扩髓对兔长骨髓腔内成骨过程影响的实验研究
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摘要
目的
促进骨折愈合、减少并发症一直是骨科研究领域的热点问题。本实验旨在从骨形态计量学等方面阐述骨折扩髓后对髓内成骨过程的影响,评估骨折治疗过程中的再损伤,为临床治疗提供实验参考。
材料与方法
1.健康新西兰大白兔30只,制备双侧桡骨中段3mm骨缺损的骨折模型,为避免骨外膜对观察髓内成骨的影响,去除骨折端两侧各10mm骨外膜。实验按左右侧分为2组,每组30侧前肢。选择右侧作为实验组,进行扩髓处理;左侧为对照组,不扩髓。2.扩髓组,选用直径1.0-1.5mm微型磨钻自骨折端进入分别向桡骨近、远端扩髓;非扩髓组,保留原模型不做其他干预处理。3.分别于骨折后第2、4及8周,取标本进行大体组织观察、影像学观察、骨密度测定、骨痂病理组织学观察。
结果
1.X线摄片:实验侧术后2周骨折端血肿边缘有少许骨痂包绕,骨折间隙清晰;术后4周骨折界面模糊,有部分连接骨痂、封闭骨痂生成,髓腔未通;术后8周骨缺损明显,髓腔未通。对照侧术后2周骨折间隙模糊,有明显骨痂生长;术后4周连续性骨痂通过骨折线,骨痂已经开始塑形改造,髓腔部分开通;术后8周骨折线消失,骨干外形连续,骨髓腔已经基本恢复较规则。X线摄片评分分析表明,实验侧成骨速度明显慢于对照侧(p<0.01)。2.组织学:实验侧术后2周可见少量软骨细胞,成骨细胞数量少,有较多纤维肉芽组织;术后4周尚有软骨组织残留,夹存纤维骨痂,新生骨小梁排列紊乱,破骨细胞偶见,内骨痂少量;术后8周骨小梁排列方向不规则,髓腔未通,骨缺损明显。对照侧术后2周可见大量软骨细胞和纤维细胞,骨表面出现数目较多的成骨细胞,编织骨痂连接;术后4周骨改建已基本完成,并见到骨髓腔部分开通。骨性骨痂连接,大部分编织骨已被改建;术后8周骨髓腔完全开通,髓腔中可见大量髓细胞。3.骨密度:实验侧骨密度((BMD)在术后2, 4, 8周低于对照侧(p<0.01)。
结论
研究显示扩髓后内骨痂形成减少,髓内成骨过程延迟。扩髓对于长骨骨折髓内成骨过程破坏较大,产生的再损伤在临床治疗中应引起重视。
Objective
To promote fracture healing and reduce complication is the hot problem of research in orthopedics surgery .This experiment was to explain the effect of reaming on intramedullary osteogenesis in long bone, and to explore re-injury in fracture management.
Methods
1.Thirty New Zealand rabbits, aged from 3 to 5 months, weighing from 2.5kg to 3.0kg were used for the study. After bilateral radial defect of 3mm long was made, the periosteum of 10mm long near the fracture defect was removed .Forty anterior limbs were divided into two groups. In experimental group ,reaming was made with a drill of 1.0-1.5mm diameter, The control group was an unreaming one. By the end of 2nd,4th and 8th,anatomic observation, X-ray, bone mineral density(BMD),and histological examinations were made.
Result
1.X-ray imaging findings included less callus formation and clear fracture line in the experimental side, but more callus in the control side were found by the end of the 2nd week. Blurring fracture line remaining in the experimental side and disappearance of fracture line and bone union in the control side were found at the end of the 4th week .Bone defect and blocked bone marrow cavity in the experimental side and re-open of bone marrow cavity in the control side were found by the end of the 8th week. These X-ray assessments indicated bone formation in the experimental side were later than that in the control side (p<0.01).
2.Histological findings included granulation tissue which was not completely replaced by fibrous tissue,spanocartilage between fragments of the fracture in the experimental side and active proliferation of osteoblast , fibrous connection, cartilage and newly formed bone trabeculae between fragments of the fracture in the control side by the end of the 2nd week; a lot of cartilage tissue increased woven bone in the experimental side and increased osteoblast, and connection of fractures in the control side by the end of the 4th week; woven bone between fragments of the fracture and defect in the experimental side and excellent remodeling of callus with lamellar bone,rechanellization of bone marrow cavity in the control side by the end of the 8th week.
3.The bone mineral density (BMD) findings included lower- BMD in the experimental side than that in the control side by the end of the 2nd 4th and 8th week and significant difference between both sides (p<0.05).
Conclusions
Internal callus formation was decreased intramedullary osteogenesis after reaming, the re-injury in fracture treatment should be emphasized.
促进骨折愈合、减少并发症一直是骨科研究领域的热点问题。本实验旨在从骨形态计量学等方面阐述骨折扩髓后对髓内成骨过程的影响,评估骨折治疗过程中的再损伤,为临床治疗提供实验参考。
材料与方法
1.健康新西兰大白兔30只,制备双侧桡骨中段3mm骨缺损的骨折模型,为避免骨外膜对观察髓内成骨的影响,去除骨折端两侧各10mm骨外膜。实验按左右侧分为2组,每组30侧前肢。选择右侧作为实验组,进行扩髓处理;左侧为对照组,不扩髓。2.扩髓组,选用直径1.0-1.5mm微型磨钻自骨折端进入分别向桡骨近、远端扩髓;非扩髓组,保留原模型不做其他干预处理。3.分别于骨折后第2、4及8周,取标本进行大体组织观察、影像学观察、骨密度测定、骨痂病理组织学观察。
结果
1.X线摄片:实验侧术后2周骨折端血肿边缘有少许骨痂包绕,骨折间隙清晰;术后4周骨折界面模糊,有部分连接骨痂、封闭骨痂生成,髓腔未通;术后8周骨缺损明显,髓腔未通。对照侧术后2周骨折间隙模糊,有明显骨痂生长;术后4周连续性骨痂通过骨折线,骨痂已经开始塑形改造,髓腔部分开通;术后8周骨折线消失,骨干外形连续,骨髓腔已经基本恢复较规则。X线摄片评分分析表明,实验侧成骨速度明显慢于对照侧(p<0.01)。2.组织学:实验侧术后2周可见少量软骨细胞,成骨细胞数量少,有较多纤维肉芽组织;术后4周尚有软骨组织残留,夹存纤维骨痂,新生骨小梁排列紊乱,破骨细胞偶见,内骨痂少量;术后8周骨小梁排列方向不规则,髓腔未通,骨缺损明显。对照侧术后2周可见大量软骨细胞和纤维细胞,骨表面出现数目较多的成骨细胞,编织骨痂连接;术后4周骨改建已基本完成,并见到骨髓腔部分开通。骨性骨痂连接,大部分编织骨已被改建;术后8周骨髓腔完全开通,髓腔中可见大量髓细胞。3.骨密度:实验侧骨密度((BMD)在术后2, 4, 8周低于对照侧(p<0.01)。
结论
研究显示扩髓后内骨痂形成减少,髓内成骨过程延迟。扩髓对于长骨骨折髓内成骨过程破坏较大,产生的再损伤在临床治疗中应引起重视。
Objective
To promote fracture healing and reduce complication is the hot problem of research in orthopedics surgery .This experiment was to explain the effect of reaming on intramedullary osteogenesis in long bone, and to explore re-injury in fracture management.
Methods
1.Thirty New Zealand rabbits, aged from 3 to 5 months, weighing from 2.5kg to 3.0kg were used for the study. After bilateral radial defect of 3mm long was made, the periosteum of 10mm long near the fracture defect was removed .Forty anterior limbs were divided into two groups. In experimental group ,reaming was made with a drill of 1.0-1.5mm diameter, The control group was an unreaming one. By the end of 2nd,4th and 8th,anatomic observation, X-ray, bone mineral density(BMD),and histological examinations were made.
Result
1.X-ray imaging findings included less callus formation and clear fracture line in the experimental side, but more callus in the control side were found by the end of the 2nd week. Blurring fracture line remaining in the experimental side and disappearance of fracture line and bone union in the control side were found at the end of the 4th week .Bone defect and blocked bone marrow cavity in the experimental side and re-open of bone marrow cavity in the control side were found by the end of the 8th week. These X-ray assessments indicated bone formation in the experimental side were later than that in the control side (p<0.01).
2.Histological findings included granulation tissue which was not completely replaced by fibrous tissue,spanocartilage between fragments of the fracture in the experimental side and active proliferation of osteoblast , fibrous connection, cartilage and newly formed bone trabeculae between fragments of the fracture in the control side by the end of the 2nd week; a lot of cartilage tissue increased woven bone in the experimental side and increased osteoblast, and connection of fractures in the control side by the end of the 4th week; woven bone between fragments of the fracture and defect in the experimental side and excellent remodeling of callus with lamellar bone,rechanellization of bone marrow cavity in the control side by the end of the 8th week.
3.The bone mineral density (BMD) findings included lower- BMD in the experimental side than that in the control side by the end of the 2nd 4th and 8th week and significant difference between both sides (p<0.05).
Conclusions
Internal callus formation was decreased intramedullary osteogenesis after reaming, the re-injury in fracture treatment should be emphasized.
引文
[1]成令忠组织学,第二版人民卫生出版社1997: 325
[2]成令忠组织学,第二版人民卫生出版社1997:327
[3]张明,李世德.骨膜移植修复骨缺损的研究现状.实用骨科杂志,2004,10 (1) : 36-37.
[4] Gray J C,Elves M W.Early osteogenesis in compact bone isograft:A quantita- tive study of the contribution of the different graft cells.Calcif Tissue Int, 1979,29:225.
[5] Frolke JPW,Bakker FC,Patka P,et al Reaming debris in osteotomized sheep tibiae.J Trauma,2001,50:65-70.
[6] Muller CA,Baumgart F,Wabl D,et al. Technical innovation in medullary reaming:reamer design and intramedullary pressure increase.J Trauma, 2000,49:440-445.
[7] Klein M P, Rahn BA , F rigg R, et al. Reaming versus nonreaming inmedullary nailing : interference with cortical circulation of the canine tibia [J]. A rch O rthop T rauma Surg, 1990, 109 (6) : 3142316.
[8] Runkel M,Wenda K,Bitter q et al .Bone healing after unreamed intramed- ullary nailing[J].Unfallchirurg, 1994,97(1): 1-7.
[9] Nakamura T,Roman M,Yokoyama K. Cortical revascularization after reamed and undreamed intramedullary nailing in the rabbit femur: A microangiogr- aphic histometric analysis. J Trauma, 1999,47:744-751.
[10]成令忠,组织学,第二版,人民卫生出版社1997:303-304
[11] Perren SM:The concept of biological plating using the limited contact- -dynamic compression plate (LC-DCP):scientific background,design and application. Injury 1991;22 (suppl 1): 1-4. [12 ]成令忠,组织学,第二版,人民卫生出版社1997:325-327
[13] Chao EYS,Aro HT,Lewallen Dqet al. The effect of rigidity on fracture healing in external fixation .Clip Orthop,I989,241:24
[14]孙庆宇.骨折愈合的力学调节应变速率和刺激时机的选择.创伤骨科论坛,2000,29(2):164-165.
[15] Gerber C,Mast JW,Ganz R,et al.Biological internal fixation of fractures. Arch.Orthop.Trauma Surg.1990,109:29-36.
[16]罗先正,髓内钉的生物力学设计.中华骨科杂志,1997,17 (4) : 272-276
[17] Buttaro Mocetti E, Alfie V, et al. Fat embolism and related erects during reamed unreamed intramedullary nailing in a pig model. J Orthop Trauma, 2002;16(4):239-244
[18] Brinker MR, Cook SD, Dunlap JN, et al. Early changes in nutrient artery blood flow following tibial nailing with and without reaming: a preliminary study. J Orthop 1999 ;13(2):129-133
[19]刘长贵,罗先正,土宗仁等.AO钢板与Groose Kempf带锁髓内钉治疗股骨干骨折的比较.中华骨科杂志,1995,15:739
[20] Grundens. Restoration of bone following fracture and reaming in rat femora [J].Acta Orthop Scand,1994,65(2):185.
[21] Nakamura T, Roman M, Yokoyama K.Cortical revascularization after reamed and undreamed intramedullary nailing in the rabbit femur: A micro- angiographic histometric analysis. J Trauma, 1999,47:744-751.
[22] Reichert ILH, McCarthy ID, Hughes SPE. The acute vascular response to intramedullary reaming[J].J Bone Joint Surg Br, 1995,77(3): 490-493.
[23]Smith RM, Giannoudis PV, Bellamy MC, et al. Interleukin-10 release and monocyte human leukocyte antigen-DR expression during femoral nailing. Clin Orthop, 2000 ;(373):233-240
[24] Kropfl A, Davies J, Berger U, et al. Intramedullary pressure and bone marrow fat extravasation in reamed and unreamed femoral nailing. J Orthop Res,1999,17:261 -268
[25]张毅敏,粱国穗等.扩髓对髓内压和肺部脂肪栓塞的影响.中华骨科杂志,1999,19(8):494--497.
[26] Kropfl A , Berger U , Neureiter H,et al . Intramedullary pressure and bone marrow fat intravasation in unreamed femoral nailing. J Trauma ,1997 , 42 : 946 - 954.
[27]Aoki N ,Soma K, Shindo M, et al . Evaluation of potential fat emboli during placement of intramedullary nails after orthopedic fractures.Chest,1998 , 113:178-181.
[28] Pape HC , Dwenger A , Grotz M, et al . Does the reamer type influence the degree of lung dysfunction after femoral nailing following severe trauma ?J Orthop Trauma , 1994 , 8 :300- 309.
[29] Coles RE,Clements FM,Lardenoye JW,et al.Transesophageal echocard-iogramphy in quantification of emboli during femoral nailing : reamed versus unreamed techniques. J South Orthop Assoc , 2000 , 9 :98 - 104.
[30] Wozasek GE,Simon P,Redl H,et al . Pulmonary reaction during intrame- dullary fracture management in traumatic shock : an experimental study. J Trauma,1994 , 36 : 202 -207.
[31] Giannoudis PV,Smith RM,Bellamy MC,et al. Stimulation of the inflammatory system by reamed and unreamed nailing of femoral fractures. An analysis of the second hit. J Bone Joint Surg Br, 1999 ;81(2):356-361
[32] Giannoudis PV,Snowden S,Matthews SJ,et al. Temperature rise during reamed tibial nailing.Clin Orthop,2002 ;(395):255-261
[33] Ochsner PE, Baumgart F, Kohler G. Heat-induced segm necrosis after reaming of one humeral and two tibial fractures with a narrow medullary canal. Injury,1998;29 (Suppl 2):B1-10
[34] Lane JM, Sandhu HS. Current approaches to experimental bone grafting. Orthop Clin North Am,1987,18(2):213-225
[35] Tiedeman JJ, Lippiello L, Connolly JF et al. Quantitative roentgenographic densitometry for assessing fracture healin. Clin Orthop,1990, 253(4): 279
[1]V,Santavirtas ,Alhopuros,et al . Periosteal and porchondral and perchondral gratting in reconstructive surgery. Clin orthop, 1994, 302: 259~265.
[2]成令忠,主编,组织学,第2版,人民卫生出版社1993,303-304
[3] Ellender GKFeik SA KCarach BJ. Perio steal structure and development in a rat caudal vertebra. J A natK1988,158-173.
[4] Feik SA KSto rey EKEllender G. Stress induced perio steal changes. Br J Exp PathK 1987, 68-80.
[5]成令忠,主编.组织学.第2版.人民卫生出版社,1993,287.
[6] LSquier CA KGhoneim SKKremenak CR. U ltrastructure of the perio steum from membrane bone. J A nat;1990,171;33.
[7] Murakami HKEmeryMA. The role of elastic fibers in the periosteum in fracture healing in guinea- pigs. I. H isto-Chemical studies of the elasticfibres in the perio steum and the possible relationship between the osteogenic cells and the cells that form elastic fibers. Can J Surg; 1967; 10:357.
[8] Tonna EA. Electron microscopy of aging skeletal cells .?. The periosteum. Lab Invest, 1974, 31:609.
[9] Chong DA KEvans CA KHeeley JD. Morphology and maturation of the periosteum of the rat mandible. Archs Orhs Oral Biol; 1982; 27: 777.
[10]姚作宾,任国良.骨膜的血供及其临床意义.中国临床解剖学杂志,1991,9 (2):129
[11] Rhinelander FW normal microcirculation of diaphyseal cortex and its response to fractur.J Bone Joint Surg (Am) 1968;50;784 Trias A,et al. Cortical circulation of long bones.J Bone Joint Surg(Am) 1979;61:1052
[12] Williams SM, Mclarthy ID. Distributed model of blood-bone exchange.J Biomed Eng,1986,8 :235
[13] Williams PLKWarwick RKDysonM Ket al. Gray’sA nato2my. 37ed. LondonPL ivingstoneK 1989: 299.
[14] Diaz-Flores LKGutierrez RKLopez-A lonso A Ket al. Pericytes as a supp lementary source of o steoblasts in perio steal osteogenesis. Clin Orthop; 1992; 275-280.
[15] GronbladM KLiesi PKKo rkala OKet al. Innervation of human bone perio steum by pep tidergic nerves. A nat Rec;1984; 209- 297.
[16] Hohmann EL KElde RPKRysavy JA Ket al. Innervation of perio steum and bone by sympathetic vasoactive intestinal pep tide- containing nerve fibers. Science;1986;232:868.
[17] Yeung HY, Lee KM, Fung KP, et al.Sustained expression of ansforming growth factor-betal by distraction during distraction osteogenesis. Life Sci, 2002,71(1):67-79
[18]张明等,骨膜移植修复骨缺损的研究现状.实用骨科杂志,2004,10 (1): 36-37.
[19]季鸣等,对实验性骨折愈合的影响—超微结构研究,中华骨科杂志, 1994,14(8):498-499.
[20]韩慧等.中西医结合治疗骨折的微循环研究.中国中西医结合外科杂志,1996,2(4):219.
[21] O’Driscoll SW, Fitzsimmons JS. The role of periosteum in cartilage repa- ir[J] 1Clin Orthop Relat Res, 2001, 190 - 207
[22] Zimmermann G, Henle P , Kusswet ter M, et al . TGF2beta 1 as a marker of delayed fracture healing [J] . Bone,2005,36 :779-785
[23] Hymes RO. Integrins: versatility modulation and signaling in cell adhesion. Cell, 1992, 69 (I): 11-25.
[24] Nesti LJ, Caterson EJ, Wang M, Chang R, Chapovsky F, Hoek JB, Tuan RS. TGF-betal stimulated osteoblasts require intracellular calcium signaling for enhanced alphas integrin expression.Ann N Y Acad Sci,2002,961(1): 178-182
[25] Ritsila VA,Santavirta S,Alhopuro S,et al. Perio steal and perichondral grafting in reconstructive surgery. Clin O rthop,1994;302: 259
[26]张庆民等,中华物理医学与康复杂志2000 , 22 ( 3 )189-190.
[27] Shaw JL ,Bassett CAL1The effect of varying oxygen concentrations on osteogenesis and embryonic cartilage in vitro1 J Bone Joint Surg (Am), 1967 ,49 (1) :73.
[28] Brighton CT ,Krebs AG1 Oxygen tension of healing fractures in the rabbit1 J Bone Joint Surg(Am) ,1972 ,54 (2) :323.
[29]程迅生等,大鼠后肢短暂缺血后胫骨骨膜变化的组织学观察,中国骨伤, 2000,13(7):393-397.
[30] TONNA E A. Cellular respone to fracture studied with tritiated thymi-dine[J] . J Bone Joint Surg(Am) ,1961 ,43 :352.
[31] O,Driscoll SW.technical consideration in periosteal grafting for osteochon- dral injuries.Clin Sports Med,2001,20(2) : 379~402.
[32]邢更彦等,体外冲击波对骨膜组织骨不连及骨折延迟愈合的影响,中华理疗杂志1998 ,21(6)331- 333.
[33]张超等动态力学信号对人骨髓基质细胞、骨膜细胞生长和成骨表达的作用生物医学工程与临床2006 ,10(1) , 1-4
[34]蔡林.静脉血营养骨移植实验研究[J].中国修复重建外科杂志,1991,5:98.
[35]唐逸文等物理刺激对骨膜软骨生成的影响中华骨科杂志2006 10 903-907.
[36] Janssen Lwin. Electric stimulation of bone growth and repaie. Itead. New Yourk :Springer - Verlag Berlin heidelbereg ,1987.
[37]贝抗胜等,长管状骨再生骨膜形态学和成骨能力的实验研究,广东医学,1999,20 (7),487 -489.
[38]邢更彦等,解除干骺端骨膜张力促进长骨纵向生长的实验研究,中华小儿外科杂志,1992 (4) :229.
[39] Dimitriou CG. The effects of partial periosteal division on growth of the long bones. An experiment in rabbits. Clin Orthop , 1988 ,236 :256.
[40]镇万新等,干骺端骨膜环切对长骨生长的影响,中国矫形外科杂志,2000,7 (10) :982-982
[41]曾晓峰等,不同范围的骨膜剥离对股骨干骨折愈合的影响,医学研究生学报2002 ,15 (3) :258-260.
[42]邹锋等,骨膜牵张成骨的实验研究,口腔医学2004,24(12):108-110.
[43]周建明等,兔胫骨干骺端截骨延长术骨膜成骨作用的实验研究,第三军医大学学报1993,15(5):418-421
[44]丁文元等,自体游离骨膜再造膝关节半月板的实验研究,中华骨科杂志,1998 ,18 (9) :547-531.
[45]张展翅,自体骨膜包裹肌腿对腿骨愈合影响的研究,中国知网,博硕士论文库,河北医科大学硕士研究生毕业论文,2006-3 1-3.
[46]李卫国等,自体骨膜游离移植的实验研究—不同龄动物大块关节软骨缺损修复的比较,中华创伤骨科杂志,2005,7(9):852-855.
[47]刘希云,冷冻异种骨膜引导骨组织的再生[J ].中国组织工程研究与临床康复, 2007, 11(10):1969-1971.
[48]张忠信,刘兰秀自体骨膜移植促进骨折愈合的疗效观察,中国骨伤2005 ,18 ,18 (2 ):117 .
[49]万小龙,古明辉,骨膜游离移植治疗骨折不愈合的临床应用,中国矫形外科杂志,2002,9(2)204-205.
[50] Snellman O,Osteman K,R itsila V. Sp inal fusion of idiopathic scoliosis with free perio steal grafts, a p relim inary repo rt [J ].A cta O rthop Scand, 1997,48: 339- 341
[51] R itsila V,Santavirta S,A lhopuro S,et al. Perio steal and perchondral grafting in reconstructive surgery [J]. Clin Orthop, 1994, 302: 259- 265.
[52]杨广明,张伯勋.自体骨膜移植的临床应用[J].中国修复重建外科杂志,2003,17 (3) :1971
[53] Aitasalo K, Grenman R, Viro lainen E, et al. Amodified protocol to treat early osteo radionecrosis of the mandible[J ].U ndersea HyperbM ed, 1995, 22 (2) :161- 170
[54]万克林,周长友,自体骨膜移植治疗颌骨囊肿的临床观察,口腔医学研究,2006,22(1):81-82.
[55] Dingeldein SA…//Ann Ophthalmol 1990,22(2).56-57
[56]王宏训,朱盛修,乔健,骨膜成骨细胞分离培养及其BMP -2cDNA基因转染的初步研究,中华显微外科杂志,1996,19 :273.
[57]张明等,自体骨泥混入骨膜碎片植骨与单纯自体骨泥植骨修复骨缺损的效果对比实验,中国临床康复,2005,9 (30) :1879-1882.
[58]李亚屏等,关节镜下髓芯减压骨膜骨颗粒移植治疗股骨头坏死,中国骨与关节损伤杂志2007 ,22 (11):902-904.
[59]邵新中等,自体骨膜包裹肌腱、松质骨匀浆复合体作为月骨替代物的临床应用,河北医药2003 ,25 (2) :101-102.
[60] Turhani D, Watzinger E, Weissenbock M,et al.Analysis of cell - seeded 3 - dimensional bone constructs manufactured in vitro with hydroxyapatite granules obtained from red algae,J Oral Maxillofac Surg,2005,63(5):73- 81.
[61] Kurashina K, Kurita H , Takeuchi H , et al. Osteogenesis in muscle with composite graft of hydroxyapatite and autogenous calvarial periosteum:a preliminary report . Biomaterials , 1995 , 16 :119-123.
[62]袁志等,复合rhBMP2的异种骨(rhBMP2/ BCB)与骨膜联合移植修复兔桡骨节段性骨缺损,中华骨科杂志,1999 ,19 (9):557-561 .
[63]李建军等,基因修饰的组织工程骨联合带血管蒂骨膜移植修复长段骨缺损的研究,中华整形外科杂志,2007,23 (6):502-506.
[64]邹国耀,江峰等,自体游离骨膜骨髓自固化磷酸钙复合移植治疗节段性骨缺损的实验研究广西医科大学学报,2003,20 (1) 64-65
[65]谭金海,带血供骨膜包裹骨形态发生蛋白联合修复四肢骨缺损的实验研究,中华显微外科杂志,2003 ,26 (14):287-288.
[66]张聪等,自体骨膜一双相多孔生物活性陶瓷复合肌内植入的生物力学和成骨活性研究,西南国防医药,2003,13 (1):14-17
[67]邹国耀,李振荣,,游离骨膜骨髓磷酸钙复合移植应用于膜引导性骨再生的实验研究,中国临床康复,2004,8(26):5521-5523.
[68]吴克俭,侯树勋,张伟佳,等.带血管蒂骼骨瓣移植修复下肢骨及其周围软组织缺损[J].中华外科杂志,2005 ,43(12) :784 - 787
[69]赵德伟,崔旭,孙强.带血管蒂骨膜、骨瓣移植和血管束植入修复骨缺损的实验研究[J].中华骨科杂志,1999 ,19(5) :299 - 302.
[70]刘建寅等,异体骨膜移植成骨能力的研究,中华骨科杂志,1994.14(5):487-488.
[71]许永涛等.深低温保存的同种异体骨膜与胎骨联合移植的实验研究.中国修复重建外科杂志,2001,15(3):183-187·
[72]肖目张,黄晓元,带血管骨膜瓣移植修复烧伤坏死管状骨的实验研究,中华烧伤杂志,2003,19 (6):329 -331·
[73]朱盛修,股骨头缺血性坏死的显微外科治疗进展[J],中华显微外科杂志, 2000, 23:245.
[74]张峰.带血供骨膜瓣包裹同种异体骨修复骨缺损的实验研究[J].咸阳学院学报(医学版), 2005, 19:287.
[75]陈振光.带血管蒂骨及骨膜瓣移位修复肱骨不连和骨缺损的现状[J].中华显微外科杂志, 2006, 29:163.
[76]陈振光.腓浅血管筋膜蒂胫腓骨膜瓣转位术[J].中华显微外科杂志,1996,19:107.
[77]曹正品等,带桡动脉返支茎突骨膜骨瓣植入治疗舟状骨骨折不愈合,中医正骨,2007 ,19 (11):17 -18.
[78]钟广铃,左中男,异体骨移植带骨膜的复合皮瓣修复前足骨和皮肤缺损,中华显微外科杂志,2001,24 (1):28-29.
[79]苑振峰等,腓骨骨膜瓣翻转解剖学重建踝关节外侧韧带,中国矫形外科杂志2007,1 5(18):1421-1422.
[80]钱林荣耳甲腔成形及耳后带蒂颞肌骨膜瓣对乳突根治术疗效的影响代中西医结合杂志2008,17 (8) :1165-1166.
[81]温湘玲等中华耳鼻咽喉头颈外科杂志,2006,41(1)1:68
[82]靖永军等下鼻甲黏骨膜瓣在腭裂修复中的应用,中华整形外科杂志,2006 ,22(1):52-53.
[83]白秀清,耳后肌骨膜瓣在开放式中耳乳突手术中的应用,听力学及言语疾病杂志,2008,16 (3)238-239.
[84]杨柏球等,带蒂骨-骨膜肌瓣鼻腔粘骨膜下植入术治疗萎缩性鼻炎,中国现代医学杂志,2003 ,13(7):76-77.
[85]孟纯阳等带蒂骨膜包裹脱蛋白骨、血管内皮细胞生长因子复合体修复关节端缺损的实验研究,中华创伤杂志, 2003,19 (7): 413-416.
[86] Vancanti CA,Upton J.Tissue- engineered morphogenesis of cartilage and bone by means of cell transplantation using synthetic biodegradable polymer matrices.Clin Plast Surg,1994, 21(3):445- 62
[87] Reinhard G,Christind M , Klaus B ,et al. Effects of cartilage-derived morphogenetic proteins and osteogenic protein21 on osteochondro-genic differentiation of periosteum2derivedcells [J] . Endocrinology ,2001 ,142 (5) :2087~2094.
[88] Takushima A,Kitano Y,Harii K. Osteogenic potential of cultured periosteal cells in a distracted bone gap in rabbits.J Sur Res,1998,78 (1):68- 77.
[89] Akihiko T,Yukie K, Kiyonori H,et al. Osteogeneic potential of cul-tured periosteal cells in a distracted bone gap in rabbits[J].Sur Res,1998,78 (1):68-77.
[90]孙庆仲等,自体骨膜细胞及红骨髓经皮注射修复骨缺损的实验研究,中国现代医学杂志,2002,12 (12):25-27.
[91] Sakata Y,Ueno T,Kaqawa,et al.Osteogenic potential of cultured human periosteum- derived cells - A pilot study of human cell transplantation into rat calvarial defect model.J Craniomaxillofac Surg,2006,34(8):461-5
[92]吴强等,膜细胞联合BMP成骨作用的实验研究,中国医师杂志,2005, 7(10):1345-1347
[93] Groger A, Klaring S, Merten HA, et al. Tissue engineering of bone for mandibular augmentation in immunocompetent minipigs: preliminary study. Scand J Plast Reconstr Surg Hand Surg, 2003,37(3):129- 33
[94] Mizuno H,Hata k,Kojima K,et al.A novel approach to regenerating periodontal tissue by grafting autologous cultured periosteum.Tissue Eng, 2006,12(5):1227- 335
[95]张超等,重组人骨形成蛋白2诱导的骨膜细胞构建组织工程骨的实验研究,中国修复重建外科杂志2005 ,19 (2):100-104.
[96]刘建平,贝抗胜等,人骨膜细胞体外培养的实验,中国临床康复, [J] 2005,9(34) 48-9.
[97]贝抗胜,李康华等,人骨膜细胞体外培养的实验研究与临床应用,中国矫形外科杂志,2004,12(17):1329-1331.
[98]宋守礼,朱盛修,孙翠萍等.骨膜细胞移植修复股骨头缺血性坏死的实验研究[J] .中华医学杂志,1998,78 (1) :52~54.
[99]刘建平,贝抗胜,吴强,等.人骨膜细胞体外培养移植治疗骨不连.国际医药卫生导报, 2005, 11( 20) :8-9.
[100]徐栋梁,李佛保,符气祯.骨膜间质干细胞移植后成骨能力及成骨起源的研究中国修复重建外科杂志,1999,13:133 - 136
[101]张开刚等.骨髓基质干细胞复合小肠黏膜下层体外构建组织工程骨膜的实验研究.中华外科杂志,2005, 43(24):1594-1597.
[102]郭洪刚等,携载人重组骨形态形成蛋白2及脂肪基质细胞的仿生骨膜构建及强化兔桡骨的再生能力,中国组织工程研究与临床康复,2007,11(48):9734-9738
[103]赵琳等,组织工程骨膜异体体内成骨修复兔骨缺损的初步观察,中国修复重建外科杂志,2008,22(2)1:45-147.
[104]祁洁等,骨细胞Cbfa1和O ster ix基因在体外构建组织工程骨膜中的表达,中国修复重建外科杂志,2006 ,20(6):666-669.
[2]成令忠组织学,第二版人民卫生出版社1997:327
[3]张明,李世德.骨膜移植修复骨缺损的研究现状.实用骨科杂志,2004,10 (1) : 36-37.
[4] Gray J C,Elves M W.Early osteogenesis in compact bone isograft:A quantita- tive study of the contribution of the different graft cells.Calcif Tissue Int, 1979,29:225.
[5] Frolke JPW,Bakker FC,Patka P,et al Reaming debris in osteotomized sheep tibiae.J Trauma,2001,50:65-70.
[6] Muller CA,Baumgart F,Wabl D,et al. Technical innovation in medullary reaming:reamer design and intramedullary pressure increase.J Trauma, 2000,49:440-445.
[7] Klein M P, Rahn BA , F rigg R, et al. Reaming versus nonreaming inmedullary nailing : interference with cortical circulation of the canine tibia [J]. A rch O rthop T rauma Surg, 1990, 109 (6) : 3142316.
[8] Runkel M,Wenda K,Bitter q et al .Bone healing after unreamed intramed- ullary nailing[J].Unfallchirurg, 1994,97(1): 1-7.
[9] Nakamura T,Roman M,Yokoyama K. Cortical revascularization after reamed and undreamed intramedullary nailing in the rabbit femur: A microangiogr- aphic histometric analysis. J Trauma, 1999,47:744-751.
[10]成令忠,组织学,第二版,人民卫生出版社1997:303-304
[11] Perren SM:The concept of biological plating using the limited contact- -dynamic compression plate (LC-DCP):scientific background,design and application. Injury 1991;22 (suppl 1): 1-4. [12 ]成令忠,组织学,第二版,人民卫生出版社1997:325-327
[13] Chao EYS,Aro HT,Lewallen Dqet al. The effect of rigidity on fracture healing in external fixation .Clip Orthop,I989,241:24
[14]孙庆宇.骨折愈合的力学调节应变速率和刺激时机的选择.创伤骨科论坛,2000,29(2):164-165.
[15] Gerber C,Mast JW,Ganz R,et al.Biological internal fixation of fractures. Arch.Orthop.Trauma Surg.1990,109:29-36.
[16]罗先正,髓内钉的生物力学设计.中华骨科杂志,1997,17 (4) : 272-276
[17] Buttaro Mocetti E, Alfie V, et al. Fat embolism and related erects during reamed unreamed intramedullary nailing in a pig model. J Orthop Trauma, 2002;16(4):239-244
[18] Brinker MR, Cook SD, Dunlap JN, et al. Early changes in nutrient artery blood flow following tibial nailing with and without reaming: a preliminary study. J Orthop 1999 ;13(2):129-133
[19]刘长贵,罗先正,土宗仁等.AO钢板与Groose Kempf带锁髓内钉治疗股骨干骨折的比较.中华骨科杂志,1995,15:739
[20] Grundens. Restoration of bone following fracture and reaming in rat femora [J].Acta Orthop Scand,1994,65(2):185.
[21] Nakamura T, Roman M, Yokoyama K.Cortical revascularization after reamed and undreamed intramedullary nailing in the rabbit femur: A micro- angiographic histometric analysis. J Trauma, 1999,47:744-751.
[22] Reichert ILH, McCarthy ID, Hughes SPE. The acute vascular response to intramedullary reaming[J].J Bone Joint Surg Br, 1995,77(3): 490-493.
[23]Smith RM, Giannoudis PV, Bellamy MC, et al. Interleukin-10 release and monocyte human leukocyte antigen-DR expression during femoral nailing. Clin Orthop, 2000 ;(373):233-240
[24] Kropfl A, Davies J, Berger U, et al. Intramedullary pressure and bone marrow fat extravasation in reamed and unreamed femoral nailing. J Orthop Res,1999,17:261 -268
[25]张毅敏,粱国穗等.扩髓对髓内压和肺部脂肪栓塞的影响.中华骨科杂志,1999,19(8):494--497.
[26] Kropfl A , Berger U , Neureiter H,et al . Intramedullary pressure and bone marrow fat intravasation in unreamed femoral nailing. J Trauma ,1997 , 42 : 946 - 954.
[27]Aoki N ,Soma K, Shindo M, et al . Evaluation of potential fat emboli during placement of intramedullary nails after orthopedic fractures.Chest,1998 , 113:178-181.
[28] Pape HC , Dwenger A , Grotz M, et al . Does the reamer type influence the degree of lung dysfunction after femoral nailing following severe trauma ?J Orthop Trauma , 1994 , 8 :300- 309.
[29] Coles RE,Clements FM,Lardenoye JW,et al.Transesophageal echocard-iogramphy in quantification of emboli during femoral nailing : reamed versus unreamed techniques. J South Orthop Assoc , 2000 , 9 :98 - 104.
[30] Wozasek GE,Simon P,Redl H,et al . Pulmonary reaction during intrame- dullary fracture management in traumatic shock : an experimental study. J Trauma,1994 , 36 : 202 -207.
[31] Giannoudis PV,Smith RM,Bellamy MC,et al. Stimulation of the inflammatory system by reamed and unreamed nailing of femoral fractures. An analysis of the second hit. J Bone Joint Surg Br, 1999 ;81(2):356-361
[32] Giannoudis PV,Snowden S,Matthews SJ,et al. Temperature rise during reamed tibial nailing.Clin Orthop,2002 ;(395):255-261
[33] Ochsner PE, Baumgart F, Kohler G. Heat-induced segm necrosis after reaming of one humeral and two tibial fractures with a narrow medullary canal. Injury,1998;29 (Suppl 2):B1-10
[34] Lane JM, Sandhu HS. Current approaches to experimental bone grafting. Orthop Clin North Am,1987,18(2):213-225
[35] Tiedeman JJ, Lippiello L, Connolly JF et al. Quantitative roentgenographic densitometry for assessing fracture healin. Clin Orthop,1990, 253(4): 279
[1]V,Santavirtas ,Alhopuros,et al . Periosteal and porchondral and perchondral gratting in reconstructive surgery. Clin orthop, 1994, 302: 259~265.
[2]成令忠,主编,组织学,第2版,人民卫生出版社1993,303-304
[3] Ellender GKFeik SA KCarach BJ. Perio steal structure and development in a rat caudal vertebra. J A natK1988,158-173.
[4] Feik SA KSto rey EKEllender G. Stress induced perio steal changes. Br J Exp PathK 1987, 68-80.
[5]成令忠,主编.组织学.第2版.人民卫生出版社,1993,287.
[6] LSquier CA KGhoneim SKKremenak CR. U ltrastructure of the perio steum from membrane bone. J A nat;1990,171;33.
[7] Murakami HKEmeryMA. The role of elastic fibers in the periosteum in fracture healing in guinea- pigs. I. H isto-Chemical studies of the elasticfibres in the perio steum and the possible relationship between the osteogenic cells and the cells that form elastic fibers. Can J Surg; 1967; 10:357.
[8] Tonna EA. Electron microscopy of aging skeletal cells .?. The periosteum. Lab Invest, 1974, 31:609.
[9] Chong DA KEvans CA KHeeley JD. Morphology and maturation of the periosteum of the rat mandible. Archs Orhs Oral Biol; 1982; 27: 777.
[10]姚作宾,任国良.骨膜的血供及其临床意义.中国临床解剖学杂志,1991,9 (2):129
[11] Rhinelander FW normal microcirculation of diaphyseal cortex and its response to fractur.J Bone Joint Surg (Am) 1968;50;784 Trias A,et al. Cortical circulation of long bones.J Bone Joint Surg(Am) 1979;61:1052
[12] Williams SM, Mclarthy ID. Distributed model of blood-bone exchange.J Biomed Eng,1986,8 :235
[13] Williams PLKWarwick RKDysonM Ket al. Gray’sA nato2my. 37ed. LondonPL ivingstoneK 1989: 299.
[14] Diaz-Flores LKGutierrez RKLopez-A lonso A Ket al. Pericytes as a supp lementary source of o steoblasts in perio steal osteogenesis. Clin Orthop; 1992; 275-280.
[15] GronbladM KLiesi PKKo rkala OKet al. Innervation of human bone perio steum by pep tidergic nerves. A nat Rec;1984; 209- 297.
[16] Hohmann EL KElde RPKRysavy JA Ket al. Innervation of perio steum and bone by sympathetic vasoactive intestinal pep tide- containing nerve fibers. Science;1986;232:868.
[17] Yeung HY, Lee KM, Fung KP, et al.Sustained expression of ansforming growth factor-betal by distraction during distraction osteogenesis. Life Sci, 2002,71(1):67-79
[18]张明等,骨膜移植修复骨缺损的研究现状.实用骨科杂志,2004,10 (1): 36-37.
[19]季鸣等,对实验性骨折愈合的影响—超微结构研究,中华骨科杂志, 1994,14(8):498-499.
[20]韩慧等.中西医结合治疗骨折的微循环研究.中国中西医结合外科杂志,1996,2(4):219.
[21] O’Driscoll SW, Fitzsimmons JS. The role of periosteum in cartilage repa- ir[J] 1Clin Orthop Relat Res, 2001, 190 - 207
[22] Zimmermann G, Henle P , Kusswet ter M, et al . TGF2beta 1 as a marker of delayed fracture healing [J] . Bone,2005,36 :779-785
[23] Hymes RO. Integrins: versatility modulation and signaling in cell adhesion. Cell, 1992, 69 (I): 11-25.
[24] Nesti LJ, Caterson EJ, Wang M, Chang R, Chapovsky F, Hoek JB, Tuan RS. TGF-betal stimulated osteoblasts require intracellular calcium signaling for enhanced alphas integrin expression.Ann N Y Acad Sci,2002,961(1): 178-182
[25] Ritsila VA,Santavirta S,Alhopuro S,et al. Perio steal and perichondral grafting in reconstructive surgery. Clin O rthop,1994;302: 259
[26]张庆民等,中华物理医学与康复杂志2000 , 22 ( 3 )189-190.
[27] Shaw JL ,Bassett CAL1The effect of varying oxygen concentrations on osteogenesis and embryonic cartilage in vitro1 J Bone Joint Surg (Am), 1967 ,49 (1) :73.
[28] Brighton CT ,Krebs AG1 Oxygen tension of healing fractures in the rabbit1 J Bone Joint Surg(Am) ,1972 ,54 (2) :323.
[29]程迅生等,大鼠后肢短暂缺血后胫骨骨膜变化的组织学观察,中国骨伤, 2000,13(7):393-397.
[30] TONNA E A. Cellular respone to fracture studied with tritiated thymi-dine[J] . J Bone Joint Surg(Am) ,1961 ,43 :352.
[31] O,Driscoll SW.technical consideration in periosteal grafting for osteochon- dral injuries.Clin Sports Med,2001,20(2) : 379~402.
[32]邢更彦等,体外冲击波对骨膜组织骨不连及骨折延迟愈合的影响,中华理疗杂志1998 ,21(6)331- 333.
[33]张超等动态力学信号对人骨髓基质细胞、骨膜细胞生长和成骨表达的作用生物医学工程与临床2006 ,10(1) , 1-4
[34]蔡林.静脉血营养骨移植实验研究[J].中国修复重建外科杂志,1991,5:98.
[35]唐逸文等物理刺激对骨膜软骨生成的影响中华骨科杂志2006 10 903-907.
[36] Janssen Lwin. Electric stimulation of bone growth and repaie. Itead. New Yourk :Springer - Verlag Berlin heidelbereg ,1987.
[37]贝抗胜等,长管状骨再生骨膜形态学和成骨能力的实验研究,广东医学,1999,20 (7),487 -489.
[38]邢更彦等,解除干骺端骨膜张力促进长骨纵向生长的实验研究,中华小儿外科杂志,1992 (4) :229.
[39] Dimitriou CG. The effects of partial periosteal division on growth of the long bones. An experiment in rabbits. Clin Orthop , 1988 ,236 :256.
[40]镇万新等,干骺端骨膜环切对长骨生长的影响,中国矫形外科杂志,2000,7 (10) :982-982
[41]曾晓峰等,不同范围的骨膜剥离对股骨干骨折愈合的影响,医学研究生学报2002 ,15 (3) :258-260.
[42]邹锋等,骨膜牵张成骨的实验研究,口腔医学2004,24(12):108-110.
[43]周建明等,兔胫骨干骺端截骨延长术骨膜成骨作用的实验研究,第三军医大学学报1993,15(5):418-421
[44]丁文元等,自体游离骨膜再造膝关节半月板的实验研究,中华骨科杂志,1998 ,18 (9) :547-531.
[45]张展翅,自体骨膜包裹肌腿对腿骨愈合影响的研究,中国知网,博硕士论文库,河北医科大学硕士研究生毕业论文,2006-3 1-3.
[46]李卫国等,自体骨膜游离移植的实验研究—不同龄动物大块关节软骨缺损修复的比较,中华创伤骨科杂志,2005,7(9):852-855.
[47]刘希云,冷冻异种骨膜引导骨组织的再生[J ].中国组织工程研究与临床康复, 2007, 11(10):1969-1971.
[48]张忠信,刘兰秀自体骨膜移植促进骨折愈合的疗效观察,中国骨伤2005 ,18 ,18 (2 ):117 .
[49]万小龙,古明辉,骨膜游离移植治疗骨折不愈合的临床应用,中国矫形外科杂志,2002,9(2)204-205.
[50] Snellman O,Osteman K,R itsila V. Sp inal fusion of idiopathic scoliosis with free perio steal grafts, a p relim inary repo rt [J ].A cta O rthop Scand, 1997,48: 339- 341
[51] R itsila V,Santavirta S,A lhopuro S,et al. Perio steal and perchondral grafting in reconstructive surgery [J]. Clin Orthop, 1994, 302: 259- 265.
[52]杨广明,张伯勋.自体骨膜移植的临床应用[J].中国修复重建外科杂志,2003,17 (3) :1971
[53] Aitasalo K, Grenman R, Viro lainen E, et al. Amodified protocol to treat early osteo radionecrosis of the mandible[J ].U ndersea HyperbM ed, 1995, 22 (2) :161- 170
[54]万克林,周长友,自体骨膜移植治疗颌骨囊肿的临床观察,口腔医学研究,2006,22(1):81-82.
[55] Dingeldein SA…//Ann Ophthalmol 1990,22(2).56-57
[56]王宏训,朱盛修,乔健,骨膜成骨细胞分离培养及其BMP -2cDNA基因转染的初步研究,中华显微外科杂志,1996,19 :273.
[57]张明等,自体骨泥混入骨膜碎片植骨与单纯自体骨泥植骨修复骨缺损的效果对比实验,中国临床康复,2005,9 (30) :1879-1882.
[58]李亚屏等,关节镜下髓芯减压骨膜骨颗粒移植治疗股骨头坏死,中国骨与关节损伤杂志2007 ,22 (11):902-904.
[59]邵新中等,自体骨膜包裹肌腱、松质骨匀浆复合体作为月骨替代物的临床应用,河北医药2003 ,25 (2) :101-102.
[60] Turhani D, Watzinger E, Weissenbock M,et al.Analysis of cell - seeded 3 - dimensional bone constructs manufactured in vitro with hydroxyapatite granules obtained from red algae,J Oral Maxillofac Surg,2005,63(5):73- 81.
[61] Kurashina K, Kurita H , Takeuchi H , et al. Osteogenesis in muscle with composite graft of hydroxyapatite and autogenous calvarial periosteum:a preliminary report . Biomaterials , 1995 , 16 :119-123.
[62]袁志等,复合rhBMP2的异种骨(rhBMP2/ BCB)与骨膜联合移植修复兔桡骨节段性骨缺损,中华骨科杂志,1999 ,19 (9):557-561 .
[63]李建军等,基因修饰的组织工程骨联合带血管蒂骨膜移植修复长段骨缺损的研究,中华整形外科杂志,2007,23 (6):502-506.
[64]邹国耀,江峰等,自体游离骨膜骨髓自固化磷酸钙复合移植治疗节段性骨缺损的实验研究广西医科大学学报,2003,20 (1) 64-65
[65]谭金海,带血供骨膜包裹骨形态发生蛋白联合修复四肢骨缺损的实验研究,中华显微外科杂志,2003 ,26 (14):287-288.
[66]张聪等,自体骨膜一双相多孔生物活性陶瓷复合肌内植入的生物力学和成骨活性研究,西南国防医药,2003,13 (1):14-17
[67]邹国耀,李振荣,,游离骨膜骨髓磷酸钙复合移植应用于膜引导性骨再生的实验研究,中国临床康复,2004,8(26):5521-5523.
[68]吴克俭,侯树勋,张伟佳,等.带血管蒂骼骨瓣移植修复下肢骨及其周围软组织缺损[J].中华外科杂志,2005 ,43(12) :784 - 787
[69]赵德伟,崔旭,孙强.带血管蒂骨膜、骨瓣移植和血管束植入修复骨缺损的实验研究[J].中华骨科杂志,1999 ,19(5) :299 - 302.
[70]刘建寅等,异体骨膜移植成骨能力的研究,中华骨科杂志,1994.14(5):487-488.
[71]许永涛等.深低温保存的同种异体骨膜与胎骨联合移植的实验研究.中国修复重建外科杂志,2001,15(3):183-187·
[72]肖目张,黄晓元,带血管骨膜瓣移植修复烧伤坏死管状骨的实验研究,中华烧伤杂志,2003,19 (6):329 -331·
[73]朱盛修,股骨头缺血性坏死的显微外科治疗进展[J],中华显微外科杂志, 2000, 23:245.
[74]张峰.带血供骨膜瓣包裹同种异体骨修复骨缺损的实验研究[J].咸阳学院学报(医学版), 2005, 19:287.
[75]陈振光.带血管蒂骨及骨膜瓣移位修复肱骨不连和骨缺损的现状[J].中华显微外科杂志, 2006, 29:163.
[76]陈振光.腓浅血管筋膜蒂胫腓骨膜瓣转位术[J].中华显微外科杂志,1996,19:107.
[77]曹正品等,带桡动脉返支茎突骨膜骨瓣植入治疗舟状骨骨折不愈合,中医正骨,2007 ,19 (11):17 -18.
[78]钟广铃,左中男,异体骨移植带骨膜的复合皮瓣修复前足骨和皮肤缺损,中华显微外科杂志,2001,24 (1):28-29.
[79]苑振峰等,腓骨骨膜瓣翻转解剖学重建踝关节外侧韧带,中国矫形外科杂志2007,1 5(18):1421-1422.
[80]钱林荣耳甲腔成形及耳后带蒂颞肌骨膜瓣对乳突根治术疗效的影响代中西医结合杂志2008,17 (8) :1165-1166.
[81]温湘玲等中华耳鼻咽喉头颈外科杂志,2006,41(1)1:68
[82]靖永军等下鼻甲黏骨膜瓣在腭裂修复中的应用,中华整形外科杂志,2006 ,22(1):52-53.
[83]白秀清,耳后肌骨膜瓣在开放式中耳乳突手术中的应用,听力学及言语疾病杂志,2008,16 (3)238-239.
[84]杨柏球等,带蒂骨-骨膜肌瓣鼻腔粘骨膜下植入术治疗萎缩性鼻炎,中国现代医学杂志,2003 ,13(7):76-77.
[85]孟纯阳等带蒂骨膜包裹脱蛋白骨、血管内皮细胞生长因子复合体修复关节端缺损的实验研究,中华创伤杂志, 2003,19 (7): 413-416.
[86] Vancanti CA,Upton J.Tissue- engineered morphogenesis of cartilage and bone by means of cell transplantation using synthetic biodegradable polymer matrices.Clin Plast Surg,1994, 21(3):445- 62
[87] Reinhard G,Christind M , Klaus B ,et al. Effects of cartilage-derived morphogenetic proteins and osteogenic protein21 on osteochondro-genic differentiation of periosteum2derivedcells [J] . Endocrinology ,2001 ,142 (5) :2087~2094.
[88] Takushima A,Kitano Y,Harii K. Osteogenic potential of cultured periosteal cells in a distracted bone gap in rabbits.J Sur Res,1998,78 (1):68- 77.
[89] Akihiko T,Yukie K, Kiyonori H,et al. Osteogeneic potential of cul-tured periosteal cells in a distracted bone gap in rabbits[J].Sur Res,1998,78 (1):68-77.
[90]孙庆仲等,自体骨膜细胞及红骨髓经皮注射修复骨缺损的实验研究,中国现代医学杂志,2002,12 (12):25-27.
[91] Sakata Y,Ueno T,Kaqawa,et al.Osteogenic potential of cultured human periosteum- derived cells - A pilot study of human cell transplantation into rat calvarial defect model.J Craniomaxillofac Surg,2006,34(8):461-5
[92]吴强等,膜细胞联合BMP成骨作用的实验研究,中国医师杂志,2005, 7(10):1345-1347
[93] Groger A, Klaring S, Merten HA, et al. Tissue engineering of bone for mandibular augmentation in immunocompetent minipigs: preliminary study. Scand J Plast Reconstr Surg Hand Surg, 2003,37(3):129- 33
[94] Mizuno H,Hata k,Kojima K,et al.A novel approach to regenerating periodontal tissue by grafting autologous cultured periosteum.Tissue Eng, 2006,12(5):1227- 335
[95]张超等,重组人骨形成蛋白2诱导的骨膜细胞构建组织工程骨的实验研究,中国修复重建外科杂志2005 ,19 (2):100-104.
[96]刘建平,贝抗胜等,人骨膜细胞体外培养的实验,中国临床康复, [J] 2005,9(34) 48-9.
[97]贝抗胜,李康华等,人骨膜细胞体外培养的实验研究与临床应用,中国矫形外科杂志,2004,12(17):1329-1331.
[98]宋守礼,朱盛修,孙翠萍等.骨膜细胞移植修复股骨头缺血性坏死的实验研究[J] .中华医学杂志,1998,78 (1) :52~54.
[99]刘建平,贝抗胜,吴强,等.人骨膜细胞体外培养移植治疗骨不连.国际医药卫生导报, 2005, 11( 20) :8-9.
[100]徐栋梁,李佛保,符气祯.骨膜间质干细胞移植后成骨能力及成骨起源的研究中国修复重建外科杂志,1999,13:133 - 136
[101]张开刚等.骨髓基质干细胞复合小肠黏膜下层体外构建组织工程骨膜的实验研究.中华外科杂志,2005, 43(24):1594-1597.
[102]郭洪刚等,携载人重组骨形态形成蛋白2及脂肪基质细胞的仿生骨膜构建及强化兔桡骨的再生能力,中国组织工程研究与临床康复,2007,11(48):9734-9738
[103]赵琳等,组织工程骨膜异体体内成骨修复兔骨缺损的初步观察,中国修复重建外科杂志,2008,22(2)1:45-147.
[104]祁洁等,骨细胞Cbfa1和O ster ix基因在体外构建组织工程骨膜中的表达,中国修复重建外科杂志,2006 ,20(6):666-669.