PT  - JOURNAL ARTICLE
AU  - Boudissa, Mehdi
AU  - Kerschbaumer, Gaël
AU  - Cavalié, Guillaume
AU  - Desrousseaux, Jean-François
AU  - Perrin, Alexis
AU  - Abi Lahoud, Georges Naïm
AU  - Decaudain, Julien
AU  - Léglise, Amélie
AU  - Sledge, John
AU  - Bénac, Benjamin
AU  - Ouali, Jérémy
AU  - Tonetti, Jérôme
TI  - Radiation Exposure Analysis on 274 Patients With Vertebral Augmentation Using the Surgivisio Intraoperative Navigation System
AID  - 10.14444/8701
DP  - 2025 Jan 21
TA  - International Journal of Spine Surgery
PG  - 8701
4099  - https://www.ijssurgery.com/content/early/2025/01/20/8701.short
4100  - https://www.ijssurgery.com/content/early/2025/01/20/8701.full
AB  - Background Surgeons’ reliance on intraoperative fluoroscopy during vertebroplasty procedures has raised concerns regarding the level of patient and surgeon radiation. Navigation systems have shown a potential to reduce the overall patient and medical staff exposure during dose exposure studies. The main objective of this study was to determine whether the Surgivisio platform (eCential Robotics, France), a unified imaging and navigation platform, lowers the patient dose during routine clinical usage as compared with published fluoroscopy and other navigation options that are published in the literature.Methods To accomplish this, we evaluated the radiation exposure dose during routine vertebroplasty procedures in which the surgeon was not trying to limit radiation and then compared the results to best-case dose assessment studies. Since a decreased radiation dose can lead to decreased image quality, we also quantified the surgeon’s perception of image quality and ease of use. Two hundred and seventy-four Surgivisio-assisted vertebral augmentations were pooled from a broader 1694-patient protocol (not focusing on radiation outcomes) and analyzed.Results We measured a median dose-area product and effective dose equal to 3.47 Gy.cm² and 0.81 mSv. The 3-dimensional image acquisitions contributed to 56.3% of the total dose-area product. When screening the literature, fluoroscopy dose levels (8.37–15.1 Gy.cm²) and navigation dose levels (9.12–9.83 Gy.cm²) were generally higher than those delivered with the Surgivisio protocol. Surgeon satisfaction for image quality and overall system experience was 95.8% and 85% for ease of use.Conclusions The Surgivisio platform provided surgeons with high-quality images and ease of use. Since the surgeon is out of the room during the 3-dimensional image acquisition, this also substantially decreased their radiation exposure. This study demonstrates the efficiency of the Surgivisio platform to assist surgeons during vertebral augmentations, as the reported radiation levels are reduced in routine cases compared with published scenarios reported for other guidance methods.