组织再生

M2型抑制炎症反应、促进组织再生修复。

M2-type inhibition of inflammation , promote tissue regeneration and repair .

一旦激活，NF-κB成为一个强大的转录因子，它开启一个主基因阻止细胞凋亡并增强组织再生。

Once activated , NF - κ B is a powerful transcription factor that turns on a host of genes that block apoptosis and enhance tissue regeneration .

N6培养基对水稻组织再生植株的诱导效果比较好。

N_6 medium gave better results for the induction of plantlet regeneration .

提示胶原膜结合HA颗粒在引导骨组织再生方面具有协同作用。

The result showed that collagen membranc combined with HA could improve new bone regeneration .

结论：x射线和骨密度评估结果均显示碳化二亚胺交联脱细胞牛心包有良好的引导骨组织再生作用。

Conclusion : x-ray and BMD evaluation results showed that edac-crosslinked ABP has a good effect on guiding bone regeneration .

分别于3、6、12月拍X射线片，测量牙周骨组织再生效果。

X-ray photography was taken after 3 months , 6 months , and 12 months to evaluate the bone regeneration circumstances .

目的评价戊二醛（GA）处理的牛心包作为引导骨组织再生材料的可行性。

Objective To explore the feasibility of bovine pericardium used as a material for guiding bone regeneration .

P即可以促进损伤愈合，加速骨组织再生，可作为自身来源的生长因子应用于临床治疗牙周骨缺损。

PRP had the ability to enhance bone regeneration and improve wound healing , which could be used to treat periodontal osseous defects as an adjuvant in clinical application .

牙种植体周围骨缺损引导骨组织再生后骨结合的生物力学研究CT引导下经皮骨样骨瘤的半导体激光间质凝固疗法

Evaluation the osseointegration which the dental implants surrounding bone defect were treated with GBR by biomechanics test Abstract Percutaneous Interstitial Semiconductor Diode Laser Photocoagulation of Osteoid Osteoma Under CT-guided

Rh-bFGF-Bio-OssCollagen复合物促进犬牙周组织再生的实验性研究

Rh-bFGF-Bio-Oss Collagen Composite Graft Enhances Periodontal Regeneration : A Experimental Study in Dogs

目的：观察引导组织再生术（guidedtissueregeneration，GTR）后不同时期牙周组织的再生情况，以确定达到最大牙周组织再生量时屏障膜留置体内的合适时间。

AIM : To observe the periodontal tissue response to guided tissue regeneration ( GTR ) in different period in order to explore an appropriate indwelling time of the barrier membranes after GTR .

目的比较引导牙周组织再生术（GTR）和牙周翻瓣术治疗牙周病的疗效。

Objective Compare the treatment effects between guided tissue regeration ( GTR ) and periodontal flap procedure in periodontal disease .

通过建立的SD大鼠皮肤缺损模型，用构建的人工真皮替代物在SD大鼠脊背两侧皮肤进行了移植实验，对人工真皮替代物促进组织再生能力进行了评价。

The skin defect model was established in SD rats . The capcity of the artificial dermal substitute promoting tissue regeneration was evaluated by transplanting it on the back of the SD rats .

临床选择12例牙周骨缺损病例，进行引导组织再生术（GTR），观察疗效。

12 periodontal defect bone tissue was collected and the clinical effect of artificial membrane by treatment with GTR were assessed .

目的：研究诱导组织再生（GTR）技术应用于即刻种植的骨界面形成。

Objective : To study forming of implant bone interface in immediate implant using guided tissue regeneration ( GTR ) technique .

目的：研究PGLA牙周引导组织再生片体外的降解周期，并对影响其降解动力学的各种因素作出评价。

Objective : To study the degradation of PGLA film for periodontal guided tissue regeneration in vitro .

目的：评价引导组织再生（GTR）即刻种植术的临床效果，探讨影响其效果的临床因素。

Objective : To investigate the clinical results of immediate implantation using Guided Tissue Regeneration ( GTR ) and the factors influencing the clinical results .

结论骨形态蛋白复合物联合GTR技术修复牙周骨缺损，与传统的GTR术和牙周翻瓣术相比，更能有效促进牙周骨组织再生与修复。

Conclusion Combination of bone morphogenetic protein complex with GTR was more effective than GTR only or OFD in the repair of periodontal bone defects .

目的了解拜阿蒙（BAM）骨诱导人工骨通过引导牙周骨组织再生术治疗重度牙周炎患牙的临床疗效。

Objective To observe clinic curative effect on treating serious periodontitis with BAM artificial bone by periodontal guided bone regeneration ( PGBR ) technique in one year .

OFM被认为是胶原蛋白为基础的生物材料的替代品，已直接用于伤口愈合和组织再生的临床应用。

OFM is a culturally acceptable alternative to current collagen-based biomaterials and has immediate clinical applications in wound healing and tissue regeneration .

目的是研究PGLA牙周引导组织再生片的生物降解性和安全性。

In order to study the biodegradable properties and biological safety of PGLA film for periodontal guided tissue regeneration in vitro .

PRF膜具有良好的生物相容性和细胞亲和性，促进细胞的诱导分化，提高组织再生的速度和质量，具有良好的骨诱导作用。

PRF membrane has favourable biocompatibility and cellular compatibility . It can promote cell differentiation , improve the quality and speed of tissue regeneration and possess favourable bone induction .

结论：GTR技术治疗II度根分叉病变患牙时，为达到最大牙周组织再生量所需要屏障膜的作用时间至少要6周。

CONCLUSION : It spends at least 6 weeks in maintaining the barrier membranes staying in the furcation place in order to gain the most regeneration tissue , when GTP is used for the treatment of grade II chronic furcation involvement .

胶原膜与hBMP联合应用能明显地促进即刻种植体周骨缺隙的骨组织再生及种植体骨界面上新骨的形成和成熟。

The use of atelocollagen membrances in combination with hBMP could significantly promote bone regeneration and new bone mature around immediate extraction sockets implants .

通过对国产膨体聚四氟乙烯（ePTFE）膜对牙周膜细胞（PDLC）生长以及对牙周组织再生（GTR）与牙周骨质再生的影响，探讨该膜的临床应用前景。

The effects of polytetrafluoroethylene ( e PTFE ) membrane on periodontal ligament cell ( PDLC ) growth and periodontal tissues and new cement regeneration were studied , and the prospects of clinical application of e PTFE membrane were discussed .

方法将骨形成蛋白复合物即重组合异种骨应用于引导组织再生（GTR）技术中，与传统的GTR技术和牙周翻瓣术对照研究。

Methods The application of combination of bone morphogenetic protein complex ( reconstituted bone xenograft , RBX ) and collagen membrane were tested by comparing with the conventional GTR and the open flap debridement .

本实验结合了天然高分子材料和合成高分子材料的优点制备了淀粉／PVA膜，并首次将其用于引导组织再生技术。

Starch / PVA membrane which combined the advantages of natural polymer and synthetic polymer was prepared in this study . Starch and PVA composites are studied in many fields , but starch / PVA membrane was studied in guiding tissue regeneration for the first time .

拉伸强度由纯CS膜的68.6MPa降低到沉积5个循环后的46.9MPa.控制沉积数可调控HA的含量、形貌和力学强度，以满足引导组织再生术需要。

These results indicate that it is possible to deposit hydroxyapatite on the surface of chitosan membrane , in addition , crystal morphology , content and mechanical properties of the HA could be altered by changing immersion cycles so as to meet the requirement of guided tissue regeneration .

结论：可吸收性胶原膜Bio-gide结合Bio-oss应用于牙种植体周围骨缺损中，可以引导骨组织再生，重建缺损的骨组织，新生骨与种植体形成骨性结合。

Conclusion : Bio-oss combining with Bio-gide can guide the bone regeneration and repair bone defect around implant . New bone was contacted to the surface of implants , and osseointegration was formed .

结论：C-CM膜有良好的生物学性能，能满足作为牙周引导组织再生膜的基本要求，有可能成为一种较理想的牙周引导组织再生的生物膜材料。

Conclusion : The C-CM membrane possesses satisfactory properties invivo , and the C-CM membrane could be therefore applied as a biological material for GTR .