中国组织工程研究与临床康复
中國組織工程研究與臨床康複
중국조직공정연구여림상강복
JOURNAL OF CLINICAL REHABILITATIVE TISSUE ENGINEERING RESEARCH
2009年
40期
7974-7978
,共5页
朱栋晓%苗宗宁%赵基栋%钱寒光%刘小铭
硃棟曉%苗宗寧%趙基棟%錢寒光%劉小銘
주동효%묘종저%조기동%전한광%류소명
高频超声%骨髓间充质干细胞%股动脉%血管再生
高頻超聲%骨髓間充質榦細胞%股動脈%血管再生
고빈초성%골수간충질간세포%고동맥%혈관재생
背景:研究发现干细胞可分化为血管内皮细胞,并可进一步分化形成新生毛细血管,自体骨髓间充质干细胞移植促进血管再生正是利用这一原理达到治疗下肢缺血的目的.目的:采用高频二维超声及彩色多普勒血流成像检测评价自体骨髓间充质干细胞移植后兔缺血肢体血管再生的情况.设计、时间及地点:随机对照动物实验,于2007-03/2008-04在无锡市第三人民医院完成.材料:新西兰大白兔24只,随机分为模型对照组、细胞移植组,12只/组.方法:2组兔均建立后肢缺血动物模型,造模1周后,细胞移植组取体外分离培养的Brdu标记的自体骨髓间充质干细胞,在腓肠肌部位皮下分多点注射,细胞悬液总体积0.5 mL,细胞总量2×105个;模型对照组于相同部位注射等量生理盐水.主要观察指标:对兔股动脉及股浅动脉起始段行高频二维超声及彩色多普勒血流成像检测,测量股动脉血管内径、血流峰值速度、血流加速时间;取缺血部位肌肉组织,免疫组织化学染色检测移植细胞分布情况及病理学检查血管再生情况.结果:移植后2周,高频超声检查细胞移植组兔股动脉内径、血流峰值速度均大于模型对照组,血流加速时间小于模型对照组(P<0.01).免疫组织化学染色后移植部位可见抗Brdu染色阳性细胞的存在,病理切片示细胞移植组血管密度明显高于模型对照组.结论:自体骨髓间充质干细胞移植具有促进血管生成的作用,有望成为一种简单有效的治疗下肢缺血的方法,同时高频超声检测股动脉为自体骨髓间充质干细胞移植效果评价提供了有效实用的方法.
揹景:研究髮現榦細胞可分化為血管內皮細胞,併可進一步分化形成新生毛細血管,自體骨髓間充質榦細胞移植促進血管再生正是利用這一原理達到治療下肢缺血的目的.目的:採用高頻二維超聲及綵色多普勒血流成像檢測評價自體骨髓間充質榦細胞移植後兔缺血肢體血管再生的情況.設計、時間及地點:隨機對照動物實驗,于2007-03/2008-04在無錫市第三人民醫院完成.材料:新西蘭大白兔24隻,隨機分為模型對照組、細胞移植組,12隻/組.方法:2組兔均建立後肢缺血動物模型,造模1週後,細胞移植組取體外分離培養的Brdu標記的自體骨髓間充質榦細胞,在腓腸肌部位皮下分多點註射,細胞懸液總體積0.5 mL,細胞總量2×105箇;模型對照組于相同部位註射等量生理鹽水.主要觀察指標:對兔股動脈及股淺動脈起始段行高頻二維超聲及綵色多普勒血流成像檢測,測量股動脈血管內徑、血流峰值速度、血流加速時間;取缺血部位肌肉組織,免疫組織化學染色檢測移植細胞分佈情況及病理學檢查血管再生情況.結果:移植後2週,高頻超聲檢查細胞移植組兔股動脈內徑、血流峰值速度均大于模型對照組,血流加速時間小于模型對照組(P<0.01).免疫組織化學染色後移植部位可見抗Brdu染色暘性細胞的存在,病理切片示細胞移植組血管密度明顯高于模型對照組.結論:自體骨髓間充質榦細胞移植具有促進血管生成的作用,有望成為一種簡單有效的治療下肢缺血的方法,同時高頻超聲檢測股動脈為自體骨髓間充質榦細胞移植效果評價提供瞭有效實用的方法.
배경:연구발현간세포가분화위혈관내피세포,병가진일보분화형성신생모세혈관,자체골수간충질간세포이식촉진혈관재생정시이용저일원리체도치료하지결혈적목적.목적:채용고빈이유초성급채색다보륵혈류성상검측평개자체골수간충질간세포이식후토결혈지체혈관재생적정황.설계、시간급지점:수궤대조동물실험,우2007-03/2008-04재무석시제삼인민의원완성.재료:신서란대백토24지,수궤분위모형대조조、세포이식조,12지/조.방법:2조토균건립후지결혈동물모형,조모1주후,세포이식조취체외분리배양적Brdu표기적자체골수간충질간세포,재비장기부위피하분다점주사,세포현액총체적0.5 mL,세포총량2×105개;모형대조조우상동부위주사등량생리염수.주요관찰지표:대토고동맥급고천동맥기시단행고빈이유초성급채색다보륵혈류성상검측,측량고동맥혈관내경、혈류봉치속도、혈류가속시간;취결혈부위기육조직,면역조직화학염색검측이식세포분포정황급병이학검사혈관재생정황.결과:이식후2주,고빈초성검사세포이식조토고동맥내경、혈류봉치속도균대우모형대조조,혈류가속시간소우모형대조조(P<0.01).면역조직화학염색후이식부위가견항Brdu염색양성세포적존재,병리절편시세포이식조혈관밀도명현고우모형대조조.결론:자체골수간충질간세포이식구유촉진혈관생성적작용,유망성위일충간단유효적치료하지결혈적방법,동시고빈초성검측고동맥위자체골수간충질간세포이식효과평개제공료유효실용적방법.
BACKGROUND:Several studies have demonstrated that stem cells can differentiate into vascular endothelial cells, and then further differentiate and form blood capillary. Based on this principle, autologous bone marrow mesenchyrnal stem cell (BMSC) transplantation promotes angiogenesis to treat ischemia in lower limb.OBJECTIVE: To evaluate the angiogenesis in rabbit ischemic limbs following autologous BMSC transplantation using high-frequency two-dimensional ultrasound detection in conjunction with Doppler color-flow imaging examination. DESIGN, TIME AND SEI-FING: A randomized, controlled, animal experiment was performed in the Third People's Hospital of Wuxi between March 2007 and April 2008.MATERIALS: Twenty-four New Zealand rabbits were randomized to a control group and a cell transplantation group, with 12 rabbits in each.METHODS: Ischemia in lower limbs was induced in all rabbits. One week following ischemia induction, the cell transplantation group was injected with 0.5 mL cell suspension, comprising 2×106 BrdU-labeled autologous BMSCs cultured in vitro, through multiple sites in the region of gastrocnemius muscle. Simultaneously, the control group received the same amount of physical saline in the same region.MAIN OUTCOME MEASURES: The initial segment of rabbit femoral artery and superficial femoral artery was subjected to high-frequency two-dimensional ultrasound and Doppler color-flow imaging examinations to measure femoral artery vascular internal diameter, blood flow peak velocity, and blood flow acceleration time. Ischemic muscular tissue was taken for immunohistochemical staining to detect transplanted cell distribution and for pathological examination of angiogenesis. RESULTS: Two weeks following autologous BMSC transplantation, high-frequency ultrasound results revealed that femoral artery internal diameter and blood flow peak velocity were greater, but blood flow acceleration time was shorter, in the cell transplantation group than in the control group (P<0.01). Immunohistochemical staining results demonstrated the presence of BrdU-positive cells. Pathological sections displayed that vascular density was significantly higher in the cell transplantation group than ih the control group. CONCLUSION: Autologous BMSC transplantation is a promising, simple, and effective method of treating ischemia in lower limbs owing to its promotion of angiogenesis. Meanwhile, high-frequency ultrasound detection of femoral artery is an effective, practical method to evaluate the clinical outcomes of autologous BMSC transplantation.
