Veruva Sai Y, Lanman Todd H, Isaza Jorge E, MacDonald Daniel W, Kurtz Steven M, Steinbeck Marla J
Implant Research Center, Drexel University, 3401 Market Street, Suite 345, Philadelphia, PA, 19104, USA.
Clin Orthop Relat Res. 2015 Mar;473(3):987-98. doi: 10.1007/s11999-014-4029-4.
Lumbar total disc replacement (L-TDR) is a procedure used to relieve back pain and maintain mobility. Contemporary metal-on-polyethylene (MoP) L-TDRs were developed to address wear performance concerns about historical designs, but wear debris generation and periprosthetic tissue reactions for these newer implants have not been determined.
QUESTIONS/PURPOSES: The purpose of this study was to determine (1) whether periprosthetic ultrahigh-molecular-weight polyethylene (UHMWPE) wear debris and biological responses were present in tissues from revised contemporary MoP L-TDRs that contain conventional cores fabricated from γ-inert-sterilized UHMWPE; (2) how fixed- versus mobile-bearing design affected UHMWPE wear particle number, shape, and size; and (3) how these wear particle characteristics compare with historical MoP L-TDRs that contain cores fabricated from γ-air-sterilized UHMWPE.
We evaluated periprosthetic tissues from 11 patients who received eight fixed-bearing ProDisc-L and four mobile-bearing CHARITÉ contemporary L-TDRs with a mean implantation time of 4.1 and 2.7 years, respectively. Histologic analysis of tissues was performed to assess biological responses and polarized light microscopy was used to quantify number and size/shape characteristics of UHMWPE wear particles from the fixed- and mobile-bearing devices. Comparisons were made to previously reported particle data for historical L-TDRs.
Five of seven (71%) fixed-bearing and one of four mobile-bearing L-TDR patient tissues contained at least 4 particles/mm(2) wear with associated macrophage infiltration. Tissues with wear debris were highly vascularized, whereas those without debris were more necrotic. Given the samples available, the tissue around mobile-bearing L-TDR was observed to contain 87% more, 11% rounder, and 11% less-elongated wear debris compared with tissues around fixed-bearing devices; however, there were no significant differences. Compared with historical L-TDRs, UHMWPE particle number and circularity for contemporary L-TDRs were 99% less (p = 0.003) and 50% rounder (p = 0.003).
In this preliminary study, short-term results suggest there was no significant influence of fixed- or mobile-bearing designs on wear particle characteristics of contemporary L-TDRs, but conventional UHMWPE has notably improved the wear resistance of these devices compared with historical UHMWPE.
腰椎全椎间盘置换术(L-TDR)是一种用于缓解背痛并保持活动能力的手术。当代金属对聚乙烯(MoP)L-TDR的研发是为了解决对以往设计的磨损性能担忧,但这些新型植入物的磨损碎屑产生情况及假体周围组织反应尚未确定。
问题/目的:本研究的目的是确定:(1)在翻修的当代MoP L-TDR组织中是否存在假体周围超高分子量聚乙烯(UHMWPE)磨损碎屑及生物学反应,这些L-TDR包含由γ射线惰性灭菌UHMWPE制成的传统芯体;(2)固定轴承与活动轴承设计如何影响UHMWPE磨损颗粒的数量、形状和大小;(3)这些磨损颗粒特征与包含由γ射线空气灭菌UHMWPE制成芯体的以往MoP L-TDR相比如何。
我们评估了11例患者的假体周围组织,这些患者分别接受了8个固定轴承的ProDisc-L和4个活动轴承的CHARITÉ当代L-TDR,平均植入时间分别为4.1年和2.7年。对组织进行组织学分析以评估生物学反应,并使用偏光显微镜对固定轴承和活动轴承装置的UHMWPE磨损颗粒的数量及大小/形状特征进行量化。与先前报道的以往L-TDR的颗粒数据进行比较。
7个固定轴承L-TDR患者组织中有5个(71%)和4个活动轴承L-TDR患者组织中有1个含有至少4个颗粒/mm²磨损且伴有巨噬细胞浸润。有磨损碎屑的组织血管化程度高,而无碎屑的组织坏死程度更高。鉴于现有样本,观察到活动轴承L-TDR周围组织中的磨损碎屑比固定轴承装置周围组织多87%、圆度高11%且伸长率低11%;然而,差异无统计学意义。与以往L-TDR相比,当代L-TDR的UHMWPE颗粒数量和圆度分别减少了99%(p = 0.003)和提高了50%(p = 0.003)。
在这项初步研究中,短期结果表明固定或活动轴承设计对当代L-TDR的磨损颗粒特征无显著影响,但与以往UHMWPE相比,传统UHMWPE显著提高了这些装置的耐磨性。