3D-bioprinted Recombination Structure of Hertwig's Epithelial Root Sheath Cells and Dental Papilla Cells for Alveolar Bone Regeneration [0.03%]
赫特威根上皮鞘细胞和牙乳头细胞的3D生物打印再复合结构在牙槽骨再生中的应用
Huilin Tang,Fei Bi,Guoqing Chen et al.
Huilin Tang et al.
Three-dimensional (3D) bioprinting is an emerging method for tissue regeneration. However, promoting the epithelial-mesenchymal interaction (EMI), while maintaining the characteristics of epithelial cells has always been a challenge in tiss...
Ovary-derived Decellularized Extracellular Matrix-based Bioink for Fabricating 3D Primary Ovarian Cells-laden Structures for Mouse Ovarian Failure Correction [0.03%]
基于卵巢衍生的脱细胞基质生物墨水的用于构建负载原始卵巢细胞的三维结构以修复小鼠卵巢衰竭的研究
Jiahua Zheng,Yibin Liu,Chenxiao Hou et al.
Jiahua Zheng et al.
Fertility preservation is becoming a clinical duty in practice. Three-dimensional (3D) bioprinting technology is potentially realize ovarian morphological repair and reproductive endocrine function rebuild. There is no published work on 3D ...
3D-Printed Patient-Customized Artificial Vertebral Body for Spinal Reconstruction after Total En Bloc Spondylectomy of Complex Multi-Level Spinal Tumors [0.03%]
个性化3D打印人工椎体用于多节段脊柱肿瘤整块切除后重建
Xianglin Hu,Shachar Kenan,Mo Cheng et al.
Xianglin Hu et al.
Three dimensional (3D)-printing technology facilitates complex spine surgery with unique advantages in artificial vertebral body design and manufacturing. In this study, we aimed to demonstrate how a 3D-printed spinal implant is utilized in...
Qiushi Liang,Yuanzhu Ma,Xudong Yao et al.
Qiushi Liang et al.
Chondral lesions caused by stressors, such as injury or inflammation, lead to osteoarthritis (OA). OA is a degenerative joint disease that has become a challenge worldwide. As the articular cartilage is incapable of self-regeneration due to...
Angiogenesis in Free-Standing Two-Vasculature-Embedded Scaffold Extruded by Two-Core Laminar Flow Device [0.03%]
基于两根芯的层流装置挤出并含有两套血管系统的自由支架诱导的血管生成研究
Chanh Trung Nguyen,Van Thuy Duong,Chang Ho Hwang et al.
Chanh Trung Nguyen et al.
Rapid construction of pre-vascular structure is highly desired for engineered thick tissue. However, angiogenesis in free-standing scaffold has been rarely reported because of limitation in growth factor (GF) supply into the scaffold. This ...
Research Dynamics of Tissue Spheroids as Building Blocks: A Scientometric Analysis [0.03%]
组织球体作为构建模块的研究动态学:科学计量分析
Marisela Rodriguez-Salvador,Itzel Fox-Miranda,Baruc Emet Perez-Benitez et al.
Marisela Rodriguez-Salvador et al.
Tissue spheroids represent an innovative solution for tissue engineering and regenerative medicine. They constitute an in vitro three-dimensional cell culture model capable of mimicking the complex composition of a native tissue on a micro-...
3D Printing of Diatomite Incorporated Composite Scaffolds for Skin Repair of Deep Burn Wounds [0.03%]
用于深度烧伤伤口皮肤修复的含硅藻土复合材料支架的三维打印技术
Jingge Ma,Jinfu Wu,Hongjian Zhang et al.
Jingge Ma et al.
Deep burn injury always causes severe damage of vascular network and collagen matrix followed by delayed wound healing process. In this study, natural diatomite (DE) microparticles with porous nanostructure were separated based on the parti...
A Study on Dual-Response Composite Hydrogels Based on Oriented Nanocellulose [0.03%]
基于取向纳米纤维素的双响应复合水凝胶研究
Lina Dong,Mujiao Liang,Zhongwei Guo et al.
Lina Dong et al.
In nature, many biological tissues are composed of oriented structures, which endow tissues with special properties and functions. Although traditional hydrogels can achieve a high level of biomimetic composition, the orderly arrangement of...
Bioprinting of a Hepatic Tissue Model Using Human-Induced Pluripotent Stem Cell-derived Hepatocytes for Drug-Induced Hepatotoxicity Evaluation [0.03%]
用于药物引起的肝毒性的评估的基于人类诱导多能干细胞来源肝细胞的肝脏组织模型的生物打印技术
Jianyu He,Jinglin Wang,Yuan Pang et al.
Jianyu He et al.
Three-dimensional (3D) bioprinting technology is an effective method for exploring the biological functions of hepatocytes by building biomimetic 3D microenvironments. Various hepatic tissue models have been developed for disease modeling, ...
Bone Sialoprotein Immobilized in Collagen Type I Enhances Bone Regeneration In vitro and In vivo [0.03%]
骨涎蛋白包被Ⅰ型胶原促进体外和体内骨再生
Anja Kriegel,Christian Schlosser,Tanja Habeck et al.
Anja Kriegel et al.
The use of bioactive molecules is a promising approach to enhance the bone healing properties of biomaterials. The aim of this study was to define the role of bone sialoprotein (BSP) immobilized in collagen type I in various settings. In vi...