髌面植入物覆盖式与嵌入式固定强度比较

Rosenstein Alexander D, Postak Paul D, Greenwald A Seth

Texas Tech Medical Center, Department of Orthopaedic Surgery, Lubbock, Texas 79430-9436, and Orthopaedic Research Laboratories, Lutheran Hospital, Cleveland, OH, United States.

Knee. 2007 Jun;14(3):194-7. doi: 10.1016/j.knee.2007.01.004. Epub 2007 Feb 20.

Patellar implant fixation continues to be one of the most troublesome areas in total knee arthroplasty (TKA). It has been reported that patellofemoral complications in TKA are responsible for almost half of all re-operations. The literature review revealed the rate of primary all-polyethylene patellar implant loosening ranging 1%-4.2% [Berend ME, Ritter MA, Keating EM, Faris PM, Crites BM. The failure of all-polyethylene patellar components in total knee replacement. Clin Orthop 2001;388:105-11, Chew JT, Stewart NJ, Hanssen AD, Luo ZP, Rand JA, An KN. Differences in patellar tracking and knee kinematics among three different total knee designs. Clin Orthop 1997;345:87-98, Barrack RL, Wolfe MW, Waldman DA, et al. Patellar resurfacing in total knee arthroplasty: a five to seven year follow-up of prospective, randomized, double-blind study. Proceedings of Sixty-Seventh Annual Meeting of the American Academy of Orthopaedic Surgeons 2000. p. 547]. The loosening rates for metal-backed or following patellar component revisions were considerably higher [Chew JT, Stewart NJ, Hanssen AD, Luo ZP, Rand JA, An KN. Differences in patellar tracking and knee kinematics among three different total knee designs. Clin Orthop 1997;345:87-98, Jordan LR, Sorrells RB, Jordan LC, Olivo JL. The long-term results of a metal-backed mobile bearing patella. Clin Orthop 2005;436:111-8, Berger RA, Lyon, JH, Jacobs JJ, Barden RM, Berkson EM, Sheinkop MB, et al. Problems with cementless total knee arthroplasty at 11 years followup. Clin Orthop 2001;392:196-207, Ritter MA, Pierce MJ, Zhou H, Meding JB, Faris PM, Keating EM. Patellar complications (total knee arthroplasty). Effect of lateral release and thickness. Clin Orthop 1999;367:149-57] Onlay and inset patellar components with variable fixation surface geometry are currently available for clinical use. The purpose of this study was to quantify the shear disassociation strength for both onlay and inset patellar fixation techniques. The variation in host material was minimized by the use of synthetic patellae, which has been previously validated in implant fixation studies. The testing revealed that inset patellar fixation resistance to shear disassociation was 25% higher than onlay patellae (p=0.0002).

髌骨植入物的固定仍然是全膝关节置换术（TKA）中最棘手的领域之一。据报道，TKA中的髌股并发症几乎占所有再次手术的一半。文献综述显示，初次使用的全聚乙烯髌骨植入物松动率在1%-4.2%之间[贝伦德ME，里特MA，基廷EM，法里斯PM，克里茨BM。全膝关节置换中全聚乙烯髌骨部件的失败。临床骨科2001；388：105-11，周JT，斯图尔特NJ，汉森AD，罗ZP，兰德JA，安KN。三种不同全膝关节设计的髌骨轨迹和膝关节运动学差异。临床骨科1997；345：87-98，巴拉克RL，沃尔夫MW，沃尔德曼DA等。全膝关节置换术中的髌骨表面置换：一项前瞻性、随机、双盲研究的5至7年随访。美国骨科医师学会第六十七届年会论文集2000。第547页]。金属背衬或髌骨部件翻修后的松动率要高得多[周JT，斯图尔特NJ，汉森AD，罗ZP，兰德JA,安KN。三种不同全膝关节设计的髌骨轨迹和膝关节运动学差异。临床骨科1997；345：87-98，乔丹LR，索雷尔斯RB，乔丹LC，奥利沃JL。金属背衬活动轴承髌骨的长期结果。临床骨科2005；436：111-8，伯杰RA，里昂JH，雅各布斯JJ，巴登RM，伯克森EM，申科普MB等。非骨水泥型全膝关节置换术11年随访的问题。临床骨科2001；392：196-207，里特MA，皮尔斯MJ，周H，梅丁JB，法里斯PM，基廷EM。髌骨并发症（全膝关节置换术）。外侧松解和厚度的影响。临床骨科1999；367：149-57]。目前，具有可变固定表面几何形状的覆盖式和嵌入式髌骨部件可供临床使用。本研究的目的是量化覆盖式和嵌入式髌骨固定技术的剪切解离强度。通过使用合成髌骨，宿主材料的差异被最小化，合成髌骨先前已在植入物固定研究中得到验证。测试显示，嵌入式髌骨固定对剪切解离的抵抗力比覆盖式髌骨高25%（p=0.0002）。