Surgically Relevant Knee Phenotypes: The Modified Coronal Plane Alignment of the Knee (mCPAK) System - A Deep Learning-based Classification.
Academic Article
Overview
abstract
BACKGROUND: The coronal plane alignment of the knee (CPAK) classification proposes nine knee phenotypes based on constitutional limb alignment and joint line obliquity (JLO). However, there is considerable confusion and variability in defining types, and its impact on surgical decision-making is unclear. A simple modified CPAK system is proposed to improve accuracy and facilitate decision-making. Herein, we applied a deep learning (DL) model to automate knee phenotyping and analyzed modified CPAK distributions in a large cohort. METHODS: There were 972 patients (1,944 healthy and arthritic knees) who had full-limb radiographs from a large publicly available cohort that were included. A previously validated DL model was used to measure the lateral distal femoral angle (LDFA) and the medial proximal tibial angle (MPTA). Knee phenotypes were determined using a two-level classification framework designed to capture both overall limb alignment, as measured by arithmetic hip-knee-ankle (aHKA), as well as femoral and tibial joint-line angles, as measured by LDFA and MPTA. RESULTS: Combining these three parameters resulted in seven distinct phenotypic classifications, with five categories accounting for 99.2% of all knees. The most frequent phenotypes were varus knees with valgus femur/varus tibia (26.9%), followed by neutral knees (25.6%), and valgus knees with valgus femur/varus tibia (24.2%). Less common were valgus knees with valgus femur/valgus tibia (12.2%) and varus femur/varus tibia in varus knees (10.3%). The remaining two configurations were rare. Varus phenotypes were predominantly tibial-driven (99.2%), while valgus phenotypes were femoral-driven (98.9%). Among neutral knees, 95% demonstrated a valgus femur with varus tibia configuration, while perfectly neutral combinations accounted for fewer than 2% of the total cohort. CONCLUSION: By relying on overall lower-limb alignment as well as femoral and tibial deformity, this modified system provides an objective, practical, and accurate evaluation of knee alignment, offering a clear and surgically relevant evaluation of coronal knee alignment.
