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Future Data Points to Implement in Adult Spinal Deformity Assessment for Artificial Intelligence Modeling Prediction: The Importance of the Biological Dimension

Sleiman Haddad, Javier Pizones, Riccardo Raganato, Michael Safaee, Justin K. Scheer, Ferrán Pellisé, Christopher P. Ames

2023The International Journal of Spine Surgery20 citationsDOIOpen Access PDF

Abstract

Adult spinal deformity (ASD) surgery is still associated with high surgical risks. Machine learning algorithms applied to multicenter databases have been created to predict outcomes and complications, optimize patient selection, and improve overall results. However, the multiple data points currently used to create these models allow for 70% of accuracy in prediction. We need to find new variables that can capture the spectrum of probability that is escaping from our control. These proposed variables are based on patients' biological dimensions, such as frailty, sarcopenia, muscle and bone (tissue) sampling, serological assessment of cellular senescence, and circulating biomarkers that can measure epigenetics, inflammaging, and -omics. Many of these variables are proven to be modifiable and could be improved with proper nutrition, toxin avoidance, endurance exercise, and even surgery. The purpose of this manuscript is to describe the different future data points that can be implemented in ASD assessment to improve modeling prediction, allow monitoring their response to prerehabilitation programs, and improve patient counseling.

Topics & Concepts

MedicineSarcopeniaMachine learningArtificial intelligenceDimension (graph theory)Computer scienceAnatomyPure mathematicsMathematicsScoliosis diagnosis and treatmentNutrition and Health in AgingFrailty in Older Adults
Future Data Points to Implement in Adult Spinal Deformity Assessment for Artificial Intelligence Modeling Prediction: The Importance of the Biological Dimension | Litcius