Computer assisted surgery (CAS) was used to improve the positioning of implants during total knee arthroplasty (TKA). Most studieshave reported that computer assisted navigation reduced the outliers of alignment and component malpositioning. However,additional sophisticated studies are necessary to determine if the improvement of alignment will improve long-term clinical resultsand increase the survival rate of the implant. Knowledge of CAS-TKA technology and understanding the advantages and limitationsof navigation are crucial to the successful application of the CAS technique in TKA. In this article, we review the componentsof navigation, classifi cation of the system, surgical method, potential error, clinical results, advantages, and disadvantages.

1 배대경, "슬관절의 내반 변형에서 네비게이션 장치를 이용한 슬관절 전치환술과 고식적 슬관절 전치환술 간의 방사선학적 비교" 대한정형외과학회 42 (42): 227-235, 2007

2 배대경, "슬관절 전치환술에서 자동 항법 장치와 고식적인 수술법에 따른 삽입물의 방사선 계측치에 대한 비교 분석" 대한정형외과학회 40 (40): 398-402, 2005

3 배대경, "슬관절 전치환술 시 CAOS를 이용한 측정과 수술 후 방사선학적 측정의 비교: CAOS의 정확도" 대한정형외과학회 40 (40): 168-173, 2005

4 배대경, "슬관절 재치환술에서 네비게이션의 유용성" 대한정형외과학회 41 (41): 974-980, 2006

5 Hart R, "Total knee arthroplasty implanted with and without kinematic navigation" 27 (27): 366-369, 2003

6 Siston RA, "The variability of femoral rotational alignment in total knee arthroplasty" 87 (87): 2276-2280, 2005

7 Friederich N, "The use of computer-assisted orthopedic surgery for total knee replacement in daily practice : a survey among ESSKA/SGO-SSO members" 16 (16): 536-543, 2008

8 Siston RA, "The high variability of tibial rotational alignment in total knee arthroplasty" 452 : 65-69, 2006

9 Siston RA, "Surgical navigation for total knee arthroplasty : a perspective" 40 (40): 728-735, 2007

10 Kim YH, "Prevalence of fat embolism after total knee arthroplasty performed with or without computer navigation" 90 (90): 123-128, 2008

11 Ritter MA, "Postoperative alignment of total knee replacement: its eff ect on survival" 299 : 153-156, 1994

12 Stockl B, "Navigation improves accuracy of rotational alignment in total knee arthroplasty" 426 : 180-186, 2004

13 Bauwens K, "Navigated total knee replacement : a meta-analysis" 89 (89): 261-269, 2007

14 Ishida K, "Mid-term outcomes of computer-assisted total knee arthroplasty" 19 (19): 1107-1112, 2011

15 Mason JB, "Metaanalysis of alignment outcomes in computer-assisted total knee arthroplasty surgery" 22 (22): 1097-1106, 2007

16 Jenny JY, "Low reproducibility of the intra-operative measurement of the transepicondylar axis during total knee replacement" 75 (75): 74-77, 2004

17 Decking R, "Leg axis aft er computer-navigated total knee arthroplasty : a prospective randomized trial comparing computer-navigated and manual implantation" 20 (20): 282-288, 2005

18 Yau WP, "Intraobserver errors in obtaining visually selected anatomic landmarks during registration process in nonimage-based navigationassisted total knee arthroplasty : a cadaveric experiment" 20 (20): 591-601, 2005

19 Longstaff LM, "Good alignment after total knee arthroplasty leads to faster rehabilitation and better function" 24 (24): 570-578, 2009

20 Graydon AJ, "Evaluation of accuracy of an electromagnetic computer-assisted navigation system in total knee arthroplasty" 33 (33): 975-979, 2009

21 Mihalko WM, "Eff ect of one-and two-pin reference anchoring systems on marker stability during total knee arthroplasty computer navigation" 11 (11): 93-98, 2006

22 Chauhan SK, "Computerassisted knee arthroplasty versus a conventional jig-based technique : a randomised, prospective trial" 86 (86): 372-377, 2004

23 Merloz P, "Computer-assisted surgery : automated screw placement in the vertebral pedicle" 123 (123): 482-490, 1998

24 Haaker RG, "Computer-assisted navigation increases precision of component placement in total knee arthroplasty" 433 : 152-159, 2005

25 Stulberg SD, "Computer-assisted navigation in total knee replacement: results of an initial experience in thirty-five patients" 84 (84): 90-98, 2002

26 Spencer JM, "Computer navigation versus conventional total knee replacement : no diff erence in functional results at two years" 89 (89): 477-480, 2007

27 Molfetta L, "Computer navigation versus conventional implantation for varus knee total arthroplasty : a casecontrol study at 5 years follow-up" 15 (15): 75-79, 2008

28 Stulberg SD, "Computer navigation as a teaching instrument in knee reconstruction surgery" 20 (20): 165-172, 2007

29 Anderson KC, "Computer assisted navigation in total knee arthroplasty: comparison with conventional methods" 20 (20): 132-138, 2005

30 Khadem R, "Comparative tracking error analysis of fi ve diff erent optical tracking systems" 5 (5): 98-107, 2000

31 Kalairajah Y, "Blood loss after total knee replacement : effects of computer-assisted surgery" 87 (87): 1480-1482, 2005

32 Bathis H, "Alignment in total knee arthroplasty : a comparison of computer-assisted surgery with the conventional technique" 86 (86): 682-687, 2004

33 Catani F, "Alignment deviation between bone resection and final implant positioning in computer-navigated total knee arthroplasty" 90 (90): 765-771, 2008

34 Pitto RP, "Accuracy of a computer-assisted navigation system for total knee replacement" 88 (88): 601-605, 2006

35 Krackow KA, "A new technique for determining proper mechanical axis alignment during total knee arthroplasty : progress toward computer-assisted TKA" 22 (22): 698-702, 1999