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조직학과 효소활성 방법을 이용한 순 타이타늄과 타이타늄 합금의 상대적인 생체적합성 평가
염동선(Dong Sun Yeom),김병일(Byung Il Kim),이유미(Yu Mi Lee),이은정(Eun Jung Lee),이성태(Sung Tae Yee),성치남(Chi Nam Seong),서권일(Kwon Il Seo),조현욱(Hyun Wook Cho) 한국독성학회 2007 Toxicological Research Vol.23 No.2
Titanium or titanium alloy is a widely used implant material according to its certified biocompatibility, sufficient strength and ready availability. The purpose of this study was to evaluate the relative biocompatibility of titanium and titanium alloy specimens (Ti-29Nb-13Ta, TiNb and Ti-6Al-4V, Ti64) using in vivo and in vitro methods. For in vivo experiment, the specimens were implanted in the abdominal subcutaneous region of female mice for 2 and 4 weeks. The reaction of connective tissue to specimens was evaluated histologically. The specimens were encapsulated by fibrous connective tissue consisting of fibroblast, fibrocyte and other cells including neutrophil, macrophage, giant multinucleated cell and unidentified cells. Some newly formed blood vessels were located in the fibrous capsule surrounding the implant. Cell types and the thickness of fibrous capsules were examined quantitatively. Most of cell types located in the fibrous capsule were fibroblasts and fibrocytes. The average thickness of fibrous capsules for the TiNb specimens was much thinner than that of the titanium alloy, Ti64. The thickness of the fibrous capsule around all titanium specimens decreased at 4 weeks compared to 2 weeks post-implantation. The biocompatibility of titanium and titanium alloy specimens were also investigated in in vitro method using alkaline phosphatase from MG-63 cells. Alkaline phosphatase activity of the TiNb specimen showed higher activity than the titanium alloy, Ti64. In conclusion, the TiNb alloy with thin capsule thickness in vivo and high alkaline phosphatase activity in vitro will be of considerable use in biomedical applications.
In vivo와 in vitro 에서 양극산화 처리한 타이타늄 시편의 상대적인 생체적합성 평가
이유미,이은정,염동선,김도순,이성태,김병일,조현욱,Lee Yu-Mi,Lee Eun-Jung,Yeom Dong-Sun,Kim Do-Soon,Yee Sung-Tae,Kim Byung-Il,Cho Hyun-Wook 한국생명과학회 2006 생명과학회지 Vol.16 No.2
처리하지 않은 타이타늄과 양극 산화 처리한 타이타늄 시편의 생체적합성을 평가하기 위해, 시편을 마우스의 복부 피하 조직에 이식하고 2주 동안 생존시켰다. 그 시편에 대한 복부 피하 결합조직의 반응을 조직학적으로 조사하였다. 시편 주위를 둘러싸는 섬유성 결합조직 막이 관찰되었으며 이 막은 섬유모세포, 섬유세포 및 기타 세포로서 중성호성백혈구, 대식세포, 거대다핵세포 등으로 이루어져 있었다. 시편을 둘러싸는 이 막에 새로이 형성된 혈관이 존재하기도 하였다. 임플란트와 접하는 섬유성 막에 거대다핵세포가 관찰되었다. 섬유성 막에 있는 세포 종류와 막의 두께를 조사하였다. 막에 있는 대부분의 세포는 섬유모세포와 섬유세포이었다. 양극 산화 처리를 하지 않은 타이타늄 시편에 비해 산화 처리를 한 시편을 둘러싸는 섬유성 막의 평균 두께가 더 얇았다. 또한 타이타늄 시편의 생체적합성을 세포 배양법으로 조사하였다. 산화 처리를 한 시편 위에서 배양한 MG-63 세포의 수가 유의하게 증가되었다. 이런 결과들은 in vivo 와 in vitro 실험에서 산화 처리를 한 타이타늄 시편이 생체적합성을 증가시키는데 효과적이라는 것을 말해준다. To evaluate the biocompatibility of untreated and anodized titanium specimens, the specimens were implanted in the subcutaneous tissue of the abdominal region of female mice for two weeks. The reaction of connective tissue to specimens was histologically studied. The implants were encapsulated by fibrous connective. tissue consisting of fibroblast, fibrocyte and other cellss including neutroophil, macrophage and giant multinucleated cell. some newly formed blood vessels were located in the fibrous capsule surrounding the implant. Giant multinucleated cells were observed at the fibrous capsule adjacent to the implant. Kind of cell types and the thickness of fibrous capsules were examined quantitatively. Most of cell types located in the fibrous capsule were fibroblast and fibrocyte. The average thickness of fibrous capsules for the anodized specimens was much thinner than that of the untreated titanium specimen. Biocompatibility of titanium specimens were also studied by using cell culture method. The number of MG-63 cells was significantly increased on the anodized titanium specimens in vitro experiment. Our observations suggest that anodized titanium specimens are more effective for the improvement of biocompatibility in vivo and in vitro.