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
53期
10435-10438
,共4页
王成%金锋%张延安%张洪福%张强%杨宝岭%王明训
王成%金鋒%張延安%張洪福%張彊%楊寶嶺%王明訓
왕성%금봉%장연안%장홍복%장강%양보령%왕명훈
气管%同种异体移植%再血管化
氣管%同種異體移植%再血管化
기관%동충이체이식%재혈관화
背景:移植气管再血管化是气管移植外科需要解决的首要问题.目的:观察同种异体气管移植后长段气管再血管化过程中气管软骨支架的生长情况,以实现长段气管的在血管化.设计、时间及地点:动物实验观察,于2007-06/2008-06在山东省胸科医院胸外科完成.材料:健康新西兰兔20只,由山东大学医学院实验动物中心提供,随机抽取10只家兔做供体,剩余10只家兔作为受体.方法:将同种异体供体家兔气管去除气管黏膜及膜部平滑肌,形成仅余气管软骨及部分环状韧带的气管支架,在气管软骨环之间将环状韧带剪开或密集打孔,使气管软骨支架裂隙化或网孔化,但要保留气管软骨环两端及正中部环状韧带,以保持气管软骨支架的完整连接状态.受体游离并切取带血管蒂的空肠,其长度略长于备用供体的软骨支架的长度,将大网膜环绕贴附于备用供体的气管软骨环外面充当外膜.将构建好的模拟气管置于腹腔中.主要观察指标:气管外膜的网膜及气管软骨的生长情况.结果:2周后打开腹腔,大体及病理切片观察:重建的气管替代物管腔无塌陷,按压管壁弹性良好,夹裹气管软骨的肠黏膜与大网膜血运好,异体气管软骨无坏死及吸收.结论:实验在受体腹腔内成功完成了一期气管替代物重建,实现了同种异体气管移植长段气管的再血管化.受体带蒂肠黏膜、大网膜夹裹供体网孔化或裂隙化的气管支架使移植体不再受长度的限制,是实现长段气管再血管化的关键.
揹景:移植氣管再血管化是氣管移植外科需要解決的首要問題.目的:觀察同種異體氣管移植後長段氣管再血管化過程中氣管軟骨支架的生長情況,以實現長段氣管的在血管化.設計、時間及地點:動物實驗觀察,于2007-06/2008-06在山東省胸科醫院胸外科完成.材料:健康新西蘭兔20隻,由山東大學醫學院實驗動物中心提供,隨機抽取10隻傢兔做供體,剩餘10隻傢兔作為受體.方法:將同種異體供體傢兔氣管去除氣管黏膜及膜部平滑肌,形成僅餘氣管軟骨及部分環狀韌帶的氣管支架,在氣管軟骨環之間將環狀韌帶剪開或密集打孔,使氣管軟骨支架裂隙化或網孔化,但要保留氣管軟骨環兩耑及正中部環狀韌帶,以保持氣管軟骨支架的完整連接狀態.受體遊離併切取帶血管蒂的空腸,其長度略長于備用供體的軟骨支架的長度,將大網膜環繞貼附于備用供體的氣管軟骨環外麵充噹外膜.將構建好的模擬氣管置于腹腔中.主要觀察指標:氣管外膜的網膜及氣管軟骨的生長情況.結果:2週後打開腹腔,大體及病理切片觀察:重建的氣管替代物管腔無塌陷,按壓管壁彈性良好,夾裹氣管軟骨的腸黏膜與大網膜血運好,異體氣管軟骨無壞死及吸收.結論:實驗在受體腹腔內成功完成瞭一期氣管替代物重建,實現瞭同種異體氣管移植長段氣管的再血管化.受體帶蒂腸黏膜、大網膜夾裹供體網孔化或裂隙化的氣管支架使移植體不再受長度的限製,是實現長段氣管再血管化的關鍵.
배경:이식기관재혈관화시기관이식외과수요해결적수요문제.목적:관찰동충이체기관이식후장단기관재혈관화과정중기관연골지가적생장정황,이실현장단기관적재혈관화.설계、시간급지점:동물실험관찰,우2007-06/2008-06재산동성흉과의원흉외과완성.재료:건강신서란토20지,유산동대학의학원실험동물중심제공,수궤추취10지가토주공체,잉여10지가토작위수체.방법:장동충이체공체가토기관거제기관점막급막부평활기,형성부여기관연골급부분배상인대적기관지가,재기관연골배지간장배상인대전개혹밀집타공,사기관연골지가렬극화혹망공화,단요보류기관연골배량단급정중부배상인대,이보지기관연골지가적완정련접상태.수체유리병절취대혈관체적공장,기장도략장우비용공체적연골지가적장도,장대망막배요첩부우비용공체적기관연골배외면충당외막.장구건호적모의기관치우복강중.주요관찰지표:기관외막적망막급기관연골적생장정황.결과:2주후타개복강,대체급병리절편관찰:중건적기관체대물관강무탑함,안압관벽탄성량호,협과기관연골적장점막여대망막혈운호,이체기관연골무배사급흡수.결론:실험재수체복강내성공완성료일기기관체대물중건,실현료동충이체기관이식장단기관적재혈관화.수체대체장점막、대망막협과공체망공화혹렬극화적기관지가사이식체불재수장도적한제,시실현장단기관재혈관화적관건.
BACKGROUND: Revascularization of trachea following trachea transplantation needs to be solved.OBJECTIVE: To explore the empirical methods of allogeneil graft of long-segment trachea and its revascularization.DESIGN, TIME AND SETTING: The animal observation experiment was performed at the Department of Chest Surgery, Shandong Provincial Chest Hospital between June 2007 and June 2008.MATERIALS: Totally 20 healthy, New Zealand rabbits, were provided by animal center of Medical School of Shandong University. Additional 10 rabbits were used as donors, and 10 rabbits were served as recipients.METHODS: The mucosa and smooth muscle in trachea of donor rabbits was removed, and the anular ligaments were shear opened or intensive drilling to obtain tracheal cartilage scaffold with fissure or mesh. A jejunum with vascular pedicle was harvested from recipient rabbits, which was longer than tracheal cartilage scaffold. The cartilages rings were wrapped with greater omentum. Finally, the constructed simulating trachea was replaced in the abdominal cavity. MAIN OUTCOME MEASURES: Growth of retina and tracheal cartilage.RESULTS: Abdominal cavity of recipient rabbit was opened after 2 weeks, and it was observed with gross observation and pathological section: There was no collapse in the lumens of tracheal allografts with good elasticity tracheal wall. The blood of omentum and intestinalmucosa that wrapped tracheal allograft was circulating well; and there was no cellular necrosis and merging in xenogenic cartilagines tracheales. CONCLUSION: The study fulfilled the stage one reconstruction and revascularization of tracheal allograft in abdominal cavity of recipient. Stenopeic tracheal stand wrapped with pedicled omentum and intestinalmucosa of recipient made allograft not restricted by length, which is critical to revascularization of long-segment trachea.