STUDY DESIGN: The classification system was derived through a literature review and expert opinion of experienced spine surgeons. In addition, a multicenter reliability and validity study of the system was conducted on a collection of trauma cases. OBJECTIVES: To define a novel classification system for subaxial cervical spine trauma that conveys information about injury pattern, severity, treatment considerations, and prognosis. To evaluate reliability and validity of this system. SUMMARY OF BACKGROUND DATA: Classification of subaxial cervical spine injuries remains largely descriptive, lacking standardization and prognostic information. METHODS: Clinical and radiographic variables encountered in subaxial cervical trauma were identified by a working section of the Spine Trauma Study Group. Significant limitations of existing systems were defined and addressed within the new system. This system, as well as the Harris and Ferguson & Allen systems, was applied by 20 spine surgeons to 11 cervical trauma cases. Six weeks later, the cases were randomly reordered and again scored. Interrater reliability, intrarater reliability, and validity were assessed. RESULTS: Each of 3 main categories (injury morphology, disco-ligamentous complex, and neurologic status) identified as integrally important to injury classification was assigned a weighted score; the injury severity score was obtained by summing the scores from each category. Treatment options were assigned based on threshold values of the severity score. Interrater agreement as assessed by intraclass correlation coefficient of the DLC, morphology, and neurologic status scores was 0.49, 0.57, and 0.87, respectively. Intrarater agreement as assessed by intraclass correlation coefficient of the DLC, morphology, and neurologic status scores was 0.66, 0.75, and 0.90, respectively. Raters agreed with treatment recommendations of the algorithm in 93.3% of cases, suggesting high construct validity. The reliability compared favorably to the Harris and Ferguson & Allen systems. CONCLUSION: The Sub-axial Injury Classification and Severity Scale provides a comprehensive classification system for subaxial cervical trauma. Early validity and reliability data are encouraging.
STUDY DESIGN: The classification system was derived through a literature review and expert opinion of experienced spine surgeons. In addition, a multicenter reliability and validity study of the system was conducted on a collection of trauma cases. OBJECTIVES: To define a novel classification system for subaxial cervical spine trauma that conveys information about injury pattern, severity, treatment considerations, and prognosis. To evaluate reliability and validity of this system. SUMMARY OF BACKGROUND DATA: Classification of subaxial cervical spine injuries remains largely descriptive, lacking standardization and prognostic information. METHODS: Clinical and radiographic variables encountered in subaxial cervical trauma were identified by a working section of the Spine Trauma Study Group. Significant limitations of existing systems were defined and addressed within the new system. This system, as well as the Harris and Ferguson & Allen systems, was applied by 20 spine surgeons to 11 cervical trauma cases. Six weeks later, the cases were randomly reordered and again scored. Interrater reliability, intrarater reliability, and validity were assessed. RESULTS: Each of 3 main categories (injury morphology, disco-ligamentous complex, and neurologic status) identified as integrally important to injury classification was assigned a weighted score; the injury severity score was obtained by summing the scores from each category. Treatment options were assigned based on threshold values of the severity score. Interrater agreement as assessed by intraclass correlation coefficient of the DLC, morphology, and neurologic status scores was 0.49, 0.57, and 0.87, respectively. Intrarater agreement as assessed by intraclass correlation coefficient of the DLC, morphology, and neurologic status scores was 0.66, 0.75, and 0.90, respectively. Raters agreed with treatment recommendations of the algorithm in 93.3% of cases, suggesting high construct validity. The reliability compared favorably to the Harris and Ferguson & Allen systems. CONCLUSION: The Sub-axial Injury Classification and Severity Scale provides a comprehensive classification system for subaxial cervical trauma. Early validity and reliability data are encouraging.
Authors: Alexander R Vaccaro; John D Koerner; Kris E Radcliff; F Cumhur Oner; Maximilian Reinhold; Klaus J Schnake; Frank Kandziora; Michael G Fehlings; Marcel F Dvorak; Bizhan Aarabi; Shanmuganathan Rajasekaran; Gregory D Schroeder; Christopher K Kepler; Luiz R Vialle Journal: Eur Spine J Date: 2015-02-26 Impact factor: 3.134
Authors: Andrei F Joaquim; Enrico Ghizoni; Helder Tedeschi; Brandon Lawrence; Darrel S Brodke; Alexander R Vaccaro; Alpesh A Patel Journal: J Spinal Cord Med Date: 2013-11-08 Impact factor: 1.985
Authors: Andrei F Joaquim; Enrico Ghizoni; Helder Tedeschi; Halisson Y F da Cruz; Alpesh A Patel Journal: J Spinal Cord Med Date: 2013-11-26 Impact factor: 1.985