K Schuetze1, M Kraus2, A Eickhoff3, F Gebhard3, P H Richter3. 1. Department of Trauma-, Hand- and Reconstructive Surgery, Ulm University, Albert-Einstein-Allee 23, 89081, Ulm, Germany. konrad.schuetze@uniklinik-ulm.de. 2. Department of Orthopaedic Surgery, Ulm University, Oberer Eselsberg 45, 89081, Ulm, Germany. 3. Department of Trauma-, Hand- and Reconstructive Surgery, Ulm University, Albert-Einstein-Allee 23, 89081, Ulm, Germany.
Abstract
BACKGROUND: Hybrid operating rooms are used in different fields of surgery. In orthopedic surgery, the possibility of a 3D scan of difficult anatomical regions (spine, pelvis) showed promising results not only in navigated screw placement. The associated exposure to radiation raises questions regarding potential risks for the operating room personal and the patient. The present study focuses on scatter radiation during 3D scans in a hybrid operating room, the adjacent rooms, and methods to reduce radiation exposure. MATERIAL AND METHODS: [Formula: see text] i2 dosimeters were used to measure scatter radiation during 3D scans of different anatomical regions in different distances and heights in a hybrid operating room. The 3D scans were performed with a floor-based flat-panel robotic C-arm with 3D scan capability (Artis Zeego, Siemens; Germany). The 3D scans were performed using a human cadaver. The 3D scans were performed using a standard and a dose reduction protocol (DRP). RESULTS: The highest scatter radiation was measured during 3D scans of the pelvis on the side of the surgical assistant (39.5 µSv in height of 1 m) compared to the side of the main surgeon (23 µSv in height of 1 m). Scatter radiation was less on the position of the scrub nurse (6.8 µSv in height of 1 m) and during 3D scans of the other anatomical regions. The radiation dosage was about 66% less with the DRP. Low values of scatter radiation were measured behind a radiation protection wall and with open doors in the adjacent rooms. CONCLUSION: While performing a scan scatter radiation was measured everywhere in the operating room especially during 3D scans of the pelvic girdle. Therefore, settings with lower dosage should be used whenever possible. Personnel should stand behind a radiation safety wall or leave the operating room and close the doors. For this study, six behavioral rules to avoid radiation in a hybrid operating room were established.
BACKGROUND: Hybrid operating rooms are used in different fields of surgery. In orthopedic surgery, the possibility of a 3D scan of difficult anatomical regions (spine, pelvis) showed promising results not only in navigated screw placement. The associated exposure to radiation raises questions regarding potential risks for the operating room personal and the patient. The present study focuses on scatter radiation during 3D scans in a hybrid operating room, the adjacent rooms, and methods to reduce radiation exposure. MATERIAL AND METHODS: [Formula: see text] i2 dosimeters were used to measure scatter radiation during 3D scans of different anatomical regions in different distances and heights in a hybrid operating room. The 3D scans were performed with a floor-based flat-panel robotic C-arm with 3D scan capability (Artis Zeego, Siemens; Germany). The 3D scans were performed using a human cadaver. The 3D scans were performed using a standard and a dose reduction protocol (DRP). RESULTS: The highest scatter radiation was measured during 3D scans of the pelvis on the side of the surgical assistant (39.5 µSv in height of 1 m) compared to the side of the main surgeon (23 µSv in height of 1 m). Scatter radiation was less on the position of the scrub nurse (6.8 µSv in height of 1 m) and during 3D scans of the other anatomical regions. The radiation dosage was about 66% less with the DRP. Low values of scatter radiation were measured behind a radiation protection wall and with open doors in the adjacent rooms. CONCLUSION: While performing a scan scatter radiation was measured everywhere in the operating room especially during 3D scans of the pelvic girdle. Therefore, settings with lower dosage should be used whenever possible. Personnel should stand behind a radiation safety wall or leave the operating room and close the doors. For this study, six behavioral rules to avoid radiation in a hybrid operating room were established.
Authors: Daniel E Kendrick; Claire P Miller; Pamela A Moorehead; Ann H Kim; Henry R Baele; Virginia L Wong; David W Jordan; Vikram S Kashyap Journal: J Vasc Surg Date: 2015-10-09 Impact factor: 4.268
Authors: M C Müller; K Welle; A Strauss; P C Naehle; P H Pennekamp; O Weber; C Burger Journal: Orthop Traumatol Surg Res Date: 2014-11-18 Impact factor: 2.256
Authors: R F F van den Haak; B C Hamans; K Zuurmond; B A N Verhoeven; O H J Koning Journal: Eur J Vasc Endovasc Surg Date: 2015-08-15 Impact factor: 7.069