华西口腔医学杂志
華西口腔醫學雜誌
화서구강의학잡지
WEST CHINA JOURNAL OF STOMATOLOGY
2009年
6期
588-591
,共4页
磷灰石%矿化%模型
燐灰石%礦化%模型
린회석%광화%모형
apatite%mineralization%model
目的 构建磷灰石晶体矿化的体外模型,研究牛血清白蛋白(BSA)和不问浓度的氟离子对磷灰石晶体体外矿化的影响.方法 利用阳离子膜和透析膜建立磷灰石晶体矿化的体外模型.在模型中分别加入去离子水、BSA和不同浓度的氟离子(5、20、100mg·L~(-1)),反应3 d后,扫描电镜(SEM)、X线衍射法检测矿化产物.结果 成功构建了磷灰行晶体体外矿化模型,加入去离子水和BSA后,晶体成分主要为磷酸八钙(OCP),但晶体形态筹异显著.加入氟离子后,形成了柱状、杆状的氟磷灰石(FAP)晶体,且随着氟离子浓度的增加,晶体的尺寸和矿化程度均增加.结论 该体外模犁是检测磷灰石晶体矿化调控因素的有效方法.
目的 構建燐灰石晶體礦化的體外模型,研究牛血清白蛋白(BSA)和不問濃度的氟離子對燐灰石晶體體外礦化的影響.方法 利用暘離子膜和透析膜建立燐灰石晶體礦化的體外模型.在模型中分彆加入去離子水、BSA和不同濃度的氟離子(5、20、100mg·L~(-1)),反應3 d後,掃描電鏡(SEM)、X線衍射法檢測礦化產物.結果 成功構建瞭燐灰行晶體體外礦化模型,加入去離子水和BSA後,晶體成分主要為燐痠八鈣(OCP),但晶體形態籌異顯著.加入氟離子後,形成瞭柱狀、桿狀的氟燐灰石(FAP)晶體,且隨著氟離子濃度的增加,晶體的呎吋和礦化程度均增加.結論 該體外模犛是檢測燐灰石晶體礦化調控因素的有效方法.
목적 구건린회석정체광화적체외모형,연구우혈청백단백(BSA)화불문농도적불리자대린회석정체체외광화적영향.방법 이용양리자막화투석막건립린회석정체광화적체외모형.재모형중분별가입거리자수、BSA화불동농도적불리자(5、20、100mg·L~(-1)),반응3 d후,소묘전경(SEM)、X선연사법검측광화산물.결과 성공구건료린회행정체체외광화모형,가입거리자수화BSA후,정체성분주요위린산팔개(OCP),단정체형태주이현저.가입불리자후,형성료주상、간상적불린회석(FAP)정체,차수착불리자농도적증가,정체적척촌화광화정도균증가.결론 해체외모리시검측린회석정체광화조공인소적유효방법.
Objective To establish an in vitro model for the apatite crystal mineralization.To evaluate the influences of bovine serum albumin (BSA) and fluoride to the mineralization of apatite crystal.Methods The model was constructed using cation selective membrane (CMV) and dialysis membrane.Double distilled water (DDW), BSA, 5, 20, 100 mg·L~(-1) fluoride were added into the reaction space of the model.Reaction was carried out at 37 ℃ for 3 days under gentle stirring.The crystals were identified by scanning electron microscope (SEM) and X-ray diffraction (XRD).Results The model was established successfully.When DDW and BSA were added respectively, the main component of the deposit was octacalcium phosphate (OCP), but the shape and size of the crystals differs from each other.When fluoride with different concentration were added, the main component of the crystal turned to rod-like and prism-like fluoroapatite (FAP) crystal.The size and crystallinity of the FAP increased with the increase of the fluoride concentration.Conclusion It is an effective way to evaluate the influence factors of the apatite crystal mineralization by using the in vitro model.