Abstract Disclosure: S.M. Middleton: None. M. Mogri: None. Introduction: We present the case of a now 21-month-old F with prenatally suspected skeletal dysplasia; subsequent evaluation revealed concern for a form of brittle bone disease that has not been previously described. Clinical Case: The patient was delivered at 37.0 weeks gestational age via C-section. There had been prior prenatal concerns for a possible skeletal dysplasia. A skeletal survey done on day-of-life 2 noted generalized demineralization of her bones, shortening/bowing of the long bones, an acute right proximal ulnar fracture, and evidence of multiple discontinuous healed rib fractures. A repeat skeletal survey done at day-of-life 19 demonstrated worsening skeletal findings with a very poorly mineralized skull, shortening of the clavicles and extremities, progressive fractures in all extremities and further bowing of the limbs, progressive rib fractures with callus formation, and multiple vertebral bodies with stature loss concerning for compression fractures. Directed genetic testing for osteogenesis imperfecta was negative, so whole exome sequencing was pursued and identified variants of unknown significance in the KAT6B and WDR35 genes not previously described, noting that the patient was heterozygous for both. She was suspected to be a carrier for the WDR35 mutation as it is inherited in an autosomal recessive fashion, and parental genetic testing revealed that the patient’s father carried the same KAT6B mutation and was phenotypically normal. Mutations in these genes have been described in disorders associated with bone abnormalities (such as genitopatellar syndrome and cranioectodermal dysplasia 2), but with different clinical presentations. During the course of her care, she was also identified to have hypophosphatemia shortly after birth and concerns for phosphate wasting; she was noted to have a high fractional excretion of phosphate in the setting of low serum phosphorus despite enteral phosphorus supplementation. She additionally was found to have an elevated FGF23 level at the same time the suspected renal phosphate wasting was identified. Her total calcium has remained normal with normal PTH values; her 25-OH vitamin D has also been normal. She has subsequently been successfully managed on sodium phosphate and calcitriol supplementation, as well as regular zolendronate infusions, without recurrence of fractures, and is clinically doing well with improvements in her respiratory status and overall development. Conclusion: This patient illustrates a severe case of brittle bone disease that presently does not have a clear etiology, though could represent a novel genetic mutation that has not been described and could subsequently be identified with continued review of her genetic testing in the future. Reporting her case could be beneficial to other patients with similar skeletal disease in helping to identify an underlying cause. Presentation: 6/3/2024