Drexel University, Philadelphia, PA 19104, USA.
Spine (Phila Pa 1976). 2009 Oct 15;34(22):2369-77. doi: 10.1097/BRS.0b013e3181b20230.
This study is an evaluation of wear and oxidation in retrieved total disc replacements (TDRs). Forty-eight CHARITE TDRs were retrieved from 41 patients after 7.8 years of average implantation. All implants were removed because of intractable back pain and/or facet degeneration. Three unimplanted implants served as controls.
Our aim was to determine whether gamma-sterilized polyethylene components implanted in the spine oxidize in vivo, and if so, whether polyethylene oxidation has clinical relevance for the long-term performance of TDRs.
The natural history of polyethylene oxidation following gamma sterilization and long-term implantation in the spine has not yet been investigated.
Oxidation and oxidation potential were measured at the rim and dome of 47 components using Fourier transform infrared spectroscopy. The wear patterns of each retrieved polyethylene core were analyzed at the rim and dome.
Oxidation was significantly higher at the rim, as compared with the dome of the cores. Hydroperoxide index was also significantly higher at the rim, as compared with the dome. Dome penetration rate was negatively correlated to implantation time (P < 0.0001) but not correlated to oxidation or hydroperoxide index (P > 0.05). Implants with evidence of chronic rim loading had higher rim oxidation.
The data support our hypothesis that, for the historical packaging methods employed by the manufacturer, polyethylene oxidation and oxidation potential were significantly higher at the rim as opposed to the dome. The mechanism is governed by access to oxygen in vivo and may be accelerated under certain combined modes of repeated rim loading. Our findings have clinical significance in cases of chronic impingement, when the rim has to support repeated loading for the lifetime of the implant.
本研究评估了从 41 名患者中取出的 48 个 CHARITE TDR 的磨损和氧化情况。所有植入物均因难治性腰痛和/或小关节退变而被取出。三个未植入的植入物作为对照。
我们的目的是确定植入脊柱的伽马消毒聚乙烯部件是否在体内氧化,如果是,聚乙烯氧化是否对 TDR 的长期性能具有临床意义。
伽马消毒和长期植入脊柱后聚乙烯氧化的自然史尚未得到研究。
使用傅里叶变换红外光谱法在 47 个部件的边缘和穹顶处测量氧化和氧化电势。分析每个取出的聚乙烯核心的磨损模式。
与核心的穹顶相比,边缘的氧化明显更高。与穹顶相比,过氧化物指数也明显更高。穹顶穿透率与植入时间呈负相关(P<0.0001),但与氧化或过氧化物指数无关(P>0.05)。有慢性边缘负荷证据的植入物边缘氧化更高。
数据支持我们的假设,即对于制造商使用的历史包装方法,与穹顶相比,聚乙烯的氧化和氧化电势在边缘处明显更高。该机制受体内氧气供应的控制,在某些重复边缘加载的组合模式下可能会加速。当边缘必须支撑植入物寿命内的重复加载时,我们的发现对慢性撞击的病例具有临床意义。
