Timothy W Carey1, K Aaron Shaw2, Marissa L Weber3, John G DeVine4. 1. Irwin Army Community Hospital, Department of Orthopaedic Surgery, 600 Caisson Hill Rd, Fort Riley, KS 66442. 2. Dwight D. Eisenhower Army Medical Center, Department of Orthopaedic Surgery, 300 E Hospital Rd, Fort Gordon, GA 30905. Electronic address: kenneth.a.shaw34.mil@mail.mil. 3. Bayne Jones Army Community Hospital, Department of Opthalmology, 1585 3rd St, Fort Polk, LA 71459. 4. Dwight D. Eisenhower Army Medical Center, Department of Orthopaedic Surgery, 300 E Hospital Rd, Fort Gordon, GA 30905.
Abstract
BACKGROUND CONTEXT: Postoperative vision loss complicates an estimated 1 in 1,100 prone spine surgical cases. This complication has been attributed to ischemic optic neuropathy, with one proposed reason being perioperative elevations in intraocular pressure (IOP). Previous research has studied the effects of table inclination on IOP in awake volunteers; however, the effects in spine surgery patients have not been investigated for reverse Trendelenburg positioning using a prospective, randomized controlled study design. PURPOSE: To assess the effect of table inclination on IOP in patients undergoing prone spine surgery. STUDY DESIGN: Single-center, prospective randomized controlled study. PATIENT SAMPLE: Nineteen patients with no history of eye pathology, undergoing prone spine surgery at Dwight D. Eisenhower Army Medical Center, were randomly assigned to a table position: neutral, 5°, or 10° of reverse Trendelenburg. OUTCOME MEASURES: Intraocular pressure, mean arterial pressure (MAP), estimated blood loss, fluid resuscitation, and ophthalmologic complication were assessed before and after induction and at incremental times during surgery, beginning at 30 minutes, 60 minutes, and 60-minute increments thereafter. METHODS: Multivariate analyses evaluated surgical time, IOP, MAP, estimated blood loss, and fluid resuscitation as a function of table inclination to determine the effect of patient positioning on identified risk factors for postoperative vision loss. RESULTS: Surgical times ranged from 33 to 325 minutes. A rapid increase in IOP was noted after prone positioning, with continued increases as time elapsed. The neutral group exhibited statistically higher IOP compared with the 5° reverse Trendelenburg group after 60 minutes and the 10° group through 60 minutes of surgery. The trend continued through 120 minutes; however, because of a lack of power, we were unable to determine the statistical significance. There were no statistically significant differences between the 5° and 10° reverse Trendelenburg groups. CONCLUSIONS: Reverse Trendelenburg positioning elicits decreased IOP compared with prone positioning for surgery times less than 120 minutes. Ten degrees of reverse Trendelenburg attenuate the rise in IOP during prone spine surgery superiorly in comparison with 5°. No significant complications were associated with reverse Trendelenburg positioning. Published by Elsevier Inc.
RCT Entities:
BACKGROUND CONTEXT: Postoperative vision loss complicates an estimated 1 in 1,100 prone spine surgical cases. This complication has been attributed to ischemic optic neuropathy, with one proposed reason being perioperative elevations in intraocular pressure (IOP). Previous research has studied the effects of table inclination on IOP in awake volunteers; however, the effects in spine surgery patients have not been investigated for reverse Trendelenburg positioning using a prospective, randomized controlled study design. PURPOSE: To assess the effect of table inclination on IOP in patients undergoing prone spine surgery. STUDY DESIGN: Single-center, prospective randomized controlled study. PATIENT SAMPLE: Nineteen patients with no history of eye pathology, undergoing prone spine surgery at Dwight D. Eisenhower Army Medical Center, were randomly assigned to a table position: neutral, 5°, or 10° of reverse Trendelenburg. OUTCOME MEASURES: Intraocular pressure, mean arterial pressure (MAP), estimated blood loss, fluid resuscitation, and ophthalmologic complication were assessed before and after induction and at incremental times during surgery, beginning at 30 minutes, 60 minutes, and 60-minute increments thereafter. METHODS: Multivariate analyses evaluated surgical time, IOP, MAP, estimated blood loss, and fluid resuscitation as a function of table inclination to determine the effect of patient positioning on identified risk factors for postoperative vision loss. RESULTS: Surgical times ranged from 33 to 325 minutes. A rapid increase in IOP was noted after prone positioning, with continued increases as time elapsed. The neutral group exhibited statistically higher IOP compared with the 5° reverse Trendelenburg group after 60 minutes and the 10° group through 60 minutes of surgery. The trend continued through 120 minutes; however, because of a lack of power, we were unable to determine the statistical significance. There were no statistically significant differences between the 5° and 10° reverse Trendelenburg groups. CONCLUSIONS: Reverse Trendelenburg positioning elicits decreased IOP compared with prone positioning for surgery times less than 120 minutes. Ten degrees of reverse Trendelenburg attenuate the rise in IOP during prone spine surgery superiorly in comparison with 5°. No significant complications were associated with reverse Trendelenburg positioning. Published by Elsevier Inc.