多孔纳米钙磷陶瓷支架材料生物相容性评价

[摘 要]目的评价多孔纳米钙磷陶瓷支架材料的生物相容性.方法将多孔纳米磷酸钙陶瓷材料制成浸提液、混悬液、5mm×5mm×1mm块状等体系,选择健康新西兰兔、昆明小鼠、SD大鼠为宿主,采用溶血试验、凝血试验、急性毒性试验、热原试验、肌内降解来对其生物相容性进行评价.结果材料对新鲜兔血的溶血度为1.1%,小于5%,在允许范围内；血浆中凝血酶原时间、部分凝血活酶凝固时间、凝血酶凝固时间、纤维蛋白原4项指标结果无异常；热原试验显示实验组体温升高分别为0.35、0.40、0.28℃,均小于0.60℃,符合生物医学材料无热原的评价标准；急性毒性试验后小鼠无死亡,未观察到步态不稳、惊厥、瘫痪、呼吸困难等不良反应；肌内埋植后观察见新生纤维组织形成.结论该陶瓷材料是一种安全无毒、无溶血性、对皮肤和肌肉无刺激作用、不含热原物质的组织工程支架材料,其生物相容性良好,具有比普通钙磷陶瓷支架材料更好的降解性能.

[关 键 词]纳米材料；支架材料；磷酸钙陶瓷；生物相容性

[中图分类号]R318.08[文献标志码]A[doi]10.3969/j.issn.1000-1182.2012.02.024

BiopatibilityofporouscalciumphosphateceramicnanopositeZhangKefu1,ZhangShu1,LuoZhi1,WangJing1,2,WangTao3,OuGuomin1,4,WangHu1,5.（1.StateKeyLaboratoryofOralDiseases,SichuanUniversity,

Chengdu610041,China,2.Dept.ofOrthodontics,WestChinaSchoolofStomatology,SichuanUniversity,Chengdu610041,China,3.Dept.ofStomatology,HainanProvincePeople’sHospital,Haikou570311,China,4.Dept.ofIm-plantology,WestChinaSchoolofStomatology,SichuanUniversity,Chengdu610041,China,5.Dept.ofRadiology,WestChinaSchoolofStomatology,SichuanUniversity,Chengdu610041,China）

[Abstract]ObjectiveTostudythebiopatibilityofporouscalciumphosphateceramicsnanoposite．MethodsThebiopatibilitywasevaluatedviaexperimentsincludingthehemolysistest,hemopexistest,acutesystemictoxicitytest,pyrogentest,andintramuscularimplanttest,inwhichbiphasiccalciumphosphatenanoposite（NanoBCP）pre-

sentedasleachingsolution,suspensionorblocksof5mm×5mm×1mm.AnimalsincludingNewZealandRabbits,Kun-mingmice,SDratswereselectedasthehost.ResultsThehemolysisofNanoBCPwas1.1%（＜5%）.Fourcoagula-tionindexlevelswerewithinthenormalrange.Inpyrogentest,thetemperatureofeachexperimentalratincreasedby0.35,0.40,0.28℃（＜0.60℃,inaccordancewiththepyrogen-freecriterionforbiomedicalmaterials）.Noconsequentdeath,dyspnoea,andyunction,severeperitonealirritationorptosiswasobservedinacutesystemictoxictest.Newly-formedfibroustissuecouldbefoundaftertheimplantation.ConclusionThematerialpossessesoutstandingbiopatibilityanddegradabilitywithnotoxicityorirritation,containsnopyrogen,aswellasbetterdegradationpropertiesthanbiphasiccalciumphosphate.

[Keywords]nanoposite；scaffolds；calciumphosphateceramics；biopatibility

创伤、炎症、遗传等原因造成的颌面骨缺损一直是临床治疗难点,尽管临床有诸多方法如自体骨和异体骨移植以及其他生物材料来修复缺损,但各自的缺点限制了它们的应用[1-2].近年来随着组织工