X-Linked Hypophosphatemic Rickets: Report of a Novel PHEX Mutation and Cinacalcet as Adjuvant Therapy in the Mineral Metabolism Control

X-linked hypophosphatemic rickets (XLH) is a rare disease caused by a mutation in the PHEX gene, located on the X chromosome. This gene encodes the phosphate regulating endopeptidase, and its inactivation leads to increased levels of circulating phosphatonins responsible for renal phosphate loss. The treatment of XLH is still carried out with long-term administration of phosphate and calcitriol, which can be complicated by hyperparathyroidism, nephrocalcinosis, renal failure and hypertension. We describe the case of a four-decades follow-up patient with XLH. When she was diagnosed, at 19, due to bone pain and deformities, she was put on therapy with phosphorus and cholecalciferol. Despite the clinical improvement, serum phosphorus remained difficult to control. At the age of 44, she developed tertiary hyperparathyroidism and was submitted to parathyroidectomy. Five years later, parathyroid hyperfunction recurred. This time, cinacalcet was started, 30 mg alternating with 60 mg/day. Currently, she is 59 years-old and remains with controlled mineral metabolism. The genetic study of this patient revealed a nonsense heterozygous mutation (c.501G> A) in PHEX gene that was not previously described. In this case, the off-label use of cinacalcet resulted in the normalization of serum PTH and phosphorus levels, eliminated recurrent secondary hyperparathyroidism, which aggravates the bone fragility inherent to XLH and prevented a new parathyroidectomy. This report also adds important information to the genetic basis of XLH with the identification of a new nonsense mutation of the PHEX gene.

X-linked hypophosphatemic rickets: Orthodontic considerations and management. A case report

X-linked hypophosphatemic rickets (XLH) is a rare condition affecting bone metabolism. It has characteristic dental features such as poorly mineralised dentine, spontaneous abscess formation in the absence of caries and taurodontism. There are limited published data about patients with this condition undergoing orthodontic treatment, and there is no clear guideline on the suitability of orthodontic treatment in this cohort. We present a case report of a patient with XLH with a confirmed PHEX gene mutation undergoing orthodontic treatment and clinical recommendations to support treatment.

X-Linked Hypophosphatemic Rickets: Multisystemic Disorder in Children Requiring Multidisciplinary Management

X-linked hypophosphatemic rickets (XLH) is the commonest inherited form of rickets. It is caused by an impaired regulation of fibroblast growth factor 23 (FGF23) due to a PHEX gene mutation, which leads to reduced tubular reabsorption of phosphate and renal 1α-hydroxylase activity and increased renal 24-hydroxylase activity. Hypophosphatemia associated with renal phosphate wasting, normal serum levels of calcium, parathyroid hormone, and 25-hydroxyvitamin D represents the main biochemical sign in affected patients. Patients with XLH show rickets and osteomalacia, severe deformities of the lower limbs, bone and muscular pain, stunted growth, and reduced quality of life. However, XLH is a multisystemic disorder requiring multidisciplinary approaches in specialized subdisciplines. Severe complications may occur in patients with XLH including craniosynostosis, hearing loss, progressive bone deformities, dental and periodontal recurrent lesions, and psychosocial distress. Moreover, long-term conventional treatment with active vitamin D metabolites and oral inorganic phosphate salts may cause endocrinological complications such as secondary or tertiary hyperparathyroidism, and adverse events in kidney as hypercalciuria, nephrocalcinosis, and nephrolithiasis. However, conventional treatment does not improve phosphate metabolism and it shows poor and slow effects in improving rickets lesions and linear growth. Recently, some trials of treatment with recombinant human IgG1 monoclonal antibody that targets FGF23 (burosumab) showed significant improvement of serum phosphate concentration and renal tubular reabsorption of phosphate that were associated with a rapid healing of radiologic signs of rickets, reduced muscular and osteoarticular pain, and improved physical function, being more effective for the treatment of patients with XLH in comparison with conventional therapy. Therefore, a global management of patients with XLH is strongly recommended and patients should be seen regularly by a multidisciplinary team of experts.

Hereditary hypophosphatemic rickets and craniosynostosis

Background Craniosynostosis is an underdiagnosed complication associated with hypophosphatemic rickets. The study aims to describe the clinical and auxological characteristic of children with hypophosphatemic rickets and craniosynostosis, describe the usual treatment, and compare the characteristics with those of children without craniosynostosis. Methods and patients An observational and retrospective cohort study was conducted. Clinical notes and cranial images were reviewed. Out of 96 children, only the 50 patients who had skull images were included. Results Out of 50 patients, 26 (15 males) had craniosynostosis (52%). No differences were observed in birth size, age, height, body proportions, alkaline phosphatase, serum phosphate, or percent tubular reabsorption of phosphate at first appointment among children with or without craniosynostosis. Among patients with craniosynostosis, dolichocephaly was prevalent. The sagittal suture was affected in all patients with craniosynostosis, with 19 of 26 children (73%) affected with isolated scaphocephaly. Pan-sutural craniosynostosis was present in 7 children (27%). None of the children had microcephaly, 7 of them presented macrocephaly and, in the remaining subjects, head circumference was normal. Five patients had undergone at least 1 cranial remodeling surgery. One patient with craniosynostosis was diagnosed with a Chiari I malformation. Molecular characterization of PHEX gene was performed in 14 cases. Conclusions Craniosynostosis is an underdiagnosed complication of hypophosphatemic rickets. Many patients with normal head size and growth may go undiagnosed, thus it is important to consider this association for early diagnosis and possible surgical treatment. A multidisciplinary approach is necessary for a correct long-term follow-up.

A De Novo Mosaic PHEX Variant Causing Sporadic X-Linked Hypophosphatemic Rickets in a 2-Year-Old Girl

Pathogenic variants in the PHEX gene are causative of X-linked hypophosphatemic rickets (XLH). We present a case of a 2-year-old girl with hypophosphatemic rickets with genu varum and short stature without any family history of XLH. Next generation sequencing of the PHEX gene identified a splice donor variant, NM_000444.6:c.1173 + 5G > A in intron 10. This variant had a mosaic pattern with only 22% of the sequence reads showing the variant allele and was not present in the girl's parents, both of whom had a normal phenotype. This is a sporadic case of a de novo mosaic splice-site variant in the PHEX gene.

Coexistent CYP24A1 and PHEX Gene Mutations With Hypervitaminosis D Plus Hypercalcemia Treated With Fluconazole

Background: CYP24A1 and PHEX gene mutations are rare and can cause hypercalcemia, hypervitaminosis D and elevated FGF23 levels. Fluconazole, an antifungal medication, has shown therapeutic benefit in achieving normocalcemia plus normalisation of vitamin D levels in this case report. Clinical Case: A 42 year old man was referred to the endocrine clinic with a history of severe nephrocalcinosis and recurrent nephrolithiasis requiring surgical intervention and gradual decline in kidney function over 20 years. Biochemical investigations revealed hypercalcaemia with adjusted calcium levels of 2.83 mmol/L (R 2.2–2.6 nmol/L) and suppressed PTH 1.1 pmol/L(R 1.6–6.9 pmol/L). Twenty-four hour urine calcium/creatinine clearance ratio was above 0.0578 mmol/mmol indicating hypercalciuria. Vitamin D metabolites 25 OH Vitamin D was elevated at 201 nmol/L, (R 50–120 nmol/L) along with intermittently elevated 1,25 OH Vitamin D 147 pmol/L(R 55–139 pml/L). 24,25 Vitamin D was low at 2.0 nmol/L producing a 25:24,25 dihydroxyvitamin D ratio of 80 (n<25). This biochemical data was highly suggestive of a loss of function mutation in the CYP24A1 gene that codes for the enzyme 24-hydroxylase, which is responsible for conversion of 1,25 vitamin D to 24,25 vitamin D. A pathogenic variant (heterozygous c.756G>A) was confirmed on genetic testing. Plasma FGF23 (immutopics) was raised (with a peak of 596 RU/mL, n<100 RU/mL) but a full body octreotide scan did not reveal malignancy or other paraneoplastic syndromes such as oncogenic osteomalacia. A pathogenic variant in his PHEX gene (homozygous c.1874A>T) was also identified that has been associated with increased levels of FGF23 plus hypophosphataemia. Fluconazole at 50 mg once daily was initiated. Azoles inhibit cytochrome P450 enzymes and have been used in sarcoidosis to block vitamin D-synthesizing enzymes such as 25-hydroxylases and 1-α-hydroxylase that are P450 dependent. Few cases of CYP24A1 gene defects have been treated with fluconazole, which has a favourable side effect profile and yields good results. Adjusted calcium reduced to 2.62 nmol/L, 25 OH Vitamin D normalised to 111 nmol/L and 24:24,25 dihydroxyvitamin D ratio is now 17. Patient’s liver functions and full blood count has been monitored regularly during the course of treatment and the drug was well tolerated. Conclusion: Genetic causes of hypercalcemia can be left undiagnosed for long periods and there is a lack of proven or definitive therapeutic agents for correction of elevated calcium. Here fluconazole has been shown to reduce the hypercalcaemic burden and effectively lowered the Vitamin D levels in this case of a CYP24A1 mutation. This study augments fluconazole use in these cases but further studies are needed to elucidate the long term safe usage.

Creation of an Evidence-Based Physical Therapy Program for Adults with XLH: Translational Application of an Interprofessional Clinical Study

X-linked hypophosphatemia (XLH) arises due to inactivating mutations of the PHEX gene resulting in elevated circulating levels of the hormone FGF23, producing phosphaturia and impaired intestinal phosphate absorption. XLH is a lifelong metabolic disease with musculoskeletal comorbidities that dominate the adult clinical picture, and are resistant to standard therapies. We have previously reported the physical and functional impact of the adult disorder (J Clin Endocrinol Metab. 2020 Apr 1;105(4)). Bilateral and diffuse enthesophytes, degenerative arthritis and osteophytes were reported at the spine and synovial joints across subjects. Passive range of motion (ROM) was decreased at the spine, hips, knees, and ankles compared to controls. Gait analysis, relative to controls, revealed increased step width, markedly increased lateral trunk sway, and physical restriction at the hip, knees and ankle joints that translated into limitations through the gait cycle. These studies have been translated into an evidence-based physical therapy (PT) intervention study to address these major physical and functional comorbidities. Participants were enrolled in a remote 12-week PT program consisting of balance exercises and basic stretches with/without resistance. Subjects were evaluated at baseline and at every 4-weeks to assess ROM, gait, and functional ability. Several validated tools were employed to assess overall function: Berg Balance Scale, the Timed Up and Go (TUG) Test, and the Five Times Sit to Stand Test (5XSST). Subjective questionnaires, including the Lower Extremity Functional Scale (LEFS) and Activities-Specific Balance Confidence (ABC) Scale, were administered along with a weekly survey. At the conclusion of the study, minimal to modest improvements were seen in active ROM for the upper and lower extremity which reflect the significant bony restriction caused by XLH. However, improvements were seen in functional measures including the Berg Balance Scale, TUG, 5XSST, LEFS, and ABC. Weekly surveys indicated that participants improved their ability to balance, perform activities of daily living (ADLs), walk, and bend down to reach the ground. Results from this study will be applied to the creation of an evidence-based PT program to maintain functional capacity and improved ability to perform ADLs across the lifespan.

Effects of Active Vitamin D or FGF23 Antibody on Hyp Mice Dentoalveolar Tissues

Mutations in the PHEX gene lead to X-linked hypophosphatemia (XLH), a form of inherited rickets featuring elevated fibroblast growth factor 23 (FGF23), reduced 1,25-dihydroxyvitamin D (1,25D), and hypophosphatemia. Hyp mutant mice replicate the XLH phenotype, including dentin, alveolar bone, and cementum defects. We aimed to compare effects of 1,25D versus FGF23-neutralizing antibody (FGF23Ab) monotherapies on Hyp mouse dentoalveolar mineralization. Male Hyp mice, either injected subcutaneously with daily 1,25D or thrice weekly with FGF23 blocking antibody from 2 to 35 d postnatal, were compared to wild-type (WT) controls and untreated Hyp mice. Mandibles were analyzed by high-resolution micro–computed tomography (micro-CT), histology, and immunohistochemistry. Both interventions maintained normocalcemia, increased serum phosphate levels, and improved dentoalveolar mineralization in treated versus untreated Hyp mice. 1,25D increased crown dentin volume and thickness and root dentin/cementum volume, whereas FGF23Ab effects were limited to crown dentin volume. 1,25D increased bone volume fraction, bone mineral density, and tissue mineral density in Hyp mice, whereas FGF23Ab failed to significantly affect these alveolar bone parameters. Neither treatment fully attenuated dentin and bone defects to WT levels, and pulp volumes remained elevated regardless of treatment. Both treatments reduced predentin thickness and improved periodontal ligament organization, while 1,25D promoted a more profound improvement in acellular cementum thickness. Altered cell densities and lacunocanalicular properties of alveolar and mandibular bone osteocytes and cementocytes in Hyp mice were partially corrected by either treatment. Neither treatment normalized the altered distributions of bone sialoprotein and osteopontin in Hyp mouse alveolar bone. Moderate improvements from both 1,25D and FGF23Ab treatment regimens support further studies and collection of oral health data from subjects receiving a newly approved anti-FGF23 therapy. The inability of either treatment to fully correct Hyp mouse dentin and bone prompts further experiments into underlying pathological mechanisms to identify new therapeutic approaches.