Sul Young-Taeg, Johansson Carina, Albrektsson Tomas
Department of Biomaterials/Handicap Research, Institute for Surgical Sciences, Göteborg University, Göteborg, Sweden.
Int J Prosthodont. 2006 Jul-Aug;19(4):319-28.
This study compared the speed and strength of osseointegration and osteoconductivity between an oxidized experimental magnesium (Mg) implant, an oxidized commercially available TiUnite implant, and a dual acid-etched surface Osseotite implant. The aim was to investigate which surface properties enhance bone response to implants, and thereby to test a biochemical bonding theory.
A total of 60 screw implants (20 of each design) were inserted through 1 cortex into the tibiae of 10 rabbits. Surface chemistry, oxide thickness, morphology, crystal structure, and surface roughness were evaluated. After healing times of 3 and 6 weeks, all bone implants were unscrewed with removal torque (RTQ) devices, and the bone specimens were subjected to histomorphometry.
RTQ values for Mg, TiUnite, and Osseotite implants were 27.1, 21.3, and 15.4 Ncm, with new bone formation values of 29%, 18%, and 15%, respectively, at 3 weeks. At 6 weeks the RTQ values were 37.5, 36.4, and 21.5 Ncm, with new bone formation values of 39%, 31%, and 26%, respectively.
Mg implants demonstrated significantly greater RTQ values (P = .008 and P = .0001) and more new bone formation (P = .031 and P = .030) than Osseotite at 3 and 6 weeks, respectively. Mg implants also showed higher RTQ values at 3 weeks and new bone formation at 6 weeks than TiUnite, but neither were significant (P > .05). TiUnite showed significantly higher RTQ values than Osseotite at 6 weeks (P = .001), but was not significant at 3 weeks (P > .05). Osseointegration rate (deltaRTQ/deltaweeks) was significantly faster for Mg (P = .011) and TiUnite (P = .001) implants between 3 and 6 weeks of healing time, but was not significant for Osseotite.
The results indicate that surface chemistry facilitated more rapid and stronger osseointegration of the Mg implants despite their minimal roughness compared to the moderately roughened TiUnite. This suggests potential advantages of Mg implants for reducing high implant failure rates in the early postimplantation stage and in compromised bone, making it possible to shorten bone healing time from surgery to functional loading, and enhancing the possibility of immediate/early loading.
本研究比较了氧化实验性镁(Mg)种植体、氧化的市售TiUnite种植体和双酸蚀刻表面Osseotite种植体之间的骨整合速度、强度及骨传导性。目的是研究哪些表面特性可增强骨对种植体的反应,从而验证一种生化结合理论。
将总共60枚螺钉种植体(每种设计20枚)通过1层皮质骨植入10只兔子的胫骨。评估表面化学性质、氧化层厚度、形态、晶体结构和表面粗糙度。在愈合3周和6周后,使用去除扭矩(RTQ)装置拧下所有骨种植体,并对骨标本进行组织形态计量学分析。
Mg、TiUnite和Osseotite种植体在3周时的RTQ值分别为27.1、21.3和15.4 Ncm,新骨形成值分别为29%、18%和15%。在6周时,RTQ值分别为37.5、36.4和21.5 Ncm,新骨形成值分别为39%、31%和26%。
在3周和6周时,Mg种植体的RTQ值(P = 0.008和P = 0.0001)和新骨形成量(P = 0.031和P = 0.030)均显著高于Osseotite种植体。在3周时,Mg种植体的RTQ值也高于TiUnite,在6周时有新骨形成,但两者均无统计学意义(P > 0.05)。在愈合3至6周期间,Mg(P = 0.011)和TiUnite(P = 0.001)种植体的骨整合速率(deltaRTQ/delta周)显著更快,但Osseotite种植体无显著差异。
结果表明,尽管与中度粗糙的TiUnite相比,Mg种植体的粗糙度最小,但其表面化学性质促进了更快、更强的骨整合。这表明Mg种植体在降低植入后早期和骨质量受损情况下的高种植体失败率方面具有潜在优势,有可能缩短从手术到功能加载的骨愈合时间,并增加即刻/早期加载的可能性。
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