Surgery is the main treatment of primary hyperparathyroidism(PHPT). Minimal invasive parathyroidectomy(MIP) requires the incision just over the parathyroid adenoma(PA). The HoloLens opens up a new era of mixed reality . In this study we used the HoloLens to superimpose a virtual 3D model of the parathyroid adenoma onto the patient's neck.

The study included 27 PHPT patients planned to have MIP. The PA was localized with both Ultrasound and CT parathyroid. A 3D virtual model based on CT parathyroid was created for 13 patients using "3Dslicer5.6.0" comprising group A with 14 patients with no model in group B. Models were uploaded to "Microsoft Holo-lens 2" and used for localisation of the PA intra-operatively using an anatomical bony landmark triangulation technique.

There were 19 female (70.3%) and 8 male patients (29.6%). Age ranged from 30 to 81 years. The PA was in the right upper position in 10 patients (37%). Operative time in group A ranged from (45-137 minutes) with median 54 minutes while in group B ranged from (49-140 minutes) with median 70 minutes. In group A 12 patients had MIP and one patient converted to open parathyroidectomy. The accuracy of Holo-lens in precisely locating the PA was 92.3%. In group B, 11 patients had MIP and 3 patients were converted to OP(27%).

Holo-lens improves intra-operative localization of PA in MIP and reduces the conversion rate of MIP as well as reducing the operative time. It will be of a value in improving training program.