Halena M Gazelka1, Tasha L Welch2, Ahmad Nassr3, Tim J Lamer1. 1. Division of Pain Medicine. 2. Department of Anesthesiology. 3. Division of Orthopedic Spine Surgery, Mayo Clinic, Rochester, Minnesota, USA.
Abstract
OBJECTIVE: To determine whether the thermal energy associated with lumbar spine radiofrequency neurotomy (RFN) performed near titanium and stainless steel pedicle screws is conducted to the pedicle screws or adjacent tissues, or both, thus introducing potential for thermal damage to those tissues. DESIGN: Cadaver study. SETTING: Cadaver laboratory equipped with fluoroscopy, surgical spine implements, and radiofrequency generator. SUBJECTS: No live human subject; a fresh frozen (and thawed) cadaver torso was used for the study. METHODS: Titanium and stainless steel pedicle screws were placed in the lumbar spine of a fresh frozen cadaver torso with real-time fluoroscopic guidance. Conventional RFN cannula placement was performed at the level of pedicle screws and a control (nonsurgically altered) lumbar level. Neurotomy was performed with conventional radiofrequency lesioning parameters. Temperatures were recorded at multiple sites through thermistor probes. RESULTS: Direct contact of the radiofrequency cannula with the pedicle screws during conventional RFN produced a substantial increase in temperature in the surrounding soft tissues. A small increase in temperature occurred at the same sites at the control level. CONCLUSIONS: Titanium and stainless steel pedicle screws are capable of sustaining large increases in temperature when the radiofrequency probe comes in contact with the screw. These results are suggestive that pedicle screws could serve as a possible source of tissue heating and thermal injury during RFN. Wiley Periodicals, Inc.
OBJECTIVE: To determine whether the thermal energy associated with lumbar spine radiofrequency neurotomy (RFN) performed near titanium and stainless steel pedicle screws is conducted to the pedicle screws or adjacent tissues, or both, thus introducing potential for thermal damage to those tissues. DESIGN: Cadaver study. SETTING: Cadaver laboratory equipped with fluoroscopy, surgical spine implements, and radiofrequency generator. SUBJECTS: No live human subject; a fresh frozen (and thawed) cadaver torso was used for the study. METHODS: Titanium and stainless steel pedicle screws were placed in the lumbar spine of a fresh frozen cadaver torso with real-time fluoroscopic guidance. Conventional RFN cannula placement was performed at the level of pedicle screws and a control (nonsurgically altered) lumbar level. Neurotomy was performed with conventional radiofrequency lesioning parameters. Temperatures were recorded at multiple sites through thermistor probes. RESULTS: Direct contact of the radiofrequency cannula with the pedicle screws during conventional RFN produced a substantial increase in temperature in the surrounding soft tissues. A small increase in temperature occurred at the same sites at the control level. CONCLUSIONS: Titanium and stainless steel pedicle screws are capable of sustaining large increases in temperature when the radiofrequency probe comes in contact with the screw. These results are suggestive that pedicle screws could serve as a possible source of tissue heating and thermal injury during RFN. Wiley Periodicals, Inc.
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