Use of CT-based intraoperative spinal navigation: management of radiation exposure to operator, staff, and patients.

OBJECTIVE Radiation exposure represents significant risk to both operating room health care workers and their patients. The commonplace surgical implantation of spinal instrumentation often relies on fluoroscopy for guidance and verification. Advances in computerized tomography (CT)-based intraoperative navigation have improved accuracy of screw placement. The objective of this article is to quantify the radiation exposure from fluoroscopic and CT-based intraoperative navigation and to provide guidance in mitigating the exposure to patient and operating room (OR) staff. METHODS With radiation measurement devices in place, a female cadaver underwent pedicle screws from T7 to S1. The left side was guided by fluoroscopy, the right side by CT-based navigation. In addition, a CT-based navigation system was placed in an empty OR. Measurements of radiation while scanning phantom were undertaken at various positions around the OR. RESULTS The use of intraoperative CT-based navigation virtually eliminated radiation exposure to the surgeon. However, the radiation dose to the patient was increased compared with fluoroscopy. In addition, the radiation profile of the CT-based navigation system was not uniform with significantly lower radiation perpendicular to the axis of the patient on the side of the control panel. CONCLUSIONS Use of intraoperative CT-based navigation systems results in lower radiation dose to the surgeon compared with fluoroscopic-based methods. There is an increase in the radiation to the patient. In addition, it is necessary to consider and eliminate other perioperative sources of radiation, such as a postoperative CT scan, which are made redundant by this technology.

[1]  P. Vock,et al.  Radiation dose for pedicle screw insertion. Fluoroscopic method versus computer-assisted surgery. , 1999, Spine.

[2]  Phillip M Young,et al.  Placement of thoracolumbar pedicle screws using three-dimensional image guidance: experience in a large patient cohort. , 2009, Journal of neurosurgery. Spine.

[3]  Peter Vock,et al.  Radiation Dose for Pedicle Screw Insertion , 1999 .

[4]  L. Tanoue Computed Tomography — An Increasing Source of Radiation Exposure , 2009 .

[5]  Y. Rampersaud,et al.  Radiation Exposure to the Spine Surgeon During Fluoroscopically Assisted Pedicle Screw Insertion , 2000, Spine.

[6]  Jie Zhang,et al.  Dosimetric characterization of a cone-beam O-arm imaging system. , 2009, Journal of X-ray science and technology.

[7]  Yongjung J Kim,et al.  Free Hand Pedicle Screw Placement in the Thoracic Spine without Any Radiographic Guidance : Technical Note, a Cadaveric Study , 2012, Journal of Korean Neurosurgical Society.

[8]  Charles Kuntz,et al.  Accuracy of Thoracic Vertebral Body Screw Placement Using Standard Fluoroscopy, Fluoroscopic Image Guidance, and Computed Tomographic Image Guidance: A Cadaver Study , 2003, Spine.

[9]  Division on Earth Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2 , 2006 .

[10]  John Damilakis,et al.  Estimation of Patient Dose and Associated Radiogenic Risks From Fluoroscopically Guided Pedicle Screw Insertion , 2004, Spine.

[11]  L. Lenke,et al.  Free Hand Pedicle Screw Placement in the Thoracic Spine: Is it Safe? , 2004, Spine.

[12]  J. Damilakis,et al.  Occupational Gonadal and Embryo/Fetal Doses From Fluoroscopically Assisted Surgical Treatments of Spinal Disorders , 2004, Spine.

[13]  L. E. Summers,et al.  Odontoid Screw Placement Using Isocentric 3-dimensional C-arm Fluoroscopy , 2008, Journal of spinal disorders & techniques.

[14]  Choll W. Kim,et al.  Use of navigation-assisted fluoroscopy to decrease radiation exposure during minimally invasive spine surgery. , 2008, The spine journal : official journal of the North American Spine Society.

[15]  M. O’Brien,et al.  Radiation Exposure During Pedicle Screw Placement in Adolescent Idiopathic Scoliosis: Is Fluoroscopy Safe? , 2006, Spine.

[16]  Rick C Sasso,et al.  Computer-assisted Spinal Navigation Versus Serial Radiography and Operative Time for Posterior Spinal Fusion at L5-S1 , 2007, Journal of spinal disorders & techniques.

[17]  A. Nowitzke,et al.  Improving accuracy and reducing errors in spinal surgery--a new technique for thoracolumbar-level localization using computer-assisted image guidance. , 2008, The spine journal : official journal of the North American Spine Society.

[18]  N. Theocharopoulos,et al.  Fluoroscopically Assisted Surgical Treatments of Spinal Disorders: Conceptus Radiation Doses and Risks , 2006, Spine.

[19]  Gordon Singer,et al.  Occupational Radiation Exposure to the Surgeon , 2005, The Journal of the American Academy of Orthopaedic Surgeons.

[20]  William S. McArthur,et al.  Is it safe? , 2012, British journal of hospital medicine.

[21]  D. Anderson,et al.  A cadaveric study comparing standard fluoroscopy with fluoroscopy-based computer navigation for screw fixation of the odontoid. , 2005, Journal of surgical orthopaedic advances.