Panpan Hu1, Miao Yu1, Xiaoguang Liu2, Zhongjun Liu1, Liang Jiang1. 1. Department of Orthopaedics, Peking University Third Hospital, No. 49 Huayuanbei Rd, Haidian District, Beijing 100191, China. 2. Department of Orthopaedics, Peking University Third Hospital, No. 49 Huayuanbei Rd, Haidian District, Beijing 100191, China. Electronic address: puth_lxg@163.com.
Abstract
BACKGROUND CONTEXT: Multilevel ossification of posterior longitudinal ligament (OPLL) at thoracic spine can be simultaneously symptomatic. Different approaches for thoracic decompression have been reported, among which circumferential decompression (CD) seems promising but is invasive, so methods to find approaches indicating levels for CD are also important. PURPOSE: This study aimed to introduce a CD-based surgical strategy for multilevel thoracic OPLL and describe its clinical outcomes. STUDY DESIGN: A retrospective clinical study was used. PATIENT SAMPLE: A cohort of 26 patients were recruited, whose average age was 51.2±9.1 years old. OUTCOME MEASURES: A modified Japanese Orthopedic Association (JOA) scale for thoracic spine was used to evaluate neurologic status, and final recovery rates were assessed according to Hirabayashi system. METHODS: Posterior decompression was initially performed for all compressive levels, whereas CD levels were decided through combined modalities, of which intraoperative ultrasound was an important determinant. All patients were regularly followed for more than 2 years. RESULTS: The average operative duration and blood loss were 279.3±54.8 minutes and 2257.7±1443.9 mL, respectively. There were 17 patients (65.4%) who achieved instant improvement and 9 (34.6%) neurologically deteriorated. Cerebrospinal fluid leakage occurred in 10 patients (38.5%), but its occurrence did not affect the final neurologic recovery. Other complications included urinary infection, incision infection and disunion, lung infection, and subcutaneous fluid collection. Late events included death from cerebrovascular accident, pseudomeningocele, unremitted intercostal pain and continuing deterioration. The final JOA score and recovery rate were correlated with OPLL levels and preoperative JOA scores (p<.05). Eventually, the average JOA score was significantly elevated from 4.5±1.8 to 8.3±2.3 (p<.05), with the recovery rate of 11 patients rated as excellent, 7 as good, 6 as fair, and 2 as unchanged or deteriorated. The average recovery rate was 60.4%. CONCLUSIONS: This CD-based surgical strategy was effective for multilevel thoracic OPLL and had fair late outcomes, but its postoperative courses were quite eventful. Intraoperative ultrasound was a reliable modality to determine CD levels.
BACKGROUND CONTEXT: Multilevel ossification of posterior longitudinal ligament (OPLL) at thoracic spine can be simultaneously symptomatic. Different approaches for thoracic decompression have been reported, among which circumferential decompression (CD) seems promising but is invasive, so methods to find approaches indicating levels for CD are also important. PURPOSE: This study aimed to introduce a CD-based surgical strategy for multilevel thoracic OPLL and describe its clinical outcomes. STUDY DESIGN: A retrospective clinical study was used. PATIENT SAMPLE: A cohort of 26 patients were recruited, whose average age was 51.2±9.1 years old. OUTCOME MEASURES: A modified Japanese Orthopedic Association (JOA) scale for thoracic spine was used to evaluate neurologic status, and final recovery rates were assessed according to Hirabayashi system. METHODS: Posterior decompression was initially performed for all compressive levels, whereas CD levels were decided through combined modalities, of which intraoperative ultrasound was an important determinant. All patients were regularly followed for more than 2 years. RESULTS: The average operative duration and blood loss were 279.3±54.8 minutes and 2257.7±1443.9 mL, respectively. There were 17 patients (65.4%) who achieved instant improvement and 9 (34.6%) neurologically deteriorated. Cerebrospinal fluid leakage occurred in 10 patients (38.5%), but its occurrence did not affect the final neurologic recovery. Other complications included urinary infection, incision infection and disunion, lung infection, and subcutaneous fluid collection. Late events included death from cerebrovascular accident, pseudomeningocele, unremitted intercostal pain and continuing deterioration. The final JOA score and recovery rate were correlated with OPLL levels and preoperative JOA scores (p<.05). Eventually, the average JOA score was significantly elevated from 4.5±1.8 to 8.3±2.3 (p<.05), with the recovery rate of 11 patients rated as excellent, 7 as good, 6 as fair, and 2 as unchanged or deteriorated. The average recovery rate was 60.4%. CONCLUSIONS: This CD-based surgical strategy was effective for multilevel thoracic OPLL and had fair late outcomes, but its postoperative courses were quite eventful. Intraoperative ultrasound was a reliable modality to determine CD levels.