Eventually, acellular slime molds also make spores.
最终,非细胞黏菌也会产生孢子。
AIM To study the degradation behavior of acellular porcine aorta valve in vitro.
目的研究猪主动脉瓣膜去细胞基质的体外降解过程。
Objective To establish a new method for the preparation of porcine acellular dermal matrix.
目的建立一种新的制作脱细胞猪真皮基质的方法。
Objective To study the optimal method of preparing the rabbit acellular dermal matrix (ADM).
目的探讨制备兔无细胞真皮基质(adm)的最佳方法。
Methods: to use acellular dermal matrix for correction of face defects and contour deformities.
方法:应用无细胞真皮基质进行面部凹陷及轮廓畸形的填充整复。
RESULTS: the surface of the prepared acellular pig dermis was smooth, pliable, elastic and ductile.
结果:脱细胞猪真皮基质平整光滑,质地柔软,有弹性,韧性好。
Oral tissue patch is a kind of variant acellular dermal matrix, with collagen as its main component.
口腔组织补片是一种异体脱细胞真皮基质,其主要成分为胶原蛋白。
Objective To prepare the xenogeneic acellular nerve scaffold used a modified chemical extraction method.
目的用改良的化学萃取方法,制备去细胞异种神经支架。
The influence of human umbilical vein endothelial cells on vascularization for acellular porcine dermis.
人脐静脉血管内皮细胞移植对脱细胞猪真皮早期血管化的影响。
PURPOSE: To evaluate the clinical effect of acellular dermal matrix allograft in repairing oral mucosal defect.
目的:评价脱细胞异体真皮基质组织补片用于口腔黏膜缺损修复的临床效果。
Objective to investigate the preparation of bone acellular extra cell matrix (AECM) and to analyze its component.
目的探讨脱细胞骨细胞外基质(AECM)的制备,并对其进行有机成分分析。
Objective To observe the effect of chondrocyte culture with natural ECM made from allogenous acellular cartilage.
目的探讨脱细胞软骨基质对软骨细胞体外生长的影响。
Objective: To evaluate the clinical efficiency of acellular dermal matrix (ADM) in repairing buccal mucosa defect.
目的:研究脱细胞异体组织补片修复颊黏膜缺损的临床疗效。
Conclusions Acellular allogenic dermis was an ideal material which could repair the surface of wound of depth burn.
结论脱细胞异体真皮是修复深度烧伤创面较为理想的材料。
Results The acellular dermal matrix with normal colloid diameter and structure was made in this way, no cells in it.
结果:本方法制备的脱细胞真皮基质的胶原直径及排列结构均正常,无任何细胞成分。
Objective To evaluate the clinical effect of acellular dermal matrix allograft in repairing the defect of oral mucosa.
目的评价脱细胞异体真皮基质口腔黏膜补片修复口腔黏膜缺损的临床效果。
The composite skins are constructed with cultured keratinocytes and fibroblasts with PDGF gene on acellular xenodermis.
用角质形成细胞和PDGF基因传染的成纤维细胞在无细胞异种?。
Objective To find a new kind of bone substitute-acellular bone extracellular matrix (ABECM) available for bone implant.
目的寻找适合骨移植的骨组织替代物—骨脱细胞细胞外基质(ABECM )。
To explore the possibility to bridge facial nerve defects by acellular xenogeneic nerve made through chemical extraction .
探索化学萃取神经支架用于异种移植,桥接面神经缺损的可行性。
Objective To construct tissue engineered cartilage using cartilage microparticle acellular tissue matrix(CMACTM)as scaffold.
目的探索以异体软骨微粒脱细胞基质为支架构建组织工程化软骨。
Results: Acellular nerve were milk white columned and translucent, its tractility was slightly increased than before disposal.
结果:去细胞神经呈淡乳白色圆柱状外观,略透亮,其延展性较化学处理前略增加。
Objective to evaluation of the effection of the clinical application of acellular dermal matrix to prevention of Frey's syndrome.
目的评价脱细胞异体真皮应用在腮腺手术中,预防发生味觉出汗综合症的效果。
AIM: to improve the preparative method of acellular nerve allograft and to develop an ideal substitute for autogenous nerve graft.
目的:改良去细胞异体神经的制备方法,研制出一种理想的自体神经移植替代物。
Objective The clinical application of the acellular allograft repairing patch for filling tissue insufficiency in plastic surgery.
目的介绍脱细胞异体皮肤细胞外基质医用组织补片在美容外科中的临床应用经验。
The collagen protein level of acellular vascular matrix was evaluated, the elongation ratio and ultimate stress were assayed as well.
测定脱细胞血管基质中胶原蛋白含量,检测血管脱细胞血管基质的伸长比、极限应力。
Conclusion: Acellular allogenic dermis with split-thickness autologous skin graft is ideal method for reconstructing deep skin wound.
结论:脱细胞异体真皮与自体刃厚皮片复合移植是修复皮肤深度创面比较理想的方法。
Objective to prepare acellular cancellous bone as carrier for bone morphogenetic protein 2 (BMP-2), and observe the ectopic osteogenesis.
目的制备脱细胞松质骨作为骨形态发生蛋白2 (BMP - 2)载体,观察其异位成骨状况。
Objective To construct tissue engineered cartilage by combining allogenic cartilage microparticle acellular tissue matrix and chondrocytes.
目的将软骨细胞与异体软骨微粒脱细胞基质相结合,构建组织工程软骨。
Eventually, acellular slime molds also make spores. They produce tens of thousands of stalks, and the spores that cap them blow away in the wind.
最终,非细胞黏菌也会产生孢子。他们会形成数万条柄,覆盖在顶端的孢子将随风飘散。
Eventually, acellular slime molds also make spores. They produce tens of thousands of stalks, and the spores that cap them blow away in the wind.
最终,非细胞黏菌也会产生孢子。他们会形成数万条柄,覆盖在顶端的孢子将随风飘散。
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