Chao Liu1, Jian Wang2. 1. Department of Orthopaedic Surgery, Affiliated Xinqiao Hospital, The Third Military Medical University, Chongqing, China. 2. Department of Orthopaedic Surgery, Affiliated Xinqiao Hospital, The Third Military Medical University, Chongqing, China. Electronic address: tonywjxq_vip@163.com.
Abstract
OBJECTIVE: To characterize the learning curve for a single surgeon during his initial phases of performing minimally invasive surgery oblique lumbar interbody fusion. METHODS: This was a prospective analysis of 49 consecutive patients who underwent a single-level minimally invasive surgery oblique lumbar interbody fusion performed by a single surgeon. Patients were divided into group A (first 24 patients) and group B (25 patients after initial 24 patients). The following data were compared between the 2 groups: surgical time, estimated blood loss, radiograph exposure time, clinical and radiographic results, and intraoperative and postoperative complications. The learning curve was assessed using a logarithmic curve-fit regression analysis. RESULTS: Average operative time was significantly longer in group A compared with group B. Compared with group B, group A had significantly more x-ray exposure time. Perioperative complications included thigh numbness and pain in 8 cases, psoas and quadriceps weakness in 3 cases, sympathetic nerve injury in 2 cases, and paralytic ileus in 1 case. All complications were transient and resolved within 3 months. The incidence of complications was 37.5% in group A and 20.0% in group B. Clinical and radiographic outcomes were basically identical in the 2 groups at last follow-up. CONCLUSIONS: Minimally invasive surgery oblique lumbar interbody fusion presents a learning curve to the practicing spine surgeon with regard to operative time, x-ray exposure time, and intraoperative and postoperative complications. Close attention to detail can minimize complications that may be associated with the learning curve.
OBJECTIVE: To characterize the learning curve for a single surgeon during his initial phases of performing minimally invasive surgery oblique lumbar interbody fusion. METHODS: This was a prospective analysis of 49 consecutive patients who underwent a single-level minimally invasive surgery oblique lumbar interbody fusion performed by a single surgeon. Patients were divided into group A (first 24 patients) and group B (25 patients after initial 24 patients). The following data were compared between the 2 groups: surgical time, estimated blood loss, radiograph exposure time, clinical and radiographic results, and intraoperative and postoperative complications. The learning curve was assessed using a logarithmic curve-fit regression analysis. RESULTS: Average operative time was significantly longer in group A compared with group B. Compared with group B, group A had significantly more x-ray exposure time. Perioperative complications included thigh numbness and pain in 8 cases, psoas and quadriceps weakness in 3 cases, sympathetic nerve injury in 2 cases, and paralytic ileus in 1 case. All complications were transient and resolved within 3 months. The incidence of complications was 37.5% in group A and 20.0% in group B. Clinical and radiographic outcomes were basically identical in the 2 groups at last follow-up. CONCLUSIONS: Minimally invasive surgery oblique lumbar interbody fusion presents a learning curve to the practicing spine surgeon with regard to operative time, x-ray exposure time, and intraoperative and postoperative complications. Close attention to detail can minimize complications that may be associated with the learning curve.