中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2015年
18期
2800-2806
,共7页
柏小金%徐林%骆旭东%刘福英%黄文良%郭元%马立坤%程小菊%柏猛
柏小金%徐林%駱旭東%劉福英%黃文良%郭元%馬立坤%程小菊%柏猛
백소금%서림%락욱동%류복영%황문량%곽원%마립곤%정소국%백맹
实验动物%骨及关节损伤模型%低氧诱导因子1α%核心结合因子α1%股骨%骨折%脑损伤%X射线%骨折愈合%大鼠%加速
實驗動物%骨及關節損傷模型%低氧誘導因子1α%覈心結閤因子α1%股骨%骨摺%腦損傷%X射線%骨摺愈閤%大鼠%加速
실험동물%골급관절손상모형%저양유도인자1α%핵심결합인자α1%고골%골절%뇌손상%X사선%골절유합%대서%가속
Tissue Engineering%Femur%Fractures,Bone%Fracture Healing
背景:骨折及脑损伤后造成的低氧环境导致一系列相关因子的表达,包括低氧诱导因子1α和核心结合因子α1,二者在骨折愈合中具有重要的调控作用。但骨折合并脑损伤后骨折愈合加速是否与低氧诱导因子1α和核心结合因子α1的表达相关还不十分清楚。<br> 目的:构建脑损伤大鼠模型,对低氧诱导因子1α和核心结合因子α1在大鼠股骨骨折合并脑损伤及单纯股骨骨折模型的骨折愈合过程中表达的对比,评价脑损伤对骨折愈合的影响。<br> 方法:将大鼠随机分为空白组、单纯股骨骨折组和股骨骨折合并脑损伤组。造模后1,2,3,5周处死动物,通过股骨骨折断端X射线评分及骨痂组织进行苏木精-伊红染色评价模型大鼠不同时间点骨折愈合情况,通过免疫组织化学检测,评价3组低氧诱导因子1α和核心结合因子α1的表达。<br> 结果与结论:股骨骨折合并脑损伤组的骨折愈合情况优于单纯股骨骨折组。单纯股骨骨折和股骨骨折合并脑损伤两组的组内1,2,3,5周低氧诱导因子1α和核心结合因子α1的表达比较,差异有显著性意义(P<0.05);同一时间段组间比较,单纯股骨骨折组和股骨骨折合并脑损伤组均明显高于空白组,股骨骨折合并脑损伤组高于单纯股骨骨折组(P <0.05)。结果证实,骨折合并脑损伤模型大鼠低氧诱导因子1α和核心结合因子α1表达更为突出,这可能是骨折合并脑损伤后骨折愈合加速的重要原因。
揹景:骨摺及腦損傷後造成的低氧環境導緻一繫列相關因子的錶達,包括低氧誘導因子1α和覈心結閤因子α1,二者在骨摺愈閤中具有重要的調控作用。但骨摺閤併腦損傷後骨摺愈閤加速是否與低氧誘導因子1α和覈心結閤因子α1的錶達相關還不十分清楚。<br> 目的:構建腦損傷大鼠模型,對低氧誘導因子1α和覈心結閤因子α1在大鼠股骨骨摺閤併腦損傷及單純股骨骨摺模型的骨摺愈閤過程中錶達的對比,評價腦損傷對骨摺愈閤的影響。<br> 方法:將大鼠隨機分為空白組、單純股骨骨摺組和股骨骨摺閤併腦損傷組。造模後1,2,3,5週處死動物,通過股骨骨摺斷耑X射線評分及骨痂組織進行囌木精-伊紅染色評價模型大鼠不同時間點骨摺愈閤情況,通過免疫組織化學檢測,評價3組低氧誘導因子1α和覈心結閤因子α1的錶達。<br> 結果與結論:股骨骨摺閤併腦損傷組的骨摺愈閤情況優于單純股骨骨摺組。單純股骨骨摺和股骨骨摺閤併腦損傷兩組的組內1,2,3,5週低氧誘導因子1α和覈心結閤因子α1的錶達比較,差異有顯著性意義(P<0.05);同一時間段組間比較,單純股骨骨摺組和股骨骨摺閤併腦損傷組均明顯高于空白組,股骨骨摺閤併腦損傷組高于單純股骨骨摺組(P <0.05)。結果證實,骨摺閤併腦損傷模型大鼠低氧誘導因子1α和覈心結閤因子α1錶達更為突齣,這可能是骨摺閤併腦損傷後骨摺愈閤加速的重要原因。
배경:골절급뇌손상후조성적저양배경도치일계렬상관인자적표체,포괄저양유도인자1α화핵심결합인자α1,이자재골절유합중구유중요적조공작용。단골절합병뇌손상후골절유합가속시부여저양유도인자1α화핵심결합인자α1적표체상관환불십분청초。<br> 목적:구건뇌손상대서모형,대저양유도인자1α화핵심결합인자α1재대서고골골절합병뇌손상급단순고골골절모형적골절유합과정중표체적대비,평개뇌손상대골절유합적영향。<br> 방법:장대서수궤분위공백조、단순고골골절조화고골골절합병뇌손상조。조모후1,2,3,5주처사동물,통과고골골절단단X사선평분급골가조직진행소목정-이홍염색평개모형대서불동시간점골절유합정황,통과면역조직화학검측,평개3조저양유도인자1α화핵심결합인자α1적표체。<br> 결과여결론:고골골절합병뇌손상조적골절유합정황우우단순고골골절조。단순고골골절화고골골절합병뇌손상량조적조내1,2,3,5주저양유도인자1α화핵심결합인자α1적표체비교,차이유현저성의의(P<0.05);동일시간단조간비교,단순고골골절조화고골골절합병뇌손상조균명현고우공백조,고골골절합병뇌손상조고우단순고골골절조(P <0.05)。결과증실,골절합병뇌손상모형대서저양유도인자1α화핵심결합인자α1표체경위돌출,저가능시골절합병뇌손상후골절유합가속적중요원인。
BACKGROUND:The low oxygen environment after femoral fracture and cerebral trauma wil induce series of related cytokines expression, including hypoxia-inducible factor 1αand core binding factorα1, which play key roles in regulating bone healing. However, whether the accelerated bone healing is correlated with the expression of hypoxia-inducible factor 1αand core binding factorα1 is stil unknown. <br> OBJECTIVE:To construct rat models of brain injury, to compare the expression level of hypoxia-inducible factor 1αand core binding factorα1 in femoral fracture combined with cerebral trauma rats and simple femoral fracture rats, and to assess the influence of cerebral trauma on bone healing. <br> METHODS:Rats were randomly divided into blank group, simple femoral fracture group and femoral fracture combined with cerebral trauma group. At 1, 2, 3 and 5 weeks after modeling, rats were executed. Bone healing was evaluated using femoral fracture end X-ray score and hematoxylin and eosin staining at cal us tissues. Besides, the expression levels of hypoxia-inducible factor 1αand core binding factorα1 of three groups were determined with immunohistochemistry. <br> RESULTS AND CONCLUSION:Bone healing in the femoral fracture combined with cerebral trauma group was better than that of simple femoral fracture group. There was significant difference in the expression level of hypoxia-inducible factor 1αand core binding factorα1 between the simple femoral fracture group and femoral fracture combined with cerebral trauma group (P<0.05). At the same time, the level of simple femoral fracture group and femoral fracture combined with cerebral trauma group was significantly higher than that of blank group, and that in femoral fracture combined with cerebral trauma group was significantly higher than that of simple femoral fracture group (P<0.05). Results verified that the expression levels of hypoxia-inducible factor 1αand core binding factorα1 of rats with femoral fracture combined with cerebral trauma were significantly high, which may be the major reason why the bone healing was accelerated after fracture combined with brain injury.
