Zaman Mirzadeh1, Tsinsue Chen1, Kristina M Chapple1, Margaret Lambert1, John P Karis2, Rohit Dhall3, Francisco A Ponce1. 1. Department of Neurosurgery, Barrow Neurological Institute, St. Joseph's Hospital and Medical Center, Phoenix, Arizona. 2. Department of Neuroradiology, Barrow Neurological Institute, St. Joseph's Hospital and Medical Center, Phoenix, Arizona. 3. Department of Neurology, University of Arkansas for Medical Sciences, Little Rock, Arkansas.
Abstract
BACKGROUND: Deep brain stimulation (DBS) is well-established, evidence-based therapy for Parkinson disease, essential tremor, and primary dystonia. Clinical outcome studies have recently shown that "asleep" DBS lead placement, performed using intraoperative imaging with stereotactic accuracy as the surgical endpoint, has motor outcomes comparable to traditional "awake" DBS using microelectrode recording (MER), but with shorter case times and improved speech fluency. OBJECTIVE: To identify procedural variables in DBS surgery associated with improved surgical efficiency and stereotactic accuracy. METHODS: Retrospective review of 323 cases with 546 leads placed (August 2011-October 2014). In 52% (n = 168) of cases, patients were asleep under general anesthesia without MER. Multivariate regression identified independent predictors of reduced surgery time and improved stereotactic accuracy. RESULTS: MER was an independent contributor to increased procedure time (+44 min; P = .03). Stereotactic accuracy was better in asleep patients. Accuracy was improved with frame-based stereotaxy at head of bed 0° vs frameless stereotaxy at head of bed 30°. Improved accuracy was also associated with shorter procedures (r = 0.17; P = .049). Vector errors were evenly distributed around the planned target for the globus pallidus internus, but directionally skewed for the subthalamic (medial-posterior) and ventral intermediate nuclei (medial-anterior). CONCLUSION: Distinct procedural variables in DBS surgery are associated with reduced case times and improved stereotactic accuracy.
BACKGROUND: Deep brain stimulation (DBS) is well-established, evidence-based therapy for Parkinson disease, essential tremor, and primary dystonia. Clinical outcome studies have recently shown that "asleep" DBS lead placement, performed using intraoperative imaging with stereotactic accuracy as the surgical endpoint, has motor outcomes comparable to traditional "awake" DBS using microelectrode recording (MER), but with shorter case times and improved speech fluency. OBJECTIVE: To identify procedural variables in DBS surgery associated with improved surgical efficiency and stereotactic accuracy. METHODS: Retrospective review of 323 cases with 546 leads placed (August 2011-October 2014). In 52% (n = 168) of cases, patients were asleep under general anesthesia without MER. Multivariate regression identified independent predictors of reduced surgery time and improved stereotactic accuracy. RESULTS: MER was an independent contributor to increased procedure time (+44 min; P = .03). Stereotactic accuracy was better in asleep patients. Accuracy was improved with frame-based stereotaxy at head of bed 0° vs frameless stereotaxy at head of bed 30°. Improved accuracy was also associated with shorter procedures (r = 0.17; P = .049). Vector errors were evenly distributed around the planned target for the globus pallidus internus, but directionally skewed for the subthalamic (medial-posterior) and ventral intermediate nuclei (medial-anterior). CONCLUSION: Distinct procedural variables in DBS surgery are associated with reduced case times and improved stereotactic accuracy.
Authors: Xiaobin Zheng; Lianghong Yu; Xinlong Wan; Huiqing Wang; Ting Yu; Qiu He; Zhangya Lin; Dezhi Kang Journal: Nan Fang Yi Ke Da Xue Xue Bao Date: 2019-12-30