Nirogacestat-the pathway to approval of the first treatment for desmoid tumors, a rare disease.

Abstract

Drug development for rare diseases can be long, complex, and costly. Desmoid tumors (DT), a rare type of soft-tissue tumor, are associated with substantial and debilitating burden, including disease-specific symptoms (e.g., pain, impaired mobility), reduce functioning for daily activities, and worsen quality of life for patients with this condition. These tumors can be potentially life-threatening when they invade surrounding tissues, affect vital structures, or interfere with the body's functions. Until recently, there were no approved treatments specific to DT and little alignment on disease management. However, on November 27, 2023, the US Food and Drug Administration approved nirogacestat, an oral, targeted, and selective gamma secretase inhibitor, indicated for adult patients with progressing DT who require systemic treatment. This development milestone ascribes to nirogacestat the first approval of a gamma secretase inhibitor for human clinical use and the first therapy specifically indicated for treating patients with DT, thus addressing a long-term unmet need in this patient population. In the DeFi phase III trial of nirogacestat in adults with DT (NCT03785964), nirogacestat demonstrated statistically significant and clinically meaningful improvement in progression-free survival, objective response rate, DT-specific symptom burden (including pain), physical functioning, role functioning, and overall quality of life. This review chronicles the clinical development journey of nirogacestat from 2009 to the present day. Motivated to improve patient outcomes-and navigating considerable skepticism and uncertainty-the dedicated efforts of individuals within academic and medical institutions, industry, and patient advocacy groups shepherded nirogacestat through the development process, including those times when development stalled and might otherwise have been abandoned. Nirogacestat's pathway to becoming a treatment for DT demonstrates how critically important collaboration and coordination are for identifying unique, creative solutions to overcome challenges in rare disease drug development.