The value of dynamic surgeon-directed imaging in the preoperative planning of patients with primary hyperparathyroidism

Abstract

BackgroundPreoperative localization plays an important role in primary hyperparathyroidism. Sestamibi scans read by the radiologist as nonlocalizing were localizing when independently interpreted by the surgeon. The ability to perform dynamic surgeon-directed imaging, a of combination scans interpreted by the surgeon and surgeon-performed ultrasound done in tandem, appeared to improve preoperative localization. The objective was to evaluate scans read by the radiologist compared with dynamic surgeon-directed imaging. MethodsA retrospective chart review was performed. Demographics, biochemistry, radiologist read scans, dynamic surgeon-directed imaging, operation, pathology, and follow-up results were collected. Localization rate, sensitivity, positive predictive value, and accuracy were calculated. ResultsIn the study, 474 charts met inclusion criteria. Only 63% of scans read by the radiologist were localizing, compared with 96% of dynamic surgeon-directed imaging. Overall dynamic surgeon-directed imaging was superior to scans read by the radiologist with 95% versus 60% sensitivity, 85% versus 85% positive predictive value, and 82% versus 54% accuracy. Dynamic surgeon-directed imaging remained superior when analyzing only those with single gland disease (n = 391). In addition, 85% of the 174 nonlocalized radiologist scans were correctly localized by dynamic surgeon-directed imaging. ConclusionThe ability to perform an interpretation of both surgeon-performed ultrasound and scan interpreted by the surgeon in tandem improves the preoperative localization rate when compared with static reading of radiologist scans. This underscores the importance of having all primary hyperparathyroidism patients assessed by an experienced parathyroid surgical team, especially when the scans read by the radiologist is nonlocalizing.