%0 Journal Article
%T Accuracy of Implant Placement Utilizing Customized Patient Instrumentation in Total Knee Arthroplasty
%A William D. Bugbee
%A Hideki Mizu-uchi
%A Shantanu Patil
%A Darryl D'Lima
%J Advances in Orthopedics
%D 2013
%I Hindawi Publishing Corporation
%R 10.1155/2013/891210
%X Customized patient instrumentation (CPI) combines preoperative planning with customized cutting jigs to position and align implants during total knee arthroplasty (TKA). We compared postoperative implant alignment of patients undergoing surgery with CPI to traditional TKA instrumentation for accuracy of implant placement. Twenty-five consecutive TKAs using CPI were analyzed. Preoperative CT scans of the lower extremities were segmented using a computer program. Limb alignment and mechanical axis were computed. Virtual implantation of computer-aided design models was done. Postoperative coronal and sagittal view radiographs were obtained. Using 3D image-matching software, relative positions of femoral and tibial implants were determined. Twenty-five TKAs implanted using traditional instrumentation were also analyzed. For CPI, difference in alignment from the preoperative plan was calculated. In the CPI group, the mean absolute difference between the planned and actual femoral placements was 0.67¡ã in the coronal plane and 1.2¡ã in the sagittal plane. For tibial alignment, the mean absolute difference was 0.9¡ã in the coronal plane and 1.3¡ã in the sagittal plane. For traditional instrumentation, difference from ideal placement for the femur was 1.5¡ã in the coronal plane and 2.3¡ã in the sagittal plane. For the tibia, the difference was 1.8¡ã in the coronal plane. CPI achieved accurate implant positioning and was superior to traditional TKA instrumentation. 1. Introduction Accurate alignment and positioning of implants in total knee arthroplasty (TKA) is an important goal of the procedure. Numerous studies have demonstrated a high frequency of implant malalignment in TKA, regardless of the surgical techniques utilized [1¨C7]. The innovation cycle of TKA has mirrored this fundamental concept. Initially, free-hand surgical cuts were performed prior to the placement of implant components. Subsequently, mechanical alignment guides were devised based on bony or external landmarks, and predetermined angular or measured resections were performed. More recently, image-guided or imageless computer navigation systems have been developed to guide the surgical procedure and ultimate component alignment. The most recent innovation in TKA is customized patient instrumentation (CPI), which has been introduced as a next generation technology in an effort to further improve the accuracy and precision of surgical technique, implant placement, and alignment. The concept of CPI revolves around the use of preoperatively obtained imaging studies such as plain radiographs, magnetic
%U http://www.hindawi.com/journals/aorth/2013/891210/