The Comprehensive Anatomical Spinal Osteotomy Classification

Overview

Journal Neurosurgery

Specialty Neurosurgery

Date 2013 Dec 21

PMID 24356197

Citations 137

Authors

Frank Schwab

Benjamin Blondel

Edward Chay

Jason Demakakos

Lawrence Lenke

Patrick Tropiano

Christopher Ames

Justin S Smith

Christopher I Shaffrey

Steven Glassman

Jean-Pierre Farcy

Virginie Lafage

Affiliations

Soon will be listed here.

Abstract

Background: Global sagittal malalignment is significantly correlated with health-related quality-of-life scores in the setting of spinal deformity. In order to address rigid deformity patterns, the use of spinal osteotomies has seen a substantial increase. Unfortunately, variations of established techniques and hybrid combinations of osteotomies have made comparisons of outcomes difficult.

Objective: To propose a classification system of anatomically-based spinal osteotomies and provide a common language among spine specialists.

Methods: The proposed classification system is based on 6 anatomic grades of resection (1 through 6) corresponding to the extent of bone resection and increasing degree of destabilizing potential. In addition, a surgical approach modifier is added (posterior approach or combined anterior and posterior approaches). Reliability of the classification system was evaluated by an analysis of 16 clinical cases, rated 2 times by 8 different readers, and calculation of Fleiss kappa coefficients.

Results: Intraobserver reliability was classified as "almost perfect"; Fleiss kappa coefficient averaged 0.96 (range, 0.92-1.0) for resection type and 0.90 (0.71-1.0) for the approach modifier. Results from the interobserver reliability for the classification were 0.96 for resection type and 0.88 for the approach modifier.

Conclusion: This proposed anatomically based classification system provides a consistent description of the various osteotomies performed in spinal deformity correction surgery. The reliability study confirmed that the classification is simple and consistent. Further development of its use will provide a common frame for osteotomy assessment and permit comparative analysis of different treatments.

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