TY - JOUR
T1 - Robot-Assisted vertebral body augmentation
T2 - A radiation reduction tool
AU - Barzilay, Yair
AU - Schroeder, Josh E.
AU - Hiller, Nurith
AU - Singer, Gordon
AU - Hasharoni, Amir
AU - Safran, Ori
AU - Liebergall, Meir
AU - Itshayek, Eyal
AU - Kaplan, Leon
PY - 2014/1/15
Y1 - 2014/1/15
N2 - Study Design. Retrospective. Objective. To assess radiation exposure time during robot-guided vertebral body augmentation compared with other published findings. Summary of Background Data. Rising incidence of vertebral compression fractures in the aging population result in widespread use of vertebral body cement augmentation with significant radiation exposure to the surgeon, operating room staff, and patient. Radiation exposure leads to higher cancer rates among orthopedic and spine surgeons and patients. Methods. Thirty-three patients with 60 vertebral compression fractures underwent robot-guided vertebral body augmentation performed by 2 surgeons simultaneously injecting cement at 2 levels under pulsed fluoroscopy. The age of patients was in the range from 29 to 92 (mean, 67 yr). One to 6 vertebrae were augmented per case (average 2). Twenty-five patients had osteoporotic fractures and 8 had pathological fractures. Robotic guidance data included execution rate, accuracy of guidance, total surgical time, and time required for robotic guidance. Radiation-related data included the average preoperative computed tomographic effective dose, radiation time for calibration, registration, placement of Kirschner wires, and total procedure radiation time. Radiation time per level and surgeon's exposure were calculated. Results. Kyphoplasty was performed in 15 patients (1 sacroplasty), vertebroplasty in 13, and intravertebral expanding implants in 5. The average preoperative computed tomographic effective dose was 50 mSv (18-81). Average operative time was 118 minutes (49-350). Mean robotic guidance took 36 minutes. Average operative radiation time was 46.1 seconds per level (33-160). Average exposure time of the surgeons and the operating room staff per augmented level was 37.6 seconds. The execution rate was 99%, with an accuracy of 99%. Two complications (hemothorax and superficial wound infection) occurred. Conclusion. The radiation exposure of the surgeon and the operating room staff in a series of robot-Assisted vertebral body augmentation was 74% lower than published results on fluoroscopy guidance and approximately 50% lower than the literature on navigated augmentation.
AB - Study Design. Retrospective. Objective. To assess radiation exposure time during robot-guided vertebral body augmentation compared with other published findings. Summary of Background Data. Rising incidence of vertebral compression fractures in the aging population result in widespread use of vertebral body cement augmentation with significant radiation exposure to the surgeon, operating room staff, and patient. Radiation exposure leads to higher cancer rates among orthopedic and spine surgeons and patients. Methods. Thirty-three patients with 60 vertebral compression fractures underwent robot-guided vertebral body augmentation performed by 2 surgeons simultaneously injecting cement at 2 levels under pulsed fluoroscopy. The age of patients was in the range from 29 to 92 (mean, 67 yr). One to 6 vertebrae were augmented per case (average 2). Twenty-five patients had osteoporotic fractures and 8 had pathological fractures. Robotic guidance data included execution rate, accuracy of guidance, total surgical time, and time required for robotic guidance. Radiation-related data included the average preoperative computed tomographic effective dose, radiation time for calibration, registration, placement of Kirschner wires, and total procedure radiation time. Radiation time per level and surgeon's exposure were calculated. Results. Kyphoplasty was performed in 15 patients (1 sacroplasty), vertebroplasty in 13, and intravertebral expanding implants in 5. The average preoperative computed tomographic effective dose was 50 mSv (18-81). Average operative time was 118 minutes (49-350). Mean robotic guidance took 36 minutes. Average operative radiation time was 46.1 seconds per level (33-160). Average exposure time of the surgeons and the operating room staff per augmented level was 37.6 seconds. The execution rate was 99%, with an accuracy of 99%. Two complications (hemothorax and superficial wound infection) occurred. Conclusion. The radiation exposure of the surgeon and the operating room staff in a series of robot-Assisted vertebral body augmentation was 74% lower than published results on fluoroscopy guidance and approximately 50% lower than the literature on navigated augmentation.
KW - Radiation exposure
KW - Radiation reduction
KW - Robot-Assisted spine surgery
KW - Vertebral body cement augmentation
UR - http://www.scopus.com/inward/record.url?scp=84895071814&partnerID=8YFLogxK
U2 - 10.1097/BRS.0000000000000100
DO - 10.1097/BRS.0000000000000100
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C2 - 24173014
AN - SCOPUS:84895071814
SN - 0362-2436
VL - 39
SP - 153
EP - 157
JO - Spine
JF - Spine
IS - 2
ER -