中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2014年
38期
6079-6084
,共6页
梁恒燕%焦鑫%王洋%葛振林
樑恆燕%焦鑫%王洋%葛振林
량항연%초흠%왕양%갈진림
组织构建%骨组织工程%富血小板血浆%牙槽骨缺损%临界骨缺损%引导骨组织再生%Bio-Oss骨粉%Bio-Gide骨膜%兔
組織構建%骨組織工程%富血小闆血漿%牙槽骨缺損%臨界骨缺損%引導骨組織再生%Bio-Oss骨粉%Bio-Gide骨膜%兔
조직구건%골조직공정%부혈소판혈장%아조골결손%림계골결손%인도골조직재생%Bio-Oss골분%Bio-Gide골막%토
alveolar bone loss%guided tissue regeneration%platelet-rich plasma
背景:有研究发现,富血小板血浆可促进骨、软组织损伤修复,但在骨愈合过程中的作用仍存在争议,目前尚无定论。<br> 目的:对比观察富血小板血浆复合Bio-Oss/Bio-Gide在兔牙槽骨缺损修复过程中的成骨效果,以探讨富血小板血浆在骨损伤愈合中的作用。<br> 方法:选择新西兰大白兔16只,手术建立兔下颌牙槽骨临界骨缺损模型,采取自身对照,随机选择一侧下颌骨以富血小板血浆/Bio-Oss/Bio-Gide 修复骨缺损(实验侧);另外一侧以 Bio-Oss/Bio-Gide 修复骨缺损(对照侧)。分别于术后2,4,8,12周时各处死4只,通过大体观察、X射线观察、CBCT骨密度测定、组织学切片观察以及新生骨占缺损面积百分比的测定,定性及定量分析牙槽骨缺损区的成骨效果。<br> 结果与结论:术后2-12周的 X射线、CBCT及组织学切片观察显示,实验侧和对照侧均有不同程度的新骨形成以及植骨材料的降解吸收;12周时,实验侧缺损表面可见连续的皮质骨形成,植骨区新骨形成并趋于成熟,植骨材料降解吸收明显,对照侧修复效果次之。在术后2,4,8,12周各时间点,实验侧骨密度值均低于对照侧(P<0.05),实验侧新生骨占面积百分比均大于对照侧(P<0.05)。说明在兔下颌牙槽骨缺损修复中,富血小板血浆/Bio-Oss/Bio-Gide比Bio-Oss/Bio-Gide具有更好的成骨效果,表明富血小板血浆可促进新骨的形成以及Bio-Oss骨粉的降解吸收。
揹景:有研究髮現,富血小闆血漿可促進骨、軟組織損傷脩複,但在骨愈閤過程中的作用仍存在爭議,目前尚無定論。<br> 目的:對比觀察富血小闆血漿複閤Bio-Oss/Bio-Gide在兔牙槽骨缺損脩複過程中的成骨效果,以探討富血小闆血漿在骨損傷愈閤中的作用。<br> 方法:選擇新西蘭大白兔16隻,手術建立兔下頜牙槽骨臨界骨缺損模型,採取自身對照,隨機選擇一側下頜骨以富血小闆血漿/Bio-Oss/Bio-Gide 脩複骨缺損(實驗側);另外一側以 Bio-Oss/Bio-Gide 脩複骨缺損(對照側)。分彆于術後2,4,8,12週時各處死4隻,通過大體觀察、X射線觀察、CBCT骨密度測定、組織學切片觀察以及新生骨佔缺損麵積百分比的測定,定性及定量分析牙槽骨缺損區的成骨效果。<br> 結果與結論:術後2-12週的 X射線、CBCT及組織學切片觀察顯示,實驗側和對照側均有不同程度的新骨形成以及植骨材料的降解吸收;12週時,實驗側缺損錶麵可見連續的皮質骨形成,植骨區新骨形成併趨于成熟,植骨材料降解吸收明顯,對照側脩複效果次之。在術後2,4,8,12週各時間點,實驗側骨密度值均低于對照側(P<0.05),實驗側新生骨佔麵積百分比均大于對照側(P<0.05)。說明在兔下頜牙槽骨缺損脩複中,富血小闆血漿/Bio-Oss/Bio-Gide比Bio-Oss/Bio-Gide具有更好的成骨效果,錶明富血小闆血漿可促進新骨的形成以及Bio-Oss骨粉的降解吸收。
배경:유연구발현,부혈소판혈장가촉진골、연조직손상수복,단재골유합과정중적작용잉존재쟁의,목전상무정론。<br> 목적:대비관찰부혈소판혈장복합Bio-Oss/Bio-Gide재토아조골결손수복과정중적성골효과,이탐토부혈소판혈장재골손상유합중적작용。<br> 방법:선택신서란대백토16지,수술건립토하합아조골림계골결손모형,채취자신대조,수궤선택일측하합골이부혈소판혈장/Bio-Oss/Bio-Gide 수복골결손(실험측);령외일측이 Bio-Oss/Bio-Gide 수복골결손(대조측)。분별우술후2,4,8,12주시각처사4지,통과대체관찰、X사선관찰、CBCT골밀도측정、조직학절편관찰이급신생골점결손면적백분비적측정,정성급정량분석아조골결손구적성골효과。<br> 결과여결론:술후2-12주적 X사선、CBCT급조직학절편관찰현시,실험측화대조측균유불동정도적신골형성이급식골재료적강해흡수;12주시,실험측결손표면가견련속적피질골형성,식골구신골형성병추우성숙,식골재료강해흡수명현,대조측수복효과차지。재술후2,4,8,12주각시간점,실험측골밀도치균저우대조측(P<0.05),실험측신생골점면적백분비균대우대조측(P<0.05)。설명재토하합아조골결손수복중,부혈소판혈장/Bio-Oss/Bio-Gide비Bio-Oss/Bio-Gide구유경호적성골효과,표명부혈소판혈장가촉진신골적형성이급Bio-Oss골분적강해흡수。
BACKGROUND:Studies have found that the platelet-rich plasma (PRP) can promote bone and soft tissue injury repair, but its effect on the process of bone healing is stil controversial. <br> OBJECTIVE:To contrastively observe the osteogenesis effect of PRP/Bio-Oss/Bio-Gide in the repair process of alveolar bone defect in rabbits, so as to explore the role of PRP in bone healing. <br> METHODSixteen New Zealand white rabbits were used to establish animal models of critical-size alveolar bone defect. One side was damaged randomly and repaired by PRP/Bio-Oss/Bio-Gide as experimental side, and the other side repaired by Bio-Oss/Bio-Gide as control side. Four animals were executed at each time-point, postoperative weeks 2, 4, 8, 12. Through general observation, X-ray radiograph, Cone Beam CT assessment, histological examination, the osteogenesis effect in the defect region was qualitatively and quantitatively analyzed. <br> RESULTS AND CONCLUSION:It could be know from each observation index that as time went on, the experimental and control sides had a different degree of new bone formation and the degradation-absorption of bone graft material. At 12 weeks, continuous cortical bone formation was seen on the surface of the experimental side, new bone formed and tended to be mature, obvious degradation of the bone graft was found, but those in the control side were not as good. At each time-point of 2, 4, 8, 12 weeks, the bone mineral density of the experimental side were lower than that of the control side (P<0.05), but the percentage of new bone area was larger than in the experimental side than the control side (P<0.05). These findings indicate that the PRP/Bio-Oss/Bio-Gide has a better osteogenesis effect than the Bio-Oss/Bio-Gide in the repair process of alveolar bone defect in rabbits, and PRP can promote new bone formation and degradation-absorption of Bio-Oss.