伽马辐射灭菌会降低同种异体骨的高周疲劳寿命。
Gamma Radiation Sterilization Reduces the High-cycle Fatigue Life of Allograft Bone.
作者信息
Islam Anowarul, Chapin Katherine, Moore Emily, Ford Joel, Rimnac Clare, Akkus Ozan
机构信息
Department of Mechanical and Aerospace Engineering, Case Western Reserve University, 10900 Euclid Ave, Cleveland, OH, 44106, USA.
Department of Biomedical Engineering, Case Western Reserve University, Cleveland, OH, USA.
出版信息
Clin Orthop Relat Res. 2016 Mar;474(3):827-35. doi: 10.1007/s11999-015-4589-y. Epub 2015 Oct 13.
BACKGROUND
Sterilization by gamma radiation impairs the mechanical properties of bone allografts. Previous work related to radiation-induced embrittlement of bone tissue has been limited mostly to monotonic testing which does not necessarily predict the high-cycle fatigue life of allografts in vivo.
QUESTIONS/PURPOSES: We designed a custom rotating-bending fatigue device to answer the following questions: (1) Does gamma radiation sterilization affect the high-cycle fatigue behavior of cortical bone; and (2) how does the fatigue life change with cyclic stress level?
METHODS
The high-cycle fatigue behavior of human cortical bone specimens was examined at stress levels related to physiologic levels using a custom-designed rotating-bending fatigue device. Test specimens were distributed among two treatment groups (n = 6/group); control and irradiated. Samples were tested until failure at stress levels of 25, 35, and 45 MPa.
RESULTS
At 25 MPa, 83% of control samples survived 30 million cycles (run-out) whereas 83% of irradiated samples survived only 0.5 million cycles. At 35 MPa, irradiated samples showed an approximately 19-fold reduction in fatigue life compared with control samples (12.2 × 10(6) ± 12.3 × 10(6) versus 6.38 × 10(5) ± 6.81 × 10(5); p = 0.046), and in the case of 45 MPa, this reduction was approximately 17.5-fold (7.31 × 10(5) ± 6.39 × 10(5) versus 4.17 × 10(4) ± 1.91 × 10(4); p = 0.025). Equations to estimate high-cycle fatigue life of irradiated and control cortical bone allograft at a certain stress level were derived.
CONCLUSIONS
Gamma radiation sterilization severely impairs the high cycle fatigue life of structural allograft bone tissues, more so than the decline that has been reported for monotonic mechanical properties. Therefore, clinicians need to be conservative in the expectation of the fatigue life of structural allograft bone tissues. Methods to preserve the fatigue strength of nonirradiated allograft bone tissue are needed.
CLINICAL RELEVANCE
As opposed to what monotonic tests might suggest, the cyclic fatigue life of radiation-sterilized structural allografts is likely severely compromised relative to the nonirradiated condition and therefore should be taken into consideration. Methods to reduce the effect of irradiation or to recover structural allograft bone tissue fatigue strength are important to pursue.
背景
γ射线辐射灭菌会损害同种异体骨的力学性能。以往关于辐射诱导骨组织脆化的研究大多局限于单调测试,而这种测试不一定能预测同种异体骨在体内的高周疲劳寿命。
问题/目的:我们设计了一种定制的旋转弯曲疲劳装置,以回答以下问题:(1)γ射线辐射灭菌是否会影响皮质骨的高周疲劳行为;(2)疲劳寿命如何随循环应力水平变化?
方法
使用定制设计的旋转弯曲疲劳装置,在与生理水平相关的应力水平下检测人类皮质骨标本的高周疲劳行为。测试标本分为两个治疗组(每组n = 6);对照组和辐照组。样品在25、35和45MPa的应力水平下进行测试,直至失效。
结果
在25MPa时,83%的对照样品存活3000万次循环(未失效),而83%的辐照样品仅存活50万次循环。在35MPa时,辐照样品的疲劳寿命与对照样品相比降低了约19倍(12.2×10⁶±12.3×10⁶对6.38×10⁵±6.81×10⁵;p = 0.046),在45MPa时,这种降低约为17.5倍(7.31×10⁵±6.39×10⁵对4.17×10⁴±1.91×10⁴;p = 0.025)。推导了在一定应力水平下估算辐照和对照皮质骨同种异体骨高周疲劳寿命的公式。
结论
γ射线辐射灭菌严重损害了结构性同种异体骨组织的高周疲劳寿命,比单调力学性能下降的情况更严重。因此,临床医生在预期结构性同种异体骨组织的疲劳寿命时需要保守。需要采取方法来保留未辐照同种异体骨组织的疲劳强度。
临床意义
与单调测试可能表明的情况相反,相对于未辐照状态,辐射灭菌的结构性同种异体骨的循环疲劳寿命可能会严重受损,因此应予以考虑。减少辐照影响或恢复结构性同种异体骨组织疲劳强度的方法值得探索。
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