医学研究生学报
醫學研究生學報
의학연구생학보
JOURNAL OF MEDICAL POSTGRADUATE
2015年
5期
521-525
,共5页
朱瑞乔%马娟%朱迎兰%史小蕾%董震%金磊
硃瑞喬%馬娟%硃迎蘭%史小蕾%董震%金磊
주서교%마연%주영란%사소뢰%동진%금뢰
聚乙烯醇缩丁醛%氧化锆%骨组织工程支架
聚乙烯醇縮丁醛%氧化鋯%骨組織工程支架
취을희순축정철%양화고%골조직공정지가
Polyvinyl butyral%Zirconia%Bone tissue engineering scaffold
目的:既往制备出的纳米氧化锆骨组织工程支架具有良好三维联通性但成型率和压缩强度均未达到理想水平。文中在浆料的制备过程中加入聚乙烯醇缩丁醛( Polyvinyl butyral , PVB)作为分散剂,期望制备出性能更稳定的浆料,并同时探索PVB的最佳添入量,以达到优化支架性能的目的。方法制备0~0.3wt% PVB含量的纳米氧化锆乙醇水基浆料,利用沉降反应、万能试验机测试压缩强度以及扫描电镜观察研究分析PVB的添加效果。结果沉降实验显示不添加PVB (添加去离子水)的氧化锆浆料分层明显,上层为上清液,下层为白色沉淀,添加了0~0.3wt% PVB的氧化锆浆料上下层均无明显界限,上层为白色混悬液,下层为白色沉淀。0.2wt% PVB 氧化锆粉体沉降实验分层最不明显,其支架压缩强度为(0.324±0.030)MPa,明显高于去离子水和其他浓度PVB支架(P<0.01);以往使用的氧化锆水基浆料制作的支架压缩强度为(0.109±0.021)MPa,明显低于不同浓度PVB支架(P<0.05),不同浓度PVB支架(0.2wt% PVB除外)压缩强度差异无统计学意义(P>0.05)。 SEM观察结果显示,0.2wt%PVB所制作的支架表面裂纹最少且分布稀疏,其余不同浓度PVB浆料制作的支架表面均有不同程度的缺陷,裂纹大而深。结论 PVB添加后能明显改善氧化锆浆料的稳定性,并能提高氧化锆支架的压缩强度,可以满足体内成骨模型实验研究。
目的:既往製備齣的納米氧化鋯骨組織工程支架具有良好三維聯通性但成型率和壓縮彊度均未達到理想水平。文中在漿料的製備過程中加入聚乙烯醇縮丁醛( Polyvinyl butyral , PVB)作為分散劑,期望製備齣性能更穩定的漿料,併同時探索PVB的最佳添入量,以達到優化支架性能的目的。方法製備0~0.3wt% PVB含量的納米氧化鋯乙醇水基漿料,利用沉降反應、萬能試驗機測試壓縮彊度以及掃描電鏡觀察研究分析PVB的添加效果。結果沉降實驗顯示不添加PVB (添加去離子水)的氧化鋯漿料分層明顯,上層為上清液,下層為白色沉澱,添加瞭0~0.3wt% PVB的氧化鋯漿料上下層均無明顯界限,上層為白色混懸液,下層為白色沉澱。0.2wt% PVB 氧化鋯粉體沉降實驗分層最不明顯,其支架壓縮彊度為(0.324±0.030)MPa,明顯高于去離子水和其他濃度PVB支架(P<0.01);以往使用的氧化鋯水基漿料製作的支架壓縮彊度為(0.109±0.021)MPa,明顯低于不同濃度PVB支架(P<0.05),不同濃度PVB支架(0.2wt% PVB除外)壓縮彊度差異無統計學意義(P>0.05)。 SEM觀察結果顯示,0.2wt%PVB所製作的支架錶麵裂紋最少且分佈稀疏,其餘不同濃度PVB漿料製作的支架錶麵均有不同程度的缺陷,裂紋大而深。結論 PVB添加後能明顯改善氧化鋯漿料的穩定性,併能提高氧化鋯支架的壓縮彊度,可以滿足體內成骨模型實驗研究。
목적:기왕제비출적납미양화고골조직공정지가구유량호삼유련통성단성형솔화압축강도균미체도이상수평。문중재장료적제비과정중가입취을희순축정철( Polyvinyl butyral , PVB)작위분산제,기망제비출성능경은정적장료,병동시탐색PVB적최가첨입량,이체도우화지가성능적목적。방법제비0~0.3wt% PVB함량적납미양화고을순수기장료,이용침강반응、만능시험궤측시압축강도이급소묘전경관찰연구분석PVB적첨가효과。결과침강실험현시불첨가PVB (첨가거리자수)적양화고장료분층명현,상층위상청액,하층위백색침정,첨가료0~0.3wt% PVB적양화고장료상하층균무명현계한,상층위백색혼현액,하층위백색침정。0.2wt% PVB 양화고분체침강실험분층최불명현,기지가압축강도위(0.324±0.030)MPa,명현고우거리자수화기타농도PVB지가(P<0.01);이왕사용적양화고수기장료제작적지가압축강도위(0.109±0.021)MPa,명현저우불동농도PVB지가(P<0.05),불동농도PVB지가(0.2wt% PVB제외)압축강도차이무통계학의의(P>0.05)。 SEM관찰결과현시,0.2wt%PVB소제작적지가표면렬문최소차분포희소,기여불동농도PVB장료제작적지가표면균유불동정도적결함,렬문대이심。결론 PVB첨가후능명현개선양화고장료적은정성,병능제고양화고지가적압축강도,가이만족체내성골모형실험연구。
Objective The nano-zirconia scaffolds we previously prepared had a good 3-dimensional ( 3D ) connectivity but did not achieve the ideal sintering rate and compressive strength .The objective of this study was to explore the enhancing effect of polyvinyl butyral ( PVB) as a dispersant on the compressive strength of 3D nano-zirconia porous scaffolds for bone tissue engineering . Methods We prepared the slurry containing different concentrations of PVB and ana-lyzed the improving effect of PVB on the mechanical properties of the scaffolds by sediment experiment , compressive strength test and scan-ning electron microscopy . Results The sediment experiment showed <br> no significant stratification in the slurry with 0.2wt%PVB, white suspension in the upper layer and white precipitate in the lower layer , with a significantly higher compressive strength of the scaffold ([0.324 ±0.030] MPa) than that of the scaffold prepared by adding other concentrations of PVB to the slurry (P <0.01).And the compressive strength of the scaffold constructed by adding no dispersant ([0.109 ±0.021] MPa) was remarkably lower than that of the scaffold constructed by adding PVB to the slurry (P<0.05).Scanning electron microscopy demonstrated that the scaffold prepared by adding 0.2wt%PVB to the slurry had a complete porous structure with the fewest and most sparsely distributed surface cracks as compared with other PVB concentration groups . Conclusion PVB can signifi-cantly improve the stability of zirconia slurry , enhance the compressive strength of the nano-zirconia porous scaffold , and make the scaf-fold more applicable to bone tissue engineering .
