatment The patient and his parents were reassured with regard to the benign nature of the condition and counselled with regard to its inheritance. Discussion Though there is little data on this genetic variant, it is assumed to have caused familial hypocalciuric hypercalcaemia (FHH) in this gentleman. FHH is an important differential in hypercalcaemia as it can be misdiagnosed as primary hyperparathyroidism, potentially leading to unnecessary surgical intervention., Competing Interests: None to declare.

Published

2022

12. Familial hypocalciuric hypercalcemia: the challenge of diagnosis.

Author

Lasbleiz A, Paladino NC, Romanet P, Castinetti F, Cuny T, Sebag F, and Taïeb D

Subjects

Calcium, Humans, Receptors, Calcium-Sensing, Hypercalcemia congenital, Hypercalcemia diagnosis, Hypercalcemia genetics, Hyperparathyroidism

Published

2022

13. Severe neonatal hypercalcemia revealing congenital mesoblastic nephroma: A case report and management of neonatal hypercalcemia: Severe neonatal hypercalcemia revealing congenital mesoblastic nephroma.

Author

Tanné C, Pracros JP, Dijoud F, Mure PY, Bordet F, Duncan A, and Bacchetta J

Subjects

Calcium blood, Female, Food, Fortified, Furosemide therapeutic use, Humans, Hypercalcemia etiology, Hypercalcemia therapy, Hypertension, Infant Formula, Infant, Newborn, Kidney Neoplasms complications, Kidney Neoplasms surgery, Nephrectomy, Nephroma, Mesoblastic complications, Nephroma, Mesoblastic surgery, Pamidronate therapeutic use, Treatment Outcome, Hypercalcemia congenital, Kidney Neoplasms congenital, Nephroma, Mesoblastic congenital

Abstract

Congenital mesoblastic nephroma is a rare pediatric renal tumor and has been reported in patients presenting with palpable abdominal mass, arterial hypertension, hematuria, polyuria, or hypercalcemia. Here we present the case of a 1-month-old neonate with suspected parathyroid hormone (PTH)-related peptide (PTH-rp)-mediated severe hypercalcemia revealing congenital mesoblastic nephroma. Preoperatively, hypercalcemia was corrected with hydration, furosemide, pamidronate, and low-calcium infant formula. Unilateral nephrectomy led to the resolution of hypercalcemia, transient hyperparathyroidism, and transient vitamin D and mineral supplementation. We conclude that congenital mesoblastic nephroma can secrete PTH-rp that can cause severe hypercalcemia., Competing Interests: Declaration of Competing Interest The authors certify that they have no affiliations with or involvement in any organization or entity with any financial interest, or non-financial interest, in the subject matter or materials discussed in this manuscript., (Copyright © 2021 French Society of Pediatrics. Published by Elsevier Masson SAS. All rights reserved.)

Published

2022

14. Is routine 24-hour urine calcium measurement useful during the evaluation of primary hyperparathyroidism?

Author

Li SR, McCoy KL, Levitt HE, Kelley ML, Carty SE, and Yip L

Subjects

Aged, Creatinine urine, Diagnosis, Differential, Feasibility Studies, Female, Genetic Testing, Humans, Hypercalcemia diagnosis, Hypercalcemia genetics, Hypercalcemia urine, Hyperparathyroidism, Primary urine, Male, Middle Aged, Parathyroidectomy standards, Practice Guidelines as Topic, Retrospective Studies, Severity of Illness Index, Calcium urine, Hypercalcemia congenital, Hyperparathyroidism, Primary diagnosis, Urinalysis methods

Abstract

Background: Primary hyperparathyroidism and familial hypocalciuric hypercalcemia have similar biochemical profiles, and calcium-to-creatinine-clearance ratio helps distinguish the two. Additionally, 24-hour urine calcium >400 mg/day indicates surgery and guidelines recommend obtaining 24-hour urine calcium preoperatively. Our aim was to assess how 24-hour urine calcium altered care in the evaluation of suspected primary hyperparathyroidism., Methods: Consecutive patients assessed for primary hyperparathyroidism from 2018 to 2020 were reviewed. Primary hyperparathyroidism was diagnosed by 2016 American Association of Endocrine Surgeons Parathyroidectomy Guidelines criteria. 24-hour urine calcium-directed change in care was defined as familial hypocalciuric hypercalcemia diagnosis, surgical deferment for additional testing, or 24-hour urine calcium >400 mg/day as the sole surgical indication., Results: Of 613 patients, 565 (92%) completed 24-hour urine calcium and 477 (84%) had concurrent biochemical testing to calculate calcium-to-creatinine-clearance ratio. 24-hour urine calcium was <100 mg/day in 9% (49/565) and calcium-to-creatinine-clearance ratio was <0.01 in 17% (82/477). No patient had confirmed familial hypocalciuric hypercalcemia, although 1 had a CASR variant of undetermined significance. When calcium-to-creatinine-clearance ratio was <0.01, familial hypocalciuric hypercalcemia was excluded by 24-hour urine calcium >100 mg/day (56%), prior normal calcium (16%), renal insufficiency (11%), absence of familial hypercalcemia (3%), normal repeat 24-hour urine calcium (10%), or interfering diuretic (1%). 24-hour urine calcium-directed change in care occurred in 25 (4%), including 4 (1%) who had genetic testing. Four-gland hyperplasia was more common with calcium-to-creatinine-clearance ratio <0.01 (17% vs calcium-to-creatinine-clearance ratio ≥ 0.01, 4%, P < .001), but surgical failure rates were equivalent (P = .24)., Conclusion: 24-hour urine calcium compliance was high, and results affected management in 4%, including productive identification of hypercalciuria as the sole surgical indication in 2 patients. When calcium-to-creatinine-clearance ratio <0.01, clinical assessment was sufficient to exclude familial hypocalciuric hypercalcemia and only 1% required genetic testing. 24-hour urine calcium should be ordered judiciously during primary hyperparathyroidism assessment., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

15. Persistent hypercalcemia with similar familial Hypocalciuric hypercalcemia features: a case report and literature review.

Author

Zahedi M, Hizomi Arani R, Rafati M, Amouzegar A, and Hadaegh F

Subjects

Calcium blood, Creatinine blood, Diagnosis, Differential, Female, Genetic Testing, Humans, Hypercalcemia complications, Hypercalcemia diagnosis, Hypercalcemia etiology, Hyperparathyroidism, Primary blood, Parathyroid Hormone blood, Phenotype, Young Adult, Hypercalcemia blood, Hypercalcemia congenital, Hyperparathyroidism, Primary diagnosis

Abstract

Background: Primary hyperparathyroidism (PHPT) and familial hypocalciuric hypercalcemia (FHH) are the most important differential diagnosis of parathyroid hormone (PTH)-dependent hypercalcemia. The clinical features of FHH and PHPT can overlap in some cases. Therefore, these two diseases must be differentiated to prevent unnecessary parathyroidectomy. Here, we present a case that was not entirely matched with any of the known differential diagnoses of hypercalcemia., Case Presentation: A 19-year-old girl with no history of any disease presented with persistent hypercalcemia without any specific musculoskeletal complaint. We found persistent hypercalcemia in her routine laboratory data from 3 years ago; while no data was available during the childhood period. Her dietary calcium intake was normal. She did not mention any history of renal stone, bone fracture as well as family history of hypercalcemia. Biochemical features showed normal values of serum creatinine, high normal serum calcium (range, 10.3-11.3 mg/dL; (normal range: 8.8-10.4)), and non-suppressed PTH levels (range, 37.2-58.1 pg/mL; (normal range: 10-65)). Serum 25 OH vitamin D level at the first visit was 16.1 ng/mL that treated by vitamin D supplementation. Since then, all 25 OH vitamin D levels were in the acceptable range. After correction of vitamin D deficiency during the follow-up period the calcium creatinine clearance ratio(s) (CCCR) were calculated in the range of 0.009 to 0.014 (means below 1%). The clinical and laboratory data indicate more FHH rather than PHPT. Genetic studies were negative for the common genes associated with FHH (CASR, GNA11, and AP2S1 genes) and multiple endocrine neoplasia type1 (MEN1). On the other hand, no evidence of autoimmunity was found in her to support an autoimmune FHH-like syndrome. Hence, the case did not match completely to any diagnosis of FHH and PHPT, so we decided to follow her., Conclusion: We presented a patient with FHH phenotype whose common genetic tests were negative. Further research is needed to ascertain other causes leading to similar manifestations., (© 2021. The Author(s).)

Published

2021

16. THE FAMILIAL HYPOCALCIURIC HYPERCALCEMIA PRESENTED WITH ADVANCED HYPERCALCEMIA AND EXTREMELY HIGH PARATHORMON LEVELS (CASE REPORT).

Author

Cengiz H, Varim C, Demirci T, Cetin S, Karacaer C, and Koçer H

Subjects

Calcium, Female, Humans, Mutation, Parathyroid Hormone, Receptors, Calcium-Sensing genetics, Hypercalcemia congenital, Hypercalcemia diagnosis, Hypercalcemia genetics, Hyperparathyroidism, Primary complications, Hyperparathyroidism, Primary diagnosis, Hyperparathyroidism, Primary genetics

Abstract

Familial Hypocalciuric Hypercalcemia (FHH) is a rare benign condition inherited in an autosomal dominant pattern with high penetrance. This rare genetic condition is detected in approximately 2% of cases examined as primary hyperparathyroidism (PH). The Calcium Sensing Receptor (CaSR) gene's inactivating mutations result in a calcium-parathormone level-saturation curve shift to the right. Generally, the calcium level does not exceed 11,5 mg/dl and the PTH is seen normal. In our case and in her family, extreme high blood calcium levels up to 14 mg/dl and accompanying advanced parathyroid hormone levels rising up to five times the upper limit of normal were detected. Due to these high PTH levels and advanced hypercalcemia, she was thought to have PH as a primary diagnosis. The case and her family are an interesting phenomenon that do not clinically fit classical FHH.

Published

2021

17. Case Report: Severe Neonatal Course in Paternally Derived Familial Hypocalciuric Hypercalcemia.

Author

Höppner J, Lais S, Roll C, Wegener-Panzer A, Wieczorek D, Högler W, and Grasemann C

Subjects

Calcium metabolism, Humans, Hypercalcemia complications, Hyperparathyroidism, Primary etiology, Hyperparathyroidism, Primary metabolism, Infant, Newborn, Infant, Newborn, Diseases etiology, Infant, Newborn, Diseases metabolism, Male, Prognosis, Heat-Shock Proteins genetics, Hypercalcemia congenital, Hyperparathyroidism, Primary pathology, Infant, Newborn, Diseases pathology, Mutation, Paternal Inheritance, Scavenger Receptors, Class A genetics

Abstract

Familial hypocalciuric hypercalcemia (FHH, [OMIM #145980]) is recognized as a benign endocrine condition affecting PTH and calcium levels due to heterozygous inactivating mutations in the calcium sensing receptor ( CaSR ). The condition is often un- or misdiagnosed but may have a prevalence as high as 74 in 100.000. Here, the neonatal courses of two brothers with paternally inherited FHH ( CaSR c.554G>A; p.(Arg185Gln)) are described. The older brother was born preterm at 25 weeks gestation with hypercalcemia and hyperparathyroidism. The younger brother, born full-term, had severe hyperparathyroidism, muscular hypotonia, thrombocytopenia, failure to thrive and multiple metaphyseal fractures. Treatment with cinacalcet was initiated, which resulted in subsequent reduction of PTH levels and prompt clinical improvement. While it is known that homozygous mutations in CaSR may lead to life-threatening forms of neonatal severe hyperparathyroidism (NSHPT), few reports have described a severe clinical course in neonates with FHH due to heterozygous mutations. However, based on the pathophysiological framework, in de novo or paternally transmitted FHH the differing calcium needs of mother and fetus can be expected to induce fetal hyperparathyroidism and may result in severe perinatal complications as described in this report. In summary, FHH is a mostly benign condition, but transient neonatal hyperparathyroidism may occur in affected neonates if the mutation is paternally inherited. If severe, the condition can be treated successfully with cinacalcet. Patients with FHH should be informed about the risk of neonatal disease manifestation in order to monitor pregnancies and neonates., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Höppner, Lais, Roll, Wegener-Panzer, Wieczorek, Högler and Grasemann.)

Published

2021

18. Concomitant familial hypocalciuric hypercalcemia and single parathyroid adenoma: a case report.

Author

Marstrand SD, Tofteng CL, Jarløv A, Borgwardt L, and Schwarz P

Subjects

Calcium, Humans, Male, Middle Aged, Parathyroid Hormone, Hypercalcemia congenital, Hyperparathyroidism, Primary complications, Hyperparathyroidism, Primary diagnosis, Hyperparathyroidism, Primary genetics, Parathyroid Neoplasms diagnosis, Parathyroid Neoplasms diagnostic imaging

Abstract

Background: Primary hyperparathyroidism (PHPT) is a common endocrine disorder and the most frequent benign cause of hypercalcemia. PHPT is characterized by autonomous hypersecretion of parathyroid hormone (PTH), regardless of serum calcium levels. Familial hypocalciuric hypercalcemia (FHH) is a rare, benign syndrome only affecting the regulation of calcium metabolism. FHH is an autosomal-dominant genetic disease with high penetrance, caused by an inactivating variant in the CASR gene encoding the calcium-sensing receptor (CaSR). We present a unique case of concomitant PHPT and FHH without clinically actionable variants in MEN1., Case Presentation: A 47-year-old Caucasian man with severe hypercalcemia, genetic FHH, and initially normal parathyroid scintigraphy was referred for endocrine evaluation due to nonspecific symptoms. Biochemical evaluation showed elevated serum ionized calcium and PTH. The calcium-creatinine clearance ratio was low. All other biochemical measures were normal, including kidney function. Genetic evaluation was redone and confirmed FHH. A new parathyroid scintigraphy showed a significant single adenoma corresponding to the lower left gland. The patient underwent parathyroidectomy, and a parathyroid adenoma was removed. A reduced level of hypercalcemia persisted due to FHH., Conclusions: The correct diagnosis of the underlying cause of hypercalcemia is important to ensure the right treatment. Patients with FHH should avoid operative treatment, and PHPT should be differentiated from MEN1 to determine whether surgery should include parathyroidectomy with removal of one adenoma or 3.5 hyperplastic parathyroid glands., (© 2021. The Author(s).)

Published

2021

19. Urinary calcium indices in primary hyperparathyroidism (PHPT) and familial hypocalciuric hypercalcaemia (FHH): which test performs best?

Author

Arshad MF, McAllister J, Merchant A, Rab E, Cook J, Eastell R, and Balasubramanian S

Subjects

Aged, Case-Control Studies, Female, Humans, Hypercalcemia diagnosis, Hypercalcemia genetics, Hypercalcemia surgery, Hyperparathyroidism, Primary genetics, Male, Middle Aged, Reproducibility of Results, Treatment Outcome, Calcium urine, Hypercalcemia congenital, Hyperparathyroidism, Primary diagnosis, Hyperparathyroidism, Primary surgery

Abstract

Aim: Primary hyperparathyroidism (PHPT) is much more common than familial hypocalciuric hypercalcaemia (FHH), but there is considerable overlap in biochemical features. Urine calcium indices help with the differential diagnosis, but their reliability in making this distinction is not clear. The aim of this study was to compare urinary calcium values in patients with PHPT and FHH., Methods: This was a case-control study of patients with PHPT who had successful surgery and genetically proven FHH between 2011 and 2016. Due to low FHH numbers, patients from neighbouring hospitals and outside study period (2017-2019) were allowed to improve power. Data on demographics and urinary calcium were obtained from electronic records and compared between the two groups., Results: During the study period, 250 patients underwent successful PHPT surgery, while in the FHH arm, 19 genetically proven cases were included. The median (IQR) 24-hour urine calcium excretion (UCE) in the PHPT group was 8.3 (5.6-11.2) mmol/24 hours compared with 3.2 (2.1-6.1) mmol/24 hour in the FHH group (p<0.001). Median (IQR) calcium to creatinine clearance ratio (CCCR) in the PHPT and FHH groups was 0.020 (0.013-0.026) and 0.01 (0.002-0.02), respectively (p=0.001). The sensitivity of urinary tests for PHPT was 96% for UCE (cut-off ≥2.5 mmol/24 hour) and 47% for CCCR (cut-off >0.02). The specificity of the urinary tests for FHH was 29.4% for UCE (cut-off <2.5 mmol/24 hour) and 93% for CCCR (cut-off <0.02)., Conclusions: 24-hour UCE is more sensitive in diagnosing PHPT; however, it is less specific in ruling out FHH as compared with CCCR, when the cut-offs suggested by the International guidelines from the fourth international workshop are used. A significant proportion of patients with PHPT would have also required genetic studies if the guidelines were followed., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2021. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2021

20. A novel homozygous mutation of the calcium-sensing receptor gene associated with apparent autosomal recessive inheritance of familial hypocalciuric hypercalcemia.

Author

Li N, Li X, Ni XL, Li XY, Xia WB, Yang GQ, and Pei Y

Subjects

Calcium, Child, Heterozygote, Humans, Male, Mutation genetics, Pedigree, Hypercalcemia congenital, Hypercalcemia genetics, Receptors, Calcium-Sensing genetics

Published

2021

21. The Calcium-Sensing Receptor Is Essential for Calcium and Bicarbonate Sensitivity in Human Spermatozoa.

Author

Boisen IM, Rehfeld A, Mos I, Poulsen NN, Nielsen JE, Schwarz P, Rejnmark L, Dissing S, Bach-Mortensen P, Juul A, Bräuner-Osborne H, Lanske B, and Blomberg Jensen M

Subjects

Acrosome Reaction drug effects, Acrosome Reaction genetics, Adult, Bicarbonates pharmacology, Calcium pharmacology, Calcium Signaling drug effects, Calcium Signaling genetics, Case-Control Studies, Female, Humans, Hypercalcemia congenital, Hypercalcemia genetics, Hypercalcemia metabolism, Hypercalcemia pathology, Hypercalciuria genetics, Hypercalciuria metabolism, Hypercalciuria pathology, Hypocalcemia genetics, Hypocalcemia metabolism, Hypocalcemia pathology, Hypoparathyroidism congenital, Hypoparathyroidism genetics, Hypoparathyroidism metabolism, Hypoparathyroidism pathology, Kidney metabolism, Kidney pathology, Magnesium metabolism, Magnesium pharmacology, Male, Mutation, Receptors, Calcium-Sensing genetics, Sperm Motility drug effects, Sperm Motility genetics, Spermatozoa drug effects, Spermatozoa physiology, Testicular Neoplasms genetics, Testicular Neoplasms metabolism, Testicular Neoplasms pathology, Bicarbonates metabolism, Calcium metabolism, Receptors, Calcium-Sensing physiology, Spermatozoa metabolism

Abstract

Context: The calcium-sensing receptor (CaSR) is essential to maintain a stable calcium concentration in serum. Spermatozoa are exposed to immense changes in concentrations of CaSR ligands such as calcium, magnesium, and spermine during epididymal maturation, in the ejaculate, and in the female reproductive environment. However, the role of CaSR in human spermatozoa is unknown., Objective: This work aimed to investigate the role of CaSR in human spermatozoa., Methods: We identified CaSR in human spermatozoa and characterized the response to CaSR agonists on intracellular calcium, acrosome reaction, and 3',5'-cyclic adenosine 5'-monophosphate (cAMP) in spermatozoa from men with either loss-of-function or gain-of-function mutations in CASR and healthy donors., Results: CaSR is expressed in human spermatozoa and is essential for sensing extracellular free ionized calcium (Ca2+) and Mg2+. Activators of CaSR augmented the effect of sperm-activating signals such as the response to HCO3- and the acrosome reaction, whereas spermatozoa from men with a loss-of-function mutation in CASR had a diminished response to HCO3-, lower progesterone-mediated calcium influx, and were less likely to undergo the acrosome reaction in response to progesterone or Ca2+. CaSR activation increased cAMP through soluble adenylyl cyclase (sAC) activity and increased calcium influx through CatSper. Moreover, external Ca2+ or Mg2+ was indispensable for HCO3- activation of sAC. Two male patients with a CASR loss-of-function mutation in exon 3 presented with normal sperm counts and motility, whereas a patient with a loss-of-function mutation in exon 7 had low sperm count, motility, and morphology., Conclusion: CaSR is important for the sensing of Ca2+, Mg2+, and HCO3- in spermatozoa, and loss-of-function may impair male sperm function., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Endocrine Society. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

22. Misleading localization by 18 F-fluorocholine PET/CT in familial hypocalciuric hypercalcemia type-3: a case report.

Author

Mukhtar NN, Abouzied MEM, Alqahtani MH, and Hammami MM

Subjects

Adaptor Protein Complex 2 genetics, Adaptor Protein Complex sigma Subunits genetics, Adult, Bone Density, Calcium blood, Female, Humans, Hypercalcemia genetics, Hyperparathyroidism, Primary complications, Hyperparathyroidism, Primary genetics, Hyperparathyroidism, Primary surgery, Kidney diagnostic imaging, Parathyroid Glands diagnostic imaging, Parathyroid Hormone blood, Parathyroidectomy, Radiopharmaceuticals, Treatment Outcome, Calcium urine, Choline analogs & derivatives, Hypercalcemia congenital, Hypercalcemia diagnostic imaging, Positron Emission Tomography Computed Tomography methods

Abstract

Background: Familial hypocalciuric hypercalcemia (FHH) is a heterogeneous autosomal-dominant disorder of calcium hemostasis that may be difficult to distinguish clinically from mild primary hyperparathyroidism. Loss-of-function mutations mainly involving Arg15 residue of the adaptor-related protein complex 2, sigma subunit 1 (AP2S1) cause a rarer, more recently recognized form of FHH, FFH type-3. Recently, 18 F-fluorocholine positron emission tomography/computed tomography (FCH-PET/CT) showed superior sensitivity to conventional imaging in localizing parathyroid adenomas. We report a new FFH type-3 patient who underwent unnecessary parathyroidectomy in association with misleading FCH-PET/CT imaging., Case Presentation: A 29-year old woman was initially evaluated for parathyroid hormone (PTH)-dependent hypercalcemia in 2013. Medical history was positive only for chronic constipation and malaise with no personal or family history of hypercalcemia, kidney stones, or neck surgery. Over seven years, serum calcium level was 2.51-2.89 mmol/L with concomitant PTH level of 58.7-94.8 mmol/L. Serum phosphate levels were in the low/low normal range. Serum creatinine and magnesium levels were normal. 25-hydroxy vitamin D level was 13 nmol/L. 24-hour urine calcium level was 1.92 mmol/day but increased to 6.99 mmol/day after treatment with cholecalciferol 1000 IU daily. Bone mineral density and renal ultrasound were normal. Parathyroid ultrasound showed two hypoechoic nodules inferior to the left and right thyroid lobes; however, 99m technitium-sestamibi scans (2013, 2016, 2018) were negative. FCH-PET/CT (2019) showed focal uptake co-localizing with the nodule inferior to the left thyroid lobe. The patient underwent left inferior parathyroidectomy and pathology was consistent with parathyroid hyperplasia. However, postoperatively, serum calcium and PTH levels remained elevated and FCH-PET/CT and ultrasound showed persistence of the uptake/nodule. Whole exome sequencing showed Arg15Cys mutation in the AP2S1 gene characteristic of FHH type-3., Conclusions: In this new case of FHH type-3, FCH-PET/CT failed to localize to the hyperplastic parathyroid glands and localized instead to apparently a lymph node. This, together with increased urinary calcium after vitamin D supplementation, led to unnecessary parathyroidectomy. Given the increasingly lower cost of genetic testing and the cost of follow up and unnecessary surgery, it may prudent to include genetic testing for FHH early on in patients with mild PTH-dependent hypercalcemia.

Published

2021

23. Familial hypocalciuric hypercalcaemia type 3: AP2S1 missense mutation.

Author

Kerut S, Kovvuru KR, Yanes-Cardozo L, and Garla VV

Subjects

Adaptor Protein Complex 2 metabolism, Adaptor Protein Complex sigma Subunits metabolism, DNA Mutational Analysis, Diagnosis, Differential, Humans, Hypercalcemia diagnosis, Hypercalcemia genetics, Hypercalcemia metabolism, Male, Middle Aged, Tomography, X-Ray Computed, Ultrasonography, Adaptor Protein Complex 2 genetics, Adaptor Protein Complex sigma Subunits genetics, DNA genetics, Hypercalcemia congenital, Mutation, Missense

Abstract

A 45-year-old man was referred to endocrine for the evaluation of hypercalcaemia. The calcium was elevated, vitamin D was low with a normal parathyroid hormone. Dual-energy X-ray absorptiometry scan revealed osteoporosis at the lumbar spine and femoral neck. A 24-hour urine collection revealed low urinary calcium, which was believed to be secondary to vitamin D deficiency. A diagnosis of primary hyperparathyroidism was made. The patient underwent a four-gland parathyroid exploration surgery in which three of his parathyroid glands were removed. The pathology was consistent with benign parathyroid tissue. Post surgery, the patient had persistently elevated calcium levels. He was then started on bisphosphonate and cinacalcet for osteoporosis and hypercalcaemia, respectively. Genetic analysis of familial hypocalciuric hypercalcaemia (FHH) showed a p.arg15cys mutation in the AP2S1 gene, confirming the diagnosis of FHH type 3., Competing Interests: Competing interests: None declared., (© BMJ Publishing Group Limited 2020. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2020

24. [A series of clinical cases of familial hypocalciuric hypercalcemia syndrome].

Author

Krupinova JA, Almaskhanova AA, Eremkina AK, Bibik EE, Vasilyev EV, and Mokrysheva NG

Subjects

Humans, Parathyroid Hormone, Receptors, Calcium-Sensing genetics, Hypercalcemia congenital, Hypercalcemia diagnosis, Hyperparathyroidism, Primary

Abstract

Familial hypocalciuric hypercalcemia (FHH) - rare disease with predominantly autosomal dominant inheritance. FHH typically develops due to a heterozygous inactivating mutation in the calcium-sensitive receptor gene (CASR), less commonly due to heterozygous mutations in GNA11 and AP2S1. CASR mutations lead to an increase in the threshold for calcium sensitivity, which requires a higher concentration in serum to reduce the release of PTH. These changes are accompanied by an increase of calcium and magnesium reabsorption in the proximal tubules, which leads to hypercalcemia and hypocalciuria. Basically, FHH may be asymptomatic or accompanied by mild hypercalcemia. FHH doesn't require surgical treatment, unlike primary hyperparathyroidism (PHPT), therefore, differential diagnosis of these two conditions is extremely important. In addition, immediate relatives of a proband with FHH also require the exclusion of disease inheritance. We analyzed a series of clinical cases with a genetically confirmed diagnosis of FHH. Our clinical cases indicate a variety of clinical manifestations and the difficulties of differential diagnosis with PHPT.

Published

2020

25. Genetic testing for hereditary hyperparathyroidism and familial hypocalciuric hypercalcaemia in a large UK cohort.

Author

Mariathasan S, Andrews KA, Thompson E, Challis BG, Wilcox S, Pierce H, Hale J, Spiden S, Fuller G, Simpson HL, Fish B, Jani P, Seetho I, Armstrong R, Izatt L, Joshi M, Velusamy A, Park SM, and Casey RT

Subjects

Aged, Child, Female, Genetic Testing, Humans, Infant, Newborn, Retrospective Studies, United Kingdom, Hypercalcemia congenital, Hypercalcemia genetics, Hyperparathyroidism, Primary genetics

Abstract

Background: Primary hyperparathyroidism (PHPTH) is a common endocrine disorder and an estimated 10% of cases are hereditary, related to syndromes including; multiple endocrine neoplasia (MEN) type 1, MEN type 4, MEN2A and hereditary hyperparathyroidism-jaw tumour syndrome. Establishing the underlying genetic cause for PHPTH allows for personalized and cost-effective management. Familial hypocalicuric hypercalcaemia (FHH) is a benign disorder of hypercalcaemia associated with an inappropriately low urinary calcium excretion, which is quantified by the calcium creatinine clearance ratio (CCCR). Recent NHS England National Genomic Test Directory testing criteria for familial hyperparathyroidism state testing patients presenting with PHPTH and CCCR > 0.02 presenting (i) <35 years of age, or (ii) <45y with one of (a) multiglandular disease, or (b) hyperplasia on histology, or (c) ossifying fibroma(s) of the maxilla and/ or mandible, or (d) a family history of unexplained PHPTH. The testing criterion for FHH is a CCCR < 0.02., Aims and Methods: A retrospective review of patients referred for genetic testing over a 4 year period for suspected hereditary HPTH was performed. Genetic analysis was performed by next-generation sequencing of the following genes; MEN1, CDC73, CASR, CDKN1A, CDKN1B, CDKN2B, CDKN2C, RET, GCM2, GNA11, and AP2S1 in NHS-accredited Regional Genetic laboratories. Aims of this study were to better define testing criteria for suspected hereditary PHPTH in a UK cohort., Results: A total of 121 patients were included in this study (92 female) with a mean age of 41 years (SD 17). A pathogenic germline variant was identified in 16% (n = 19). A pathogenic variant was identified in the PHPTH genes CDC73 in a single patient and MEN1 in six patients (6% of total), in the FHH genes, CASR in 11 patients and AP2S1 in a single paediatric case (10% of total). A variant of uncertain significance (VUS) was identified in eight patients (6%) but over the course of this study familial segregation studies and computational analysis enabled re-classification of four of the variants, with two VUS's in the CASR gene being upgraded to likely pathogenic variants. Age at diagnosis and multiglandular disease as sole risk factors were not predictive of a pathogenic germline variant in this cohort but a positive family history was strongly predictive (P = .0002). A significant difference in the mean calcium creatinine clearance ratio (CCCR) in those patients with an identified CASR pathogenic variant versus those without (P = .0001) was demonstrated in this study. Thirty-three patients were aged over 50 years and the diagnostic rate of a pathogenic variant was 15.1% in those patients >50 years of age compared to 15.9% in those <50 years. Five patients >50 years and with a CCCR of <0.01, were diagnosed with a pathogenic variant in CASR., Conclusion: Family history was the strongest predictor of hereditary PHPTH in this cohort. This study has highlighted the importance of re-evaluating VUS's in order to inform patient management and enable appropriate genetic counselling. Finally, this study has demonstrated the need to consider genetic testing for PHPTH in patients of any age, particularly those with additional risk factors., (© 2020 John Wiley & Sons Ltd.)

Published

2020

26. Outcome of Clinical Genetic Testing in Patients with Features Suggestive for Hereditary Predisposition to PTH-Mediated Hypercalcemia.

Author

Khairi S, Osborne J, Jacobs MF, Clines GT, Miller BS, Hughes DT, and Else T

Subjects

Adult, Humans, Treatment Outcome, Genetic Predisposition to Disease genetics, Genetic Testing methods, Hypercalcemia congenital, Hyperparathyroidism, Primary genetics

Abstract

Primary hyperparathyroidism (pHPT) is associated with familial syndromes such as multiple endocrine neoplasia type 1 (MEN1), 2A (MEN2A), MEN-like syndromes (CDKN1B), and CDC73-related disorder (hyperparathyroidism - jaw tumor syndrome (HPJT)). Familial hypocalciuric hypercalcemia (FHH) caused by CASR variants is an important differential diagnosis for pHPT. In order to evaluate the contribution of hereditary causes to pHPT in patients encountered in a specialized clinic, we conducted a retrospective study on patients with pHPT that underwent germline genetic testing. We evaluated 46 patients referred to a Cancer Genetics Clinic. Reasons for referral were young age (age < 40) for 29 patients (63%), multi-gland disease for 23 patients (50%), and a positive family history of pHPT for 11 patients (24%). All 46 patients underwent genetic evaluation. A total of 11 rare variants were found (CASR (4), CDC73 (2), MEN1 (2) CDKN1B (1), and RET (2)). One MEN1 variant was classified as pathogenic, and all others were variants of uncertain significance (VUS). All patients with CASR variants had clinical features of FHH and were counselled against parathyroidectomy. Both patients with CDC73 variants were counselled about recurrence of pHPT and parathyroid cancer. Neither of the RET variants were MEN2-associated. The CDKN1B variant was regarded as a true VUS and no action was taken. In this study, genetic testing impacted clinical care in 7 (15%) patients. We suggest that all patients < 40 years of age, with multi-gland disease, single gland disease refractory to treatment, and a positive family history for pHPT or associated tumors should be considered for genetic evaluation.

Published

2020

27. Familial hypocalciuric hypercalcemia in an index male: grey zones of the differential diagnosis from primary hyperparathyroidism in a 13-year clinical follow up.

Author

Zajíčková K, Dvořáková M, Moravcová J, Včelák J, and Goltzman D

Subjects

Adult, Calcium blood, Diagnosis, Differential, Follow-Up Studies, Humans, Hypercalcemia blood, Hypercalcemia diagnosis, Hypercalcemia diagnostic imaging, Hyperparathyroidism, Primary blood, Hyperparathyroidism, Primary diagnostic imaging, Male, Positron Emission Tomography Computed Tomography methods, Prognosis, Receptors, Calcium-Sensing blood, Vitamin D blood, Hypercalcemia congenital, Hyperparathyroidism, Primary diagnosis

Abstract

Familial hypocalciuric hypercalcemia (FHH) type 1, caused by a heterozygous inactivating mutation of the gene encoding the calcium-sensing receptor (CaSR), is characterized by mild to moderate hypercalcemia, hypocalciuria and inappropriately normal or elevated parathyroid hormone (PTH). FHH must be differentiated from primary hyperparathyroidism (PHPT) because parathyroidectomy is ineffective in the former. Herein, we report a 39-year-old male patient with a 13-year history of asymptomatic PTH-dependent hypercalcemia (mean calcium of 2.88 mmol/l; reference range 2.15-2.55 mmol/l) and calcium-to-creatinine clearance ratio (Ca/Cr) ranging from 0.007 to 0.0198, which is consistent with either FHH or PHPT. Although a family history of hypercalcemia was negative, and PET-CT with fluorocholine was suggestive of a parathyroid adenoma, genetic analysis of the CaSR gene identified a heterozygous inactivating mutation NM&#95;000388.4:c.1670G>A p. (Gly557Glu) in exon 6 and a polymorphism NM&#95;000388.4:c.1192G>A p. (Asp398Asn) in exon 4. The G557E mutation has been previously reported in a Japanese family in which all family members with the mutation had Ca/Cr below 0.01 consistent with FHH. The biochemical profile of FHH and PHPT may overlap. Our FHH patient with a G557E CaSR mutation illustrates that the differential diagnosis can be difficult in an index case with no family history, (false) positive parathyroid imaging and higher calciuria than expected for FHH. Calcium intake, vitamin D status and bone resorption might have contributed to the Ca/Cr variations over a 13-year clinical follow up. This case thus emphasizes the irreplaceable role of genetic testing of the CaSR gene when clinical evaluation is inconclusive.

Published

2020

28. Clinical characteristics of familial hypocalciuric hypercalcaemia type 1: A multicentre study of 77 adult patients.

Author

Mouly C, Vargas-Poussou R, Lienhardt A, Silve C, Hureaux M, Magdelaine C, Buffet A, Grunenwald S, Kuhn JM, Brue T, Reznik Y, Tabarin A, Martin-Coignard D, Haymann JP, Tack I, Bennet A, Caron P, Linglart A, and Vezzosi D

Subjects

Adult, Calcium, Cohort Studies, Humans, Middle Aged, Receptors, Calcium-Sensing genetics, Retrospective Studies, Hypercalcemia congenital, Hypercalcemia diagnosis, Hypercalcemia genetics, Hyperparathyroidism, Primary diagnosis, Hyperparathyroidism, Primary genetics

Abstract

Objective: Familial hypocalciuric hypercalcaemia type 1 (FHH1), related to heterozygous loss-of-function mutations of the calcium-sensing receptor gene, is the main differential diagnosis for primary hyperparathyroidism. The aim of our study was to describe clinical characteristics of adult patients living in France with a genetically confirmed FHH1., Design and Patients: This observational, retrospective, multicentre study included 77 adults, followed up in 32 clinical departments in France, with a genetic FHH1 diagnosis between 2001 and 2012., Results: Hypercalcaemia was diagnosed at a median age of 53 years [IQR: 38-61]. The diagnosis was made after clinical manifestations, routine analysis or familial screening in 56, 34 and 10% of cases, respectively, (n = 58; data not available for 19 patients). Chondrocalcinosis was present in 11/51 patients (22%), bone fractures in 8/56 (14%) and renal colic in 6/55 (11%). The median serum calcium was 2.74 mmol/L [IQR: 2.63-2.86 mmol/L], the median plasma parathyroid hormone level was 4.9 pmol/L [3.1-7.1], and the median 24-hour urinary calcium excretion was 2.8 mmol/24 hours [IQR: 1.9-4.0]. Osteoporosis (dual X-ray absorptiometry) or kidney stones (renal ultrasonography) were found in 6/38 patients (16%) and 9/32 patients (28%), respectively. Fourteen patients (18%) underwent parathyroid surgery; parathyroid adenoma was found in three patients (21%) and parathyroid hyperplasia in nine patients (64%). No correlation between genotype and phenotype was established., Conclusion: This large cohort study demonstrates that FHH1 clinical characteristics can be atypical in 33 patients (43%). Clinicians should be aware of this rare differential diagnosis in order to adopt an appropriate treatment strategy., (© 2020 John Wiley & Sons Ltd.)

Published

2020

29. Functional Analysis of Calcium-Sensing Receptor Variants Identified in Families Provisionally Diagnosed with Familial Hypocalciuric Hypercalcaemia.

Author

Magno AL, Leatherbarrow KM, Brown SJ, Wilson SG, Walsh JP, and Ward BK

Subjects

Calcium, HEK293 Cells, Humans, Mutation, Hypercalcemia congenital, Hypercalcemia genetics, Receptors, Calcium-Sensing genetics

Abstract

Identification of variants in the calcium-sensing receptor (CASR) gene is an important means of distinguishing between familial hypocalciuric hypercalcaemia (FHH) and primary hyperparathyroidism. However, identification and bioinformatics analysis of genetic variants alone is now considered insufficient as definitive proof; additional functional assessment is required to diagnose FHH with certainty. We identified two novel variants, D433Y and C739Y, and one previously reported variant G509R in the CASR of four kindreds provisionally diagnosed with FHH and aimed to functionally characterise these variants to confirm the diagnosis. Variant receptors were cloned as FLAG-tagged constructs into the mammalian expression vector, pcDNA3.1. Wild type and variant receptor constructs were expressed in HEK293 cells and their expression assessed by Western blot analysis and their functionality analysed using an IP-One assay which measures myo-inositol 1-phosphate accumulation following CaSR activation. Western blot analysis showed that the D433Y receptor had diminished mature glycosylated receptor compared with wild type CaSR whereas the G509R receptor had a complete lack of mature receptor. The C739Y receptor was consistently overexpressed. Functional assessment showed the D433Y receptor to be mildly inactivating at physiological calcium concentrations whereas the G509R receptor was inactive at all calcium concentrations. By contrast, the C739Y variant was activating compared to wild type receptor which is inconsistent with it causing FHH. We conclude that functional assessment of CaSR variants using the IP-One assay was useful in the investigation of suspected FHH probands, confirming the D433Y and G509R variants as likely pathogenic/pathogenic, but dismissing the C739Y variant as causing FHH.

Published

2020

30. Familial hypocalciuric hypercalcemia caused by homozygous CaSR gene mutation: A case report of a family.

Author

Wang F, Hu J, Mei C, Lin X, and Zhang L

Subjects

Adult, Diabetes Complications genetics, Female, Humans, Hypercalcemia genetics, Hypercalcemia therapy, Male, Hypercalcemia congenital, Receptors, Calcium-Sensing genetics

Abstract

Introduction: Familial hypocalciuric hypercalcemia (FHH) is a group of autosomal dominant genetic diseases with persistent hypercalcemia and hypocalciuria. The calcium-sensitive receptor (CaSR) plays an important role in calcium and phosphorus metabolism., Patient Concerns: A 32-year-old man who had diabetes was admitted to our hospital due to poor glycemic control, and was found to have hypercalcemia, hypophosphatemia, and hyperparathyroidism. Single-Photon Emission Computed Tomography (SPECT) (99-mTcMIBI) examination result was negative. The result of 24-h urine calcium was 2.18 mmol/24 h, and the 24-h urinary calcium to creatinine ratio (UCCR) was 0.006. Family survey showed that all of the family members had hypercalcemia., Diagnosis: The CaSR gene mutation study revealed that the proband had a homozygous mutation for a T>C nucleotide substitution at c.1664 in exon 6, while both the mother and the father had heterozygous mutations at the same site of exon 6. The clinical diagnosis was considered to be FHH type1., Interventions: The patient was treated with conventional calcium-lowering therapy which was not effective. Cinacalcet was suggested but not used. The patient received salmon calcitonin nasal spray and furosemide tablets treatment for 1 month after discharge, and then stopped the medication., Outcomes: On follow up 4 months after being discharged, the serum calcium level was 3.18 mmol/L, and the PTH level was 275.4 ng/mL. He had felt fatigued, intermittent abdominal pain and lost 3.9 kg of weight., Conclusion: This case studied a family with FHH, and the CaSR gene c.1664T>c mutation was the possible pathogenic cause. If parathyroid location examination is unclear for hyperparathyroidism, the possibility of FHH should be considered. For FHH patients, conventional calcium reduction therapy was ineffective and parathyroid surgery cannot alleviate their hypercalcemia.

Published

2020

31. Double jeopardy: a patient's tale of two concurrent hypercalcaemic syndromes.

Author

Sharma A, Bahowairath F, Uduku C, and Ostberg JE

Subjects

Female, Humans, Middle Aged, Syndrome, Hypercalcemia complications, Hypercalcemia congenital

Abstract

Primary hyperparathyroidism (PHPT) is the most common cause of parathyroid hormone (PTH) dependent hypercalcaemia, however there are few reported cases of its co-occurrence in patients with familial hypocalciuric hypercalcaemia (FHH). This case highlights the challenges in managing a rare case of dual pathology. A 49-year-old Caucasian woman with symptoms of hypercalcaemia presented with an adjusted serum calcium of 2.77 mmol/L and PTH of 11.5 pmol/L. Neck ultrasound and sestamibi scan were concordant with a left lower parathyroid adenoma, and a preoperative dual-energy X-ray absorptiometry scan confirmed osteopenia. Parathyroidectomy resulted in a PTH reduction from 11.5 pmol/L to 2.7 pmol/L. Interestingly, her lowest pre-operative adjusted serum calcium of 2.67 mmol/L remained unchanged 14 months post-parathyroidectomy. Twenty-four hours urine calcium:creatinine clearance ratio performed postoperatively was low and sequencing analysis of the calcium-sensing receptor gene confirmed the coexistence of FHH. Although surgery is not indicated in FHH, parathyroidectomy may help reduce hypercalcaemia and its associated complications if there is coexistent PHPT., Competing Interests: Competing interests: None declared., (© BMJ Publishing Group Limited 2020. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2020

32. Familial Hypocalciuric Hypercalcemia Type 1 and Autosomal-Dominant Hypocalcemia Type 1: Prevalence in a Large Healthcare Population.

Author

Dershem R, Gorvin CM, Metpally RPR, Krishnamurthy S, Smelser DT, Hannan FM, Carey DJ, Thakker RV, and Breitwieser GE

Subjects

Adult, Aged, Aged, 80 and over, Calcium blood, Cohort Studies, Female, Genes, Dominant genetics, Heterozygote, Humans, Hypercalcemia genetics, Male, Middle Aged, Mutation, Phenotype, Prevalence, Receptors, Calcium-Sensing genetics, United States, Delivery of Health Care statistics & numerical data, Hypercalcemia congenital

Abstract

The calcium-sensing receptor (CaSR) regulates serum calcium concentrations. CASR loss- or gain-of-function mutations cause familial hypocalciuric hypercalcemia type 1 (FHH1) or autosomal-dominant hypocalcemia type 1 (ADH1), respectively, but the population prevalence of FHH1 or ADH1 is unknown. Rare CASR variants were identified in whole-exome sequences from 51,289 de-identified individuals in the DiscovEHR cohort derived from a single US healthcare system. We integrated bioinformatics pathogenicity triage, mean serum Ca concentrations, and mode of inheritance to identify potential FHH1 or ADH1 variants, and we used a Sequence Kernel Association Test (SKAT) to identify rare variant-associated diseases. We identified predicted heterozygous loss-of-function CASR variants (6 different nonsense/frameshift variants and 12 different missense variants) in 38 unrelated individuals, 21 of whom were hypercalcemic. Missense CASR variants were identified in two unrelated hypocalcemic individuals. Functional studies showed that all hypercalcemia-associated missense variants impaired heterologous expression, plasma membrane targeting, and/or signaling, whereas hypocalcemia-associated missense variants increased expression, plasma membrane targeting, and/or signaling. Thus, 38 individuals with a genetic diagnosis of FHH1 and two individuals with a genetic diagnosis of ADH1 were identified in the 51,289 cohort, giving a prevalence in this population of 74.1 per 100,000 for FHH1 and 3.9 per 100,000 for ADH1. SKAT combining all nonsense, frameshift, and missense loss-of-function variants revealed associations with cardiovascular, neurological, and other diseases. In conclusion, FHH1 is a common cause of hypercalcemia, with prevalence similar to that of primary hyperparathyroidism, and is associated with altered disease risks, whereas ADH1 is a major cause of non-surgical hypoparathyroidism., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2020

33. Effects of PTH and PTH Hypersecretion on Bone: a Clinical Perspective.

Author

Rejnmark L and Ejlsmark-Svensson H

Subjects

Adenoma complications, Adenoma metabolism, Adenoma surgery, Bone Density, Bone Diseases, Metabolic etiology, Bone Diseases, Metabolic pathology, Bone Remodeling, Fractures, Spontaneous etiology, Humans, Hypercalcemia congenital, Hypercalcemia metabolism, Hypercalcemia pathology, Hyperparathyroidism, Primary complications, Hyperparathyroidism, Primary pathology, Hyperparathyroidism, Primary surgery, Hyperparathyroidism, Secondary complications, Hyperparathyroidism, Secondary pathology, Hyperparathyroidism, Secondary therapy, Parathyroid Neoplasms complications, Parathyroid Neoplasms metabolism, Parathyroid Neoplasms surgery, Parathyroidectomy, Risk Factors, Spinal Fractures etiology, Vitamin D Deficiency metabolism, Bone Diseases, Metabolic metabolism, Hyperparathyroidism, Primary metabolism, Hyperparathyroidism, Secondary metabolism

Abstract

Purpose of Review: Hyperparathyroidism may be due to an autonomous hypersecretion of parathyroid hormone (PTH) or occurs in response to a number of physiological stimuli. A number of recent findings have provided new insights into the importance of the calcium-parathyroid-vitamin D axis to bone in normal physiology and pathological conditions., Recent Findings: PTH is known to affect bone microarchitecture with different effects on cortical and trabecular bone compartments. In trabecular bone, PTH may exert anabolic effects, whereas PTH promotes bone resorption in cortical bone. Vertebral fractures are prevalent in primary hyperparathyroidism (PHPT), and patients seem to fracture at higher values of bone mineral density (BMD) than patients with osteoporosis. This may be explained by changes in bone microarchitecture, which cannot be detected by measuring BMD. Even in mild PHPT, bone seems to benefit from parathyroidectomy. In secondary hyperparathyroidism, bone seems much more susceptible to fracture with insufficient levels of vitamin D compared with a replete vitamin status. If elevated PTH levels cannot be explained by conditions known to cause secondary hyperparathyroidism, the condition is termed normocalcemic PHPT, which also has been associated with an increased risk of fractures. Hyperparathyroidism is harmful to bone, which is why it is of importance to normalize PTH levels either by parathyroidectomy in PHPT or by counteracting conditions known to increase PTH in secondary hyperparathyroidism.

Published

2020

34. Neonatal Hypocalcemic Seizures in Offspring of a Mother With Familial Hypocalciuric Hypercalcemia Type 1 (FHH1).

Author

Dharmaraj P, Gorvin CM, Soni A, Nelhans ND, Olesen MK, Boon H, Cranston T, Thakker RV, and Hannan FM

Subjects

Female, Germ-Line Mutation, HEK293 Cells, Humans, Hypocalcemia genetics, Infant, Infant, Newborn, Infant, Newborn, Diseases diagnosis, Infant, Newborn, Diseases genetics, Models, Molecular, Mothers, Nuclear Family, Pedigree, Phenotype, Receptors, Calcium-Sensing chemistry, Receptors, Calcium-Sensing genetics, Seizures diagnosis, Seizures genetics, Child of Impaired Parents, Hypercalcemia congenital, Hypocalcemia congenital, Seizures congenital

Abstract

Context: Familial hypocalciuric hypercalcemia type 1 (FHH1) is caused by loss-of-function mutations of the calcium-sensing receptor (CaSR) and is considered a benign condition associated with mild-to-moderate hypercalcemia. However, the children of parents with FHH1 can develop a variety of disorders of calcium homeostasis in infancy., Objective: The objective of this work is to characterize the range of calcitropic phenotypes in the children of a mother with FHH1., Methods: A 3-generation FHH kindred was assessed by clinical, biochemical, and mutational analysis following informed consent., Results: The FHH kindred comprised a hypercalcemic man and his daughter who had hypercalcemia and hypocalciuria, and her 4 children, 2 of whom had asymptomatic hypercalcemia, 1 was normocalcemic, and 1 suffered from transient neonatal hypocalcemia and seizures. The hypocalcemic infant had a serum calcium of 1.57 mmol/L (6.28 mg/dL); normal, 2.0 to 2.8 mmol/L (8.0-11.2 mg/dL) and parathyroid hormone of 2.2 pmol/L; normal 1.0 to 9.3 pmol/L, and required treatment with intravenous calcium gluconate infusions. A novel heterozygous p.Ser448Pro CaSR variant was identified in the hypercalcemic individuals, but not the children with hypocalcemia or normocalcemia. Three-dimensional modeling predicted the p.Ser448Pro variant to disrupt a hydrogen bond interaction within the CaSR extracellular domain. The variant Pro448 CaSR, when expressed in HEK293 cells, significantly impaired CaSR-mediated intracellular calcium mobilization and mitogen-activated protein kinase responses following stimulation with extracellular calcium, thereby demonstrating it to represent a loss-of-function mutation., Conclusions: Thus, children of a mother with FHH1 can develop hypercalcemia or transient neonatal hypocalcemia, depending on the underlying inherited CaSR mutation, and require investigations for serum calcium and CaSR mutations in early childhood., (© Endocrine Society 2020.)

Published

2020

35. Control of PTH secretion by the TRPC1 ion channel.

Author

Onopiuk M, Eby B, Nesin V, Ngo P, Lerner M, Gorvin CM, Stokes VJ, Thakker RV, Brandi ML, Chang W, Humphrey MB, Tsiokas L, and Lau K

Subjects

Animals, Calcium Signaling physiology, Female, Humans, Hypercalcemia congenital, Hypercalcemia metabolism, Male, Mice, Mice, Knockout, Parathyroid Glands metabolism, Rats, Parathyroid Hormone metabolism, TRPC Cation Channels metabolism

Abstract

Familial hypocalciuric hypercalcemia (FHH) is a genetic condition associated with hypocalciuria, hypercalcemia, and, in some cases, inappropriately high levels of circulating parathyroid hormone (PTH). FHH is associated with inactivating mutations in the gene encoding the Ca2+-sensing receptor (CaSR), a GPCR, and GNA11 encoding G protein subunit α 11 (Gα11), implicating defective GPCR signaling as the root pathophysiology for FHH. However, the downstream mechanism by which CaSR activation inhibits PTH production/secretion is incompletely understood. Here, we show that mice lacking the transient receptor potential canonical channel 1 (TRPC1) develop chronic hypercalcemia, hypocalciuria, and elevated PTH levels, mimicking human FHH. Ex vivo and in vitro studies revealed that TRPC1 serves a necessary and sufficient mediator to suppress PTH secretion from parathyroid glands (PTGs) downstream of CaSR in response to high extracellular Ca2+ concentration. Gα11 physically interacted with both the N- and C-termini of TRPC1 and enhanced CaSR-induced TRPC1 activity in transfected cells. These data identify TRPC1-mediated Ca2+ signaling as an essential component of the cellular apparatus controlling PTH secretion in the PTG downstream of CaSR.

Published

2020

36. Heterozygous Mutation (Q459R) in the Calcium-Sensing Receptor Gene Causes Familial Hypocalciuric Hypercalcemia 1 (FHH1).

Author

Boisen IM, Mos I, Lerche-Black EM, Juul A, Bräuner-Osborne H, and Blomberg Jensen M

Subjects

Adult, Amino Acid Sequence, Biomarkers analysis, Female, HEK293 Cells, Humans, Hypercalcemia etiology, Hypercalcemia pathology, Male, Middle Aged, Pedigree, Phenotype, Prognosis, Young Adult, Calcium metabolism, Heterozygote, Hypercalcemia congenital, Mutation, Receptors, Calcium-Sensing genetics

Abstract

Context: Several heterozygous loss-of-function mutations in the calcium-sensing receptor gene (CASR) leading to elevated ionized serum calcium and familial hypocalciuric hypercalcemia 1 (FHH1) have been characterized. Few mutations are not pathogenic, and previous studies suggested that the Q459R mutation does not result in an FHH1 phenotype., Objective: We identified a family with a heterozygous CASR Q459R mutation and characterized their calcium homeostasis and the pathophysiological mechanisms of a homozygous and heterozygous Q459R mutation in vitro., Design: The index patient and her family had clinical, biochemical, and genetic analyses performed. In vitro functional characterization of homozygous and heterozygous (Q459R) mutations was conducted by determining CaSR cell-surface expression and inositol monophosphate (IP1) signaling in transiently transfected human embryonic kidney 293A (HEK293A) cells., Results: All 3 heterozygous carriers had mild asymptomatic hypercalcemia, hypocalciuria, and 2 had elevated serum parathyroid hormone (PTH). In vitro characterization in HEK293A cells revealed that CASR Q459R is a loss-of-function mutation with no impact on cell-surface expression. Cells with the homozygous Q459R genotype had significantly reduced calcium potency of IP1 signaling compared to wild type, whereas the heterozygous Q459R also had lower calcium potency albeit not significantly different from wild type., Conclusion: A loss-of-function Q459R mutation in CASR in a family caused FHH1 characterized by elevated ionized calcium and PTH and low calcium excretion. The marked presence of CaSR at the membrane and inhibition of IP1 signaling in vitro suggest that calcimimetics may be functional in patients with this mutation, which seems to be a mild loss-of-function mutation associated with autosomal dominant transmission of FHH1., (© Endocrine Society 2019. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

37. Inherited conditions resulting in nephrolithiasis.

Author

Hoppe B and Martin-Higueras C

Subjects

Child, Humans, Hypercalcemia genetics, Hypercalciuria, Hyperoxaluria, Kidney Calculi diagnosis, Metabolism, Inborn Errors genetics, Metabolism, Inborn Errors metabolism, Nephrocalcinosis etiology, Nephrolithiasis diagnosis, Nephrolithiasis etiology, Urolithiasis diagnosis, Vitamin D metabolism, Vitamin D3 24-Hydroxylase metabolism, Hypercalcemia congenital, Kidney Calculi genetics, Mutation genetics, Nephrocalcinosis genetics, Nephrolithiasis genetics, Receptors, Calcium-Sensing genetics, Urolithiasis genetics, Vitamin D3 24-Hydroxylase genetics

Abstract

Purpose of Review: Prevalence of pediatric urolithiasis is increasing, which is definitively visible in increasing numbers of presentations in emergency or outpatient clinics. In pediatric patients, a genetic or metabolic disease has to be excluded, so that adequate treatment can be installed as early as possible. Only then either recurrent stone events and chronic or even end-stage kidney disease can be prevented., Recent Findings: The genetic background of mostly monogenic kidney stone diseases was unravelled recently. In hypercalcuria, for example, the commonly used definition of idiopathic hypercalciuria was adopted to the genetic background, here three autosomal recessive hereditary forms of CYP24A1, SLC34A1 and SLC34A3 associated nephrocalcinosis/urolithiasis with elevated 1.25-dihydroxy-vitamin D3 (1.25-dihydroxy-vitamin D3) (calcitriol) levels. In addition either activating or inactivating mutations of the calcium-sensing receptor gene lead either to hypocalcemic hypercalciuria or hypercalcemic hypocalciuria. In primary hyperoxaluria, a third gene defect was unravelled explaining most of the so far unclassified patients. In addition, these findings lead to new treatment options, which are currently evaluated in phase III studies., Summary: Kidney stones are not the disease itself, but only its first symptom. The underlying disease has to be diagnosed in every pediatric patient with the first stone event.

Published

2020

38. A clinical perspective of parathyroid hormone related hypercalcaemia.

Author

Han CH, Fry CH, Sharma P, and Han TS

Subjects

Adult, Aged, Diagnosis, Differential, Female, Humans, Hypercalcemia complications, Hypercalcemia diagnosis, Hypercalcemia physiopathology, Hypercalcemia therapy, Male, Middle Aged, Mutation, Parathyroid Hormone metabolism, Practice Guidelines as Topic, Young Adult, Disease Management, Hypercalcemia congenital, Hypercalcemia etiology, Hyperparathyroidism, Primary complications

Abstract

There are many causes of hypercalcaemia including hyperparathyroidism, drugs, granulomatous disorders and malignancy. Parathyroid hormone (PTH) related hypercalcaemia is most commonly caused by primary hyperparathyroidism (PHPT) and more rarely by familial hypocalciuric hypercalcaemia (FHH). Algorithms for diagnosis of PTH related hypercalcaemia require assessment of a 24-h urinary calcium and creatinine excretion to calculate calcium/creatinine clearance ratio and radiological investigations including ultrasound scan and 99m Tc-sestamibi-SPECT/CT. To illustrate investigations and management of parathyroid-related hypercalcaemia, we present a selection of distinct cases of PHPT due to eutopic and ectopic parathyroid adenomas, as well as a case with a syndromic form of PHPT (multiple endocrine neoplasia type 1), and a case with FHH type 1 due to a CASR inactivating mutation. Additional cases with normocalcaemic hyperparathyroidism and secondary hyperparathyroidism are included for completeness of differential diagnosis. The common eutopic parathyroid adenomas are easily treated with parathyroidectomy while the less common ectopic parathyroid adenomas require more complex investigations and operative procedures such as video-assisted thoracoscopic surgery. On the other hand, the much less common FHH does not require treatment. Assessment of kin with FHH is important to identify members with this inherited condition in order to prevent unnecessary interventions.

Published

2020

39. You're the Flight Surgeon.

Subjects

Adult, Humans, Hypercalcemia diagnosis, Hypercalcemia therapy, Male, Hypercalcemia congenital, Military Personnel

Abstract

Radigan M. You're the flight surgeon: hyperparathyroidism. Aerosp Med Hum Perform. 2020; 91(1):59-61.

Published

2020

40. High-throughput sequencing contributes to the diagnosis of tubulopathies and familial hypercalcemia hypocalciuria in adults.

Author

Hureaux M, Ashton E, Dahan K, Houillier P, Blanchard A, Cormier C, Koumakis E, Iancu D, Belge H, Hilbert P, Rotthier A, Del Favero J, Schaefer F, Kleta R, Bockenhauer D, Jeunemaitre X, Devuyst O, Walsh SB, and Vargas-Poussou R

Subjects

Adult, Cohort Studies, High-Throughput Nucleotide Sequencing, Humans, Hypercalcemia congenital, Gitelman Syndrome genetics, Hypercalcemia genetics, Hypophosphatemia genetics

Abstract

Hereditary tubulopathies are rare diseases with unknown prevalence in adults. Often diagnosed in childhood, hereditary tubulopathies can nevertheless be evoked in adults. Precise diagnosis can be difficult or delayed due to insidious development of symptoms, comorbidities and polypharmacy. Here we evaluated the diagnostic value of a specific panel of known genes implicated in tubulopathies in adult patients and compared to our data obtained in children. To do this we analyzed 1033 non-related adult patients of which 744 had a clinical diagnosis of tubulopathy and 289 had a diagnosis of familial hypercalcemia with hypocalciuria recruited by three European reference centers. Three-quarters of our tubulopathies cohort included individuals with clinical suspicion of Gitelman syndrome, kidney hypophosphatemia and kidney tubular acidosis. We detected pathogenic variants in 26 different genes confirming a genetic diagnosis of tubulopathy in 29% of cases. In 16 cases (2.1%) the genetic testing changed the clinical diagnosis. The diagnosis of familial hypercalcemia with hypocalciuria was confirmed in 12% of cases. Thus, our work demonstrates the genetic origin of tubulopathies in one out of three adult patients, half of the rate observed in children. Hence, establishing a precise diagnosis is crucial for patients, in order to guide care, to survey and prevent chronic complications, and for genetic counselling. At the same time, this work enhances our understanding of complex phenotypes and enriches the database with the causal variants described., (Crown Copyright © 2019. Published by Elsevier Inc. All rights reserved.)

Published

2019

41. Dysregulation of calcium metabolism in type 1 myotonic dystrophy.

Author

Hlaing PM, Scott IA, and Jackson RV

Subjects

Adult, Aged, Calcium blood, Calcium urine, Creatinine blood, Creatinine urine, Female, Humans, Male, Middle Aged, Myotonic Dystrophy blood, Myotonic Dystrophy pathology, Parathyroid Glands pathology, Parathyroid Hormone blood, Queensland, Receptors, Calcium-Sensing genetics, Retrospective Studies, Vitamin D analogs & derivatives, Vitamin D blood, Young Adult, Calcium metabolism, Hypercalcemia congenital, Hypercalcemia etiology, Hyperparathyroidism, Secondary etiology, Muscle, Skeletal pathology, Myotonic Dystrophy complications

Abstract

Background: Patients with type 1 myotonic dystrophy (DM1) have a higher incidence of hypercalcaemia compared with the general population. The nature and effects of dysregulated calcium metabolism underpinning this phenomenon have not been fully characterised., Aims: To determine the characteristics of dysregulated calcium metabolism in patients with DM1 and its association with bone mineral density., Methods: A retrospective review of medical records of patients with DM1 attending a DM clinic at Logan Hospital, Brisbane, Queensland, between 2005 and 2018 and who had concurrent serum assays performed of corrected serum calcium, 25 hydroxyvitamin D, parathyroid hormone (PTH) and phosphate and for whom results were available for estimated glomerular filtration rate, bone mineral densitometry tests and urinary calcium clearance to creatinine clearance ratio (UCCR)., Results: Forty-four patients with DM1 (22 females, 22 males) were reviewed of whom 14 (32%) had elevated corrected serum calcium and inappropriate PTH. Another 10 patients (23%) had raised PTH with normocalcaemia. Eighteen of 19 (94.7%) patients with hypercalcaemia or high PTH level completed 24-h urinary calcium. All had UCCR ≤0.02. Twelve patients had UCCR <0.01. Seven of 44 (16%) had low 25 hydroxy vitamin D. All patients had normal estimated glomerular filtration rate. None was osteoporotic., Conclusions: One in three patients with DM1 was hypercalcaemic with unsuppressed PTH. Their clinical features and biochemical pictures resemble those of familial hypocalciuric hypercalcaemia (FHH) and raises the possibility that impaired activity of calcium-sensing receptors, due to abnormal splicing of the calcium-sensing receptor messenger RNA in DM1, causes a FHH-like syndrome ('pseudo-FHH of DM1')., (© 2019 Royal Australasian College of Physicians.)

Published

2019

42. Expanding the spectrum of genetic variants in the calcium-sensing receptor (CASR) gene in hypercalcemic individuals.

Author

Nissen PH and Rejnmark L

Subjects

Adaptor Protein Complex 2 genetics, Adaptor Protein Complex sigma Subunits genetics, Calcium blood, Cross-Sectional Studies, Exons genetics, Humans, Hypercalcemia blood, Hypercalcemia congenital, Mutation genetics, Polymerase Chain Reaction, Hypercalcemia genetics, Receptors, Calcium-Sensing genetics

Abstract

Objective: Familial hypocalciuric hypercalcemia (FHH) is an autosomal dominantly inherited disorder with overlapping biochemistry profile with primary hyperparathyroidism (PHPT), making the correct diagnosis a challenge. The objective of the study was to evaluate the results of the clinical work-up of a large group of hypercalcemic individuals., Design: Cross-sectional study., Patients: Patients undergoing clinical work-up of hypercalcemia., Measurements: Molecular genetic analysis of the CASR gene and exon 2 of the AP2S1 gene. Plasma levels of ionized calcium and PTH as well as calcium creatinine clearance ratio (CCCR)., Results: A rare CASR variant was identified in 38 of 624 index patients (6.1%). A total of 18 CASR variants identified in this study were novel. No variants were identified in exon 2 of the AP2S1 gene. The majority of the variants (N = 16) were classified as likely pathogenic. The level of plasma calcium, plasma PTH and the CCCR was not affected by the type of variant (ie nonsense vs missense) (all P-values >.05). The CCCR was found to be significantly lower for variants in the transmembrane domain compared with variants located in the extracellular domain (P < .05). Plasma levels of calcium and PTH were not associated with the location of the variant (P > .05)., Conclusions: We expanded the spectrum of CASR variants in hypercalcemia with 18 novel variants, and suggest that the location of the CASR variant may affect calcium excretion as determined by the CCCR., (© 2019 John Wiley & Sons Ltd.)

Published

2019

43. A Hong Kong Chinese kindred with familial hypocalciuric hypercalcaemia caused by AP2S1 mutation.

Author

Wong FCK, Wong WS, Kwok JSS, Tsui TKC, Lau KP, Chan MHM, and Yuen YP

Subjects

Acute Disease, Aged, Female, Hong Kong, Humans, Hypercalcemia genetics, Male, Middle Aged, Mutation, Adaptor Protein Complex 2 genetics, Adaptor Protein Complex sigma Subunits genetics, Hypercalcemia congenital

Abstract

Familial hypocalciuric hypercalcaemia (FHH) is a genetic disorder of altered calcium homeostasis. Mutations in the CASR , GNA11 and AP2S1 genes have been reported to cause FHH. We report a Hong Kong Chinese kindred with FHH type 3 (FHH3) caused by mutations in AP2S1 . The proband, a 51-year-old woman with hypercalcaemia, was initially diagnosed to have primary hyperparathyroidism but repeated parathyroidectomy failed to normalize her plasma calcium concentrations. Later, FHH was suspected and yet no mutations were identified in the CASR gene which causes FHH type 1 (FHH1), the most common form of FHH. Genetic testing of AP2S1 revealed a heterozygous c.43C>T (p.Arg15Cys) mutation, confirming the diagnosis of FHH3. The elder brother and niece of the proband, who both have hypercalcaemia, were found to harbour the same mutation. To our knowledge, this is the first Chinese kindred of FHH3 reported in the English literature., Competing Interests: No competing interests were disclosed., (Copyright: © 2019 Wong FCK et al.)

Published

2019

44. Cinacalcet sustainedly prevents pancreatitis in a child with a compound heterozygous SPINK1/AP2S1 mutation.

Author

Scheers I, Sokal E, Limaye N, Denoncin C, Stephenne X, Pirson Y, and Godefroid N

Subjects

Acute Disease, Adolescent, Female, Humans, Hypercalcemia complications, Hypercalcemia congenital, Hypercalcemia genetics, Mutation genetics, Recurrence, Adaptor Protein Complex 2 genetics, Adaptor Protein Complex sigma Subunits genetics, Calcium-Regulating Hormones and Agents therapeutic use, Cinacalcet therapeutic use, Pancreatitis genetics, Pancreatitis prevention & control, Trypsin Inhibitor, Kazal Pancreatic genetics

Abstract

Familial hypocalciuric hypercalcemia is an autosomal dominant genetic disorder characterized by hypercalcemia associated with inappropriate hypocalciuria and normal parathyroid hormone levels. Acute recurrent pancreatitis (ARP) is rare in children. Predisposing factors include hypercalcemia and mutations in the serine protease inhibitor Kazal-type 1 (SPINK1) gene. The disease carries a heavy morbidity and preventive treatment options are scant. Here, we report a child with a novel genetic/metabolic form of ARP associated with compound heterozygous SPINK1/AP2S1 (adaptor protein-2 σ1-subunit) mutations, recurrence of which was completely abrogated for 6 years by cinacalcet treatment., (Copyright © 2019 IAP and EPC. Published by Elsevier B.V. All rights reserved.)

Published

2019

45. Efficacy of calcium excretion and calcium/creatinine clearance ratio in the differential diagnosis of familial hypocalciuric hypercalcemia and primary hyperparathyroidism.

Author

Bhangu JS, Selberherr A, Brammen L, Scheuba C, and Riss P

Subjects

Adult, Aged, Cohort Studies, Diagnosis, Differential, Female, Follow-Up Studies, Humans, Hypercalcemia blood, Hypercalcemia diagnosis, Hypercalcemia surgery, Hyperparathyroidism, Primary blood, Hyperparathyroidism, Primary surgery, Male, Middle Aged, Parathyroid Hormone blood, Prospective Studies, Risk Assessment, Treatment Outcome, Calcium urine, Creatinine urine, Hypercalcemia congenital, Hyperparathyroidism, Primary diagnosis, Parathyroidectomy methods

Abstract

Background: Twenty-four-hour renal calcium-excretion (CE) and calcium/creatinine-clearance-ratio (CCCR), respectively, are widely used to rule out familial hypocalciuric hypercalcemia (FHH) in patients with suspected primary hyperparathyroidism before surgery. The aim was to evaluate the practicability of CE compared to CCCR., Patients and Methods: We analyzed biochemical parameters, surgical treatment, gene mutation results, and long-term follow-up data of 198 patients (including 14 patients with FHH) and the discriminative power of CE and CCCR., Results: Twenty four patients (12.1%) had a low CE and 35 patients (20.2%) had a CCCR indicating FHH. However, eight patients with FHH (57.1%) had a normal or increased CE. Correspondingly, only eight cases of FHH (57.1%) were correctly predicted by CCCR. Sensitivity/specificity were 42.9%/89.9% for CE and 64.3%/79.9% for CCCR, showing no statistical differences (P = 0.482) between both methods., Conclusion: Neither CE nor CCCR was able to distinguish between PHPT and FHH but may help to narrow down potential FHH patients., (© 2018 Wiley Periodicals, Inc.)

Published

2019

46. Familial Hypocalciuric Hypercalcemia and Neonatal Severe Hyperparathyroidism.

Author

Vannucci L and Brandi ML

Subjects

Humans, Hypercalcemia diagnosis, Hypercalcemia genetics, Hypercalcemia therapy, Infant, Newborn, Hypercalcemia congenital, Hyperparathyroidism, Primary diagnosis, Hyperparathyroidism, Primary genetics, Hyperparathyroidism, Primary therapy, Infant, Newborn, Diseases diagnosis, Infant, Newborn, Diseases genetics, Infant, Newborn, Diseases therapy

Abstract

Familial hypocalciuric hypercalcemia (FHH) and neonatal severe hyperparathyroidism (NSHPT) are genetically determined variants of primary hyperparathyroidism. FHH usually has a benign course, and patients do not require treatment, whereas NSHPT is a severe disorder often requiring early parathyroidectomy for young patients to survive. Recent discoveries in the genetic basis and new findings in therapeutic approaches have led to a great interest in these rare diseases., (© 2019 S. Karger AG, Basel.)

Published

2019

47. The calcium-sensing receptor in physiology and in calcitropic and noncalcitropic diseases.

Author

Hannan FM, Kallay E, Chang W, Brandi ML, and Thakker RV

Subjects

Female, Gene Expression Regulation, Genetic Predisposition to Disease epidemiology, Humans, Hypercalcemia drug therapy, Hypercalcemia genetics, Hypercalcemia physiopathology, Hypercalciuria drug therapy, Hypercalciuria physiopathology, Hypocalcemia drug therapy, Hypocalcemia physiopathology, Hypoparathyroidism drug therapy, Hypoparathyroidism genetics, Hypoparathyroidism physiopathology, Incidence, Male, Mutation genetics, Nephrolithiasis drug therapy, Nephrolithiasis physiopathology, Prognosis, Receptors, Calcium-Sensing drug effects, Risk Assessment, Treatment Outcome, Calcimimetic Agents therapeutic use, Hypercalcemia congenital, Hypercalciuria genetics, Hypocalcemia genetics, Hypoparathyroidism congenital, Nephrolithiasis genetics, Receptors, Calcium-Sensing genetics

Abstract

The Ca 2+ -sensing receptor (CaSR) is a dimeric family C G protein-coupled receptor that is expressed in calcitropic tissues such as the parathyroid glands and the kidneys and signals via G proteins and β-arrestin. The CaSR has a pivotal role in bone and mineral metabolism, as it regulates parathyroid hormone secretion, urinary Ca 2+ excretion, skeletal development and lactation. The importance of the CaSR for these calcitropic processes is highlighted by loss-of-function and gain-of-function CaSR mutations that cause familial hypocalciuric hypercalcaemia and autosomal dominant hypocalcaemia, respectively, and also by the fact that alterations in parathyroid CaSR expression contribute to the pathogenesis of primary and secondary hyperparathyroidism. Moreover, the CaSR is an established therapeutic target for hyperparathyroid disorders. The CaSR is also expressed in organs not involved in Ca 2+ homeostasis: it has noncalcitropic roles in lung and neuronal development, vascular tone, gastrointestinal nutrient sensing, wound healing and secretion of insulin and enteroendocrine hormones. Furthermore, the abnormal expression or function of the CaSR is implicated in cardiovascular and neurological diseases, as well as in asthma, and the CaSR is reported to protect against colorectal cancer and neuroblastoma but increase the malignant potential of prostate and breast cancers.

Published

2018

48. Familial hypocalciuric hypercalcemia: A case report.

Author

Andrade Navarro MT, Pérez González E, Cantos Pastor V, Marín Patón M, and Lara Ruiz A

Subjects

Child, Exons, Humans, Hypercalcemia diagnosis, Hypercalcemia genetics, Male, Mutation, Hypercalcemia congenital, Hypercalcemia etiology, Receptors, Calcium-Sensing genetics

Abstract

The finding of persistent hypercalcemia suggests doing other medical tests to find the cause. Familial hypocalciuric hypercalcemia is usually benign and it requires no treatment. It is important to do CASR gene sequencing to avoid unnecessary treatments. We report a 12-year-old child, asymptomatic, with calcemia between 11.4 and 12.2 mg/dl. His father and two brothers presented asymptomatic hypercalcemia. The blood test with magnesium, phosphorus, 25(OH)Vit D was normal, remarkable normal parathyroid hormone for the level of hypercalcemia. Urinary calcium/creatinine ratio was 0,11 mg/dl and 24-hour urinary calcium was 1,8 mg/kg per day. Abdominal and parathyroid ecography, long bone radiographs and densitometry were normal. Genetic study showed a mutation, c.1651A>G, in exon 6 of the calciumsensing receptor gene, confirmed in father and brothers, too., (Sociedad Argentina de Pediatría.)

Published

2018

49. Familial hypocalciuric hypercalcemia and related disorders.

Author

Lee JY and Shoback DM

Subjects

Adaptor Protein Complex 2 genetics, GTP-Binding Protein alpha Subunits, Gq-G11 genetics, Humans, Hypercalcemia complications, Hypercalcemia diagnosis, Hypercalcemia epidemiology, Hypercalcemia genetics, Hypercalcemia therapy, Hyperparathyroidism, Primary complications, Hyperparathyroidism, Primary diagnosis, Hyperparathyroidism, Primary epidemiology, Hyperparathyroidism, Primary therapy, Kidney Diseases diagnosis, Kidney Diseases epidemiology, Kidney Diseases genetics, Kidney Diseases therapy, Mutation, Receptors, Calcium-Sensing genetics, Hypercalcemia congenital

Abstract

Familial hypocalciuric hypercalcemia (FHH) causes hypercalcemia by three genetic mechanisms: inactivating mutations in the calcium-sensing receptor, the G-protein subunit α 11 , or adaptor-related protein complex 2, sigma 1 subunit. While hypercalcemia in other conditions causes significant morbidity and mortality, FHH generally follows a benign course. Failure to diagnose FHH can result in unwarranted treatment or surgery for the mistaken diagnosis of primary hyperparathyroidism (PHPT), given the significant overlap of biochemical features. Determinations of urinary calcium excretion greatly aid in distinguishing PHPT from FHH, but overlap still exists in certain cases. It is important that 24-h urine calcium and creatinine be included in the initial workup of hypercalcemia. FHH should be considered if low or even low normal urinary calcium levels are found in what is typically an asymptomatic hypercalcemic patient. The calcimimetic cinacalcet has been used to treat hypercalcemia in certain symptomatic causes of FHH., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

50. Pro-FHH: A Risk Equation to Facilitate the Diagnosis of Parathyroid-Related Hypercalcemia.

Author

Bertocchio JP, Tafflet M, Koumakis E, Maruani G, Vargas-Poussou R, Silve C, Nissen PH, Baron S, Prot-Bertoye C, Courbebaisse M, Souberbielle JC, Rejnmark L, Cormier C, and Houillier P

Subjects

Adult, Aged, Area Under Curve, Calcium blood, Calcium urine, Creatinine urine, Female, Humans, Hypercalcemia complications, Hypercalcemia etiology, Hyperparathyroidism, Primary complications, Male, Middle Aged, Osteocalcin blood, Parathyroid Hormone blood, Predictive Value of Tests, ROC Curve, Retrospective Studies, Sensitivity and Specificity, Hypercalcemia congenital, Hypercalcemia diagnosis, Hyperparathyroidism, Primary diagnosis, Risk Assessment methods

Abstract

Context: Parathyroid-related hypercalcemia is due to primary hyperparathyroidism (PHPT) or to familial hypocalciuric hypercalcemia (FHH). PHPT can lead to complications that necessitate parathyroidectomy. FHH is a rare genetic disease resembling PHPT; surgery is ineffective. A reliable method for distinguishing FHH from PHPT is needed., Objective: To develop an easy-to-use tool to predict if a patient has PHPT., Design: Retrospective analysis of two prospective cohorts. Development of an unsupervised risk equation (Pro-FHH)., Setting: University hospitals in Paris, France, and Aarhus, Denmark., Participants: Patients (Paris: 65 with FHH, 85 with PHPT; Aarhus: 38 with FHH, 55 with PHPT) were adults with hypercalcemia and PTH concentration within normal range., Main Outcome Measures: Performance of Pro-FHH to predict PHPT., Results: Pro-FHH takes into account plasma calcium, PTH, and serum osteocalcin concentrations, and calcium-to-creatinine clearance ratio calculated from 24-hour urine collection (24h-CCCR). In the Paris cohort, area under the receiver operating characteristic curve (AUROC) of Pro-FHH was 0.961, higher than that of 24h-CCCR. With a cutoff value of 0.928, Pro-FHH had 100% specificity and 100% positive predictive value for the diagnosis of PHPT; it correctly categorized 51 of 85 patients with PHPT; the remaining 34 were recommended to undergo genetic testing. No patients with FHH were wrongly categorized. In an independent cohort from Aarhus, AUROC of Pro-FHH was 0.951, higher than that of 24h-CCCR., Conclusion: Pro-FHH effectively predicted whether a patient has PHPT. A prospective trial is necessary to assess its usefulness in a larger population and in patients with elevated PTH concentration.

Published

2018