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- Christopher P Ames, Justin S Smith, Ferran Pellisé, Michael Kelly, Ahmet Alanay, Emre Acaroğlu, Pérez-Grueso Francisco Javier Sánchez FJS Spine Surgery Unit, Hospital Universitario La Paz, Madrid, Spain., Frank Kleinstück, Ibrahim Obeid, Alba Vila-Casademunt, Christopher I Shaffrey, Douglas Burton, Virginie Lafage, Frank Schwab, Shay Bess, Miquel Serra-Burriel, and European Spine Study Group, International Spine Study Group.
- Department of Neurosurgery, University of California San Francisco, San Francisco, California.
- Spine. 2019 Jul 1; 44 (13): 915-926.
Study DesignRetrospective review of prospectively-collected, multicenter adult spinal deformity (ASD) databases.ObjectiveTo apply artificial intelligence (AI)-based hierarchical clustering as a step toward a classification scheme that optimizes overall quality, value, and safety for ASD surgery.Summary Of Background DataPrior ASD classifications have focused on radiographic parameters associated with patient reported outcomes. Recent work suggests there are many other impactful preoperative data points. However, the ability to segregate patient patterns manually based on hundreds of data points is beyond practical application for surgeons. Unsupervised machine-based clustering of patient types alongside surgical options may simplify analysis of ASD patient types, procedures, and outcomes.MethodsTwo prospective cohorts were queried for surgical ASD patients with baseline, 1-year, and 2-year SRS-22/Oswestry Disability Index/SF-36v2 data. Two dendrograms were fitted, one with surgical features and one with patient characteristics. Both were built with Ward distances and optimized with the gap method. For each possible n patient cluster by m surgery, normalized 2-year improvement and major complication rates were computed.ResultsFive hundred-seventy patients were included. Three optimal patient types were identified: young with coronal plane deformity (YC, n = 195), older with prior spine surgeries (ORev, n = 157), and older without prior spine surgeries (OPrim, n = 218). Osteotomy type, instrumentation and interbody fusion were combined to define four surgical clusters. The intersection of patient-based and surgery-based clusters yielded 12 subgroups, with major complication rates ranging from 0% to 51.8% and 2-year normalized improvement ranging from -0.1% for SF36v2 MCS in cluster [1,3] to 100.2% for SRS self-image score in cluster [2,1].ConclusionUnsupervised hierarchical clustering can identify data patterns that may augment preoperative decision-making through construction of a 2-year risk-benefit grid. In addition to creating a novel AI-based ASD classification, pattern identification may facilitate treatment optimization by educating surgeons on which treatment patterns yield optimal improvement with lowest risk.Level Of Evidence4.
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