NIRAF-Guided Parathyroid Identification During Thyroidectomy

Overview

This is a single-site, two-component prospective study evaluating whether near-infrared autofluorescence (NIRAF) imaging can improve intraoperative identification of parathyroid glands during thyroidectomy and reduce postoperative hypocalcemia. The investigational platform is a modified wearable stereoscopic goggle system configured for label-free NIRAF imaging. Parathyroid tissue is excited with near-infrared light at approximately 780 nm and emits autofluorescence centered near 800 nm. No injected dye or external contrast agent is used. The goggles are used only during a brief mapping interval after thyroid exposure and for ex vivo interrogation of the resected thyroid specimen. Component A is a prospective observational run-in validation cohort of 30 adults undergoing thyroidectomy of any extent. NIRAF-positive foci on the intact thyroidectomy specimen are suture-marked and correlated with targeted pathology. Component B is a randomized clinical study of 250 adults undergoing total or completion thyroidectomy. Participants are randomized 1:1 to standard surgery or standard surgery plus brief in vivo NIRAF mapping, ex vivo specimen interrogation, and rescue autotransplantation when indicated. The primary outcome for Component B is transient biochemical hypocalcemia on postoperative day 1, defined using albumin-corrected serum calcium.

Near-infrared autofluorescence (NIRAF) imaging is being evaluated as a structured adjunct to standard thyroidectomy for localization and preservation of parathyroid tissue. Parathyroid tissue emits intrinsic near-infrared autofluorescence without administration of dye or other contrast agent. The study imaging platform is a modified head-mounted stereoscopic goggle system that provides near-infrared excitation at approximately 780 nm and detects autofluorescence centered near 800 nm. Imaging is non-contact and is performed only during a brief prespecified in vivo mapping interval and ex vivo back-table specimen interrogation. The study includes a run-in validation component followed by a randomized interventional component. In the run-in component, ex vivo imaging of thyroidectomy specimens is used to standardize imaging conditions, documentation, suture marking, specimen mapping, and pathology correlation for NIRAF-positive foci. In the randomized component, participants undergoing total or completion thyroidectomy are randomized to standard surgery or standard surgery plus adjunct NIRAF mapping. In the intervention arm, the surgeon records parathyroid glands identified under white light before mapping, then uses NIRAF information as an adjunct to standard anatomy and surgical judgment. After thyroid removal, ex vivo specimen imaging may be used to identify NIRAF-bright foci that could represent inadvertently excised parathyroid tissue. Rescue autotransplantation may be performed only when clinically appropriate and oncologically safe. NIRAF findings are intended to supplement, not replace, standard operative assessment, surgical anatomy, pathology review, or oncologic decision-making.