Abstract Disclosure: I.R. Hartley: Research Investigator; Self; Calcilytix Therapeutics, Inc. R.I. Gafni: Research Investigator; Self; Calcilytix Therapeutics, Inc. K.L. Roszko: Research Investigator; Self; Calcilytix Therapeutics, Inc. X. Li: None. E.A. Ferguson: Research Investigator; Self; Calcilytix Therapeutics, Inc. C.A. Moore: Research Investigator; Self; Calcilytix Therapeutics, Inc. K.A. Pozo: Research Investigator; Self; Calcilytix Therapeutics, Inc. K.T. Ampuero: Research Investigator; Self; Calcilytix Therapeutics, Inc. A.V. Sridhar: Employee; Self; Calcilytix Therapeutics, Inc. A.S. Mathew: Employee; Self; Calcilytix Therapeutics, Inc. M. Roberts: Employee; Self; Calcilytix Therapeutics, Inc. S.H. Adler: Employee; Self; Calcilytix Therapeutics, Inc. E.F. Nemeth: Consulting Fee; Self; Calcilytix Therapeutics, Inc. M.T. Collins: Research Investigator; Self; Calcilytix Therapeutics, Inc. Parathyroid hormone (PTH) and the calcium-sensing receptor (CaSR) are the primary regulators of blood and urinary calcium. The independent contributions of PTH and the CaSR on renal calcium handling are not well understood, largely due to their intertwined physiology. In individuals with functioning parathyroid tissue, calcilytics (negative modulators of the CaSR) increase PTH secretion and decrease urinary calcium excretion, leading to increased blood calcium levels. We hypothesized that calcilytic administration to individuals with post-surgical hypoparathyroidism (PSH) may reveal the PTH-independent effects of CaSR modulation on renal calcium handling and clarify the potential therapeutic role of calcilytics in PSH. Four women (26-69y) with PSH enrolled in an ongoing, open-label, phase 2, proof-of-principle study of encaleret, an oral investigational calcilytic (NCT05735015). Encaleret 162 mg was administered every 12 hours for up to 10 doses. Calcitriol was discontinued one day prior to the first dose of encaleret. All participants received calcium supplementation initially. To maintain eucalcemia, 1 participant discontinued calcium supplementation and 3 required re-initiation of low-dose calcitriol (0.25 mcg daily). Results are presented as mean (range) of fasting baseline pre-dose levels compared to fasting levels 12 hours after the last dose of encaleret. Fractional excretion of calcium (FECa), a measure of renal calcium handling that quantifies the relationship between blood and urinary calcium, decreased by 52% (34-78). Albumin-corrected blood calcium increased from 8.4 mg/dL (range 8.1-8.6; nl 8.4-10.2) to 9.3 (8.6-10.7). Urinary calcium excretion decreased from 348 mg/day (range 204-501; nl <250) to 169 (76-350), with normalization in 3 participants and a 30% decrease in the fourth. Baseline PTH of 7.4 pg/mL (range 4.6-10.1; nl 15-65) transiently increased 30 minutes after the first dose to 13.0 (4.5-18.1), then returned to near baseline levels. Bone turnover markers were normal and did not change on encaleret. There were no serious adverse events reported. The only treatment-related adverse events (AEs) were mild hypercalcemia causing headache in 1 participant. Her blood calcium levels continued to be mildly elevated for 60 hours after the last dose of encaleret even after calcium and calcitriol supplementation was discontinued. Despite elevated blood calcium, her 24-hour urine calcium remained <200 mg/day. Encaleret reduced FECa in the first four participants with PSH, improving the relationship between blood and urinary calcium. These preliminary results from this Phase 2 study support continued evaluation of encaleret as an orally administered therapy for the treatment of patients with PSH. Presentation: 6/1/2024
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