In The Journal of arthroplasty ; h5-index 65.0
BACKGROUND : The Coronal Plane Alignment of the Knee (CPAK) classification allows for knee phenotyping which can be used in preoperative planning prior to total knee arthroplasty. We utilized deep learning (DL) to automate knee phenotyping and analyzed CPAK distributions in a large patient cohort.
METHODS : Patients who had full-limb radiographs from a large arthritis database were retrospectively included. A DL algorithm was developed to automate CPAK knee alignment parameters including the lateral distal femoral, medial proximal tibia, hip-knee-ankle, and joint line obliquity angles. The algorithm was validated against a fellowship-trained arthroplasty surgeon. After applying the algorithm in a large patient cohort (n=1,946 knees), the distribution of CPAK was compared across patient sex and baseline Kellgren-Lawrence (KL) scores.
RESULTS : There was no significant difference in the CPAK angles (n=140, p=0.66-0.98, inter-class correlation coefficient= 0.89-0.91) or phenotype classifications made by the algorithm and surgeon (p=0.96). The deep learning algorithm measured the entire cohort (n=1,946 knees, mean age 61 years (range, 46 to 80 years), 51% women) in <5 hours. Women had more valgus CPAK phenotypes than men (p<0.05). Patients who had higher KL grades at baseline (2 to 4) were more varus using the CPAK classification compared to lower KL grades (0 to 1) (p<0.05).
DISCUSSION : We applied an accurate, automated DL algorithm on a large patient cohort to determine knee phenotypes, helping to validate and strengthen the CPAK classification system. Analyses revealed that sex-specific and major bone loss adjustments may need to be accounted for when utilizing this system.
Steele John R, Jang Seong Jun, Brilliant Zachary R, Mayman David J, Sculco Peter K, Jerabek Seth A, Vigdorchik Jonathan M
2023-Feb-27
Arithmetic HKA, Arithmetic JLO, Artificial intelligence, Deep Learning, Knee alignment, Knee phenotyping