Clinical significance of increased serum levels of FGF-23 in fibrous dysplasia. / Significado clínico del aumento de los valores séricos de FGF-23 en la displasia fibrosa.

INTRODUCTION AND OBJECTIVE: Fibrous dysplasia (FD) can be associated with the development of hypophosphatemic osteomalacia, caused by the production of FGF-23 by dysplastic bone tissue. This study analysed FGF-23 levels in patients with FD, and their association with disease activity and serum phosphate values. PATIENTS AND METHODS: Twelve adult patients with FD were included in the study. Clinical history, disease extension and activity and treatments received were reviewed, and the relationship of those values with FGF-23 and serum P levels was analysed. RESULTS: FGF-23 was elevated in 6/12 patients (50%). Patients with high FGF-23 levels had similar age and disease activity and extension than those who did not. No differences were observed in serum phosphate values between both groups (increased FGF-23: 3.9±0.9 mg/dl vs. decreased FGF-23: 3.5±0.6 mg/dl). In fact, none of the patients with increased FGF-23 had low serum phosphate values. CONCLUSION: Adult FD patients frequently present elevated FGF-23 values with no serum phosphate level repercussion, suggesting an alteration in the processing of this protein in the dysplastic bone tissue for this pathology.

Denosumab treatment for fibrous dysplasia.

Fibrous dysplasia (FD) is a skeletal disease caused by somatic activating mutations of the cyclic adenosine monophosphate (cAMP)-regulating protein, α-subunit of the Gs stimulatory protein (G(s) α). These mutations lead to replacement of normal bone by proliferative osteogenic precursors, resulting in deformity, fracture, and pain. Medical treatment has been ineffective in altering the disease course. Receptor activator of NF-κB ligand (RANKL) is a cell-surface protein involved in many cellular processes, including osteoclastogenesis, and is reported to be overexpressed in FD-like bone cells. Denosumab is a humanized monoclonal antibody to RANKL approved for treatment of osteoporosis and prevention of skeletal-related events from bone metastases. We present the case of a 9-year-old boy with severe FD who was treated with denosumab for a rapidly expanding femoral lesion. Immunohistochemical staining on a pretreatment bone biopsy specimen revealed marked RANKL expression. He was started on monthly denosumab, with an initial starting dose of 1 mg/kg and planned 0.25 mg/kg dose escalations every 3 months. Over 7 months of treatment he showed marked reduction in pain, bone turnover markers (BTMs), and tumor growth rate. Denosumab did not appear to impair healing of a femoral fracture that occurred while on treatment. With initiation of treatment he developed hypophosphatemia and secondary hyperparathyroidism, necessitating supplementation with phosphorus, calcium, and calcitriol. BTMs showed rapid and sustained suppression. With discontinuation there was rapid and dramatic rebound of BTMs with cross-linked C-telopeptide (reflecting osteoclast activity) exceeding pretreatment levels, accompanied by severe hypercalcemia. In this child, denosumab lead to dramatic reduction of FD expansion and FD-related bone pain. Denosumab was associated with clinically significant disturbances of mineral metabolism both while on treatment and after discontinuation. Denosumab treatment of FD warrants further study to confirm efficacy and determine potential morbidity, as well as to determine the mechanism of RANKL in the pathogenesis of FD and related bone marrow stromal cell diseases.

Alternative indications for bisphosphonate therapy.

Bisphosphonates are currently used in the treatment of osteoporosis (postmenopausal and steroid-induced), hypercalcemia of malignancy, Paget's disease of bone, multiple myeloma, and skeletally related events associated with metastatic bone disease in breast, prostate, lung, and other cancers. There are, however, numerous other conditions where a decrease in bone remodeling by bisphosphonates might aid in disease management. The focus of this review will be to discuss a select group of conditions for which bisphosphonate therapy may be efficacious. In this review we present several cases where bisphosphonates have been used as a primary or adjunctive treatment for giant cell lesions of the jaws. Use of bisphosphonate therapy for giant cell tumors of the appendicular skeleton, pediatric osteogenesis imperfecta, fibrous dysplasia, Gaucher's disease, and osteomyelitis will be discussed. Finally, we will review previous in vivo studies on the use of bisphosphonates to augment integration and to treat osteolysis surrounding failing orthopedic implants.

Fibrous dysplasia of bone and McCune-Albright syndrome.

Fibrous dysplasia of bone is a genetic, non-inheritable disease, characterized by bone pain, bone deformities and fracture, involving one or several bones. It is caused by mis-sense mutations occurring post-zygotically in the gene coding for the alpha-subunit of the stimulatory G-protein, Gs, in the guanine nucleotide binding, alpha stimulating (GNAS) complex locus in chromosome 20q13. This mutation results in osteoblastic differentiation defects, and bone resorption is often increased. The bone lesions may be associated with endocrine dysfunctions and café-au-lait spots; this is known as McCune-Albright syndrome. Patients with polyostotic fibrous dysplasia often have renal phosphate wasting. The disease, however, has a wide clinical spectrum, so many patients are asymptomatic. Diagnosis relies on radiographs and pathology. Bisphosphonates have been used in the treatment of fibrous dysplasia to relieve bone pain and improve lytic lesions, but they are still under clinical evaluation. Calcium, vitamin D and phosphorus supplements may be useful in some patients. Surgery is also helpful to prevent and treat fracture and deformities.

Medical therapy in adults with fibrous dysplasia of bone.

UNLABELLED: In open studies, bisphosphonate therapy (pamidronate, alendronate) reduced bone pain associated with fibrous dysplasia of bone and was associated to some radiological improvement. Calcium, vitamin D, and phosphorus supplements may be useful in patients with deficiency. We are awaiting results from controlled trials testing bisphosphonates. INTRODUCTION: Fibrous dysplasia of bone (FD), a rare disease caused by osteoblastic lineage differentiation defects, is associated with bone pain, fracture, and bone deformity, but few therapeutic options are available. MATERIALS AND METHODS: We reviewed published data on the treatment of FD with bisphosphonates (pamidronate, alendronate), calcium, vitamin D, and phosphorus. We also present new results on FD therapy with a more potent bisphosphonate, zoledronic acid, given intravenously at the dose of 4 mg every 6 months. RESULTS: Pamidronate therapy, given intravenously every 6 months at a dose of 180 mg in adults, relieved bone pain, decreased bone resorption, and improved the radiological aspect (filling of lytic lesions and/or thickening of cortices) in approximately 50% of patients. BMD in affected sites was also significantly increased after pamidronate treatment. Those results have been obtained only in open studies, without controls, by several research groups. In a series of nine patients on long-term pamidronate treatment, but resisting to this medication and switched to intravenous zoledronic acid, no substantial improvement was observed. There is some biological rationale supporting the use of calcium and vitamin D in patients with deficiency to improve FD lesions by limiting secondary hyperparathyroidism. Phosphorus supplementation may prevent mineralization defects in those patients who have both FD and renal phosphate wasting. However, we are lacking clinical evidence for the efficacy of such supplements. CONCLUSIONS: Bisphosphonate treatment reduces increased osteoclastic activity in FD and probably improves bone pain, but their use should be better studied in randomized controlled trials.

Treatment of fibrous dysplasia of bone with intravenous pamidronate: long-term effectiveness and evaluation of predictors of response to treatment.

Fibrous dysplasia (FD) of bone is a rare but potentially severe bone disease that often entails fractures, deformities, and bone pain. An activating mutation of the alpha subunit of Gs proteins leads to differentiation abnormalities of the osteoblastic lineage, which are responsible for development of fibrous tissue in the medulla and increased osteoclastic activity. This increased bone resorption has been the rationale to use bisphosphonates in our center since 1988. So, we have analyzed the largest series, so far, of patients treated with the bisphosphonate pamidronate and sought predictors of response to treatment. We have treated 58 patients (41 adults and 17 under 18 years of age) with FD in an open study, using intravenous (IV) pamidronate 180 mg every 6 months and calcium and vitamin D supplements, in combination with oral phosphate and calcitriol in patients with FD who also had renal phosphate wasting. Patients were followed up with biannual visits, for an average 50 months, with pain assessment, annual radiographs of affected bones, measurement of biochemical markers of bone turnover, and annual bone mineral density measurements in the case of affected hips. We found that pain intensity significantly decreased with treatment in the 44 patients who had bone pain at baseline, biochemical markers of bone turnover were significantly reduced, and about 50% of patients had improvement of bone lesions on radiographs, evidenced by filling of osteolytic lesions and/or cortex thickening. Bone mineral density was substantially increased in the 12 patients who had hip FD. There was no significant clinical or biological predictor of positive radiographic response to pamidronate treatment. Long-term treatment with pamidronate was safe, in particular among the 12 patients who were followed up for more than 8 years. Despite the lack of a control group, our results suggest that intravenous pamidronate improves radiological aspect in half of the patients with FD, decreases bone turnover, and may decrease pain intensity.