Pretreatment with Inflammatory Factors Altered the Secretome of Human Amniotic Epithelial Cells [0.03%]
炎症因子预处理改变了人羊膜上皮细胞的分泌组分
Wenjiao Cao,Qinyu Zhang,Yating Huang et al.
Wenjiao Cao et al.
Human amniotic epithelial cells (hAECs) are novel and promising therapeutic agents for patients suffering from degenerative diseases. Studies have demonstrated that the therapeutic effects of hAECs mainly depend on their paracrine component...
Effect of Physicochemical Surface Properties of Silicon-Substituted Hydroxyapatite on Angiogenesis [0.03%]
硅取代羟基磷灰石的理化表面性质对其促血管生成效果的影响研究
Else Ellermann,Ruth E Cameron,Serena M Best
Else Ellermann
Synthetic hydroxyapatite (HA) is a widely studied bioceramic for bone tissue engineering (BTE) due to its similarity to the mineral component of bone. As bone mineral contains various ionic substitutions that play a crucial role in bone met...
Correction to: "Multiphoton Imaging of Maturation in Tissue Engineering'' by Werner et al. Tissue Engineering 2024;30(1):38-48; doi: 10.1089/ten.tec.2023.0141 [0.03%]
对“组织工程中的多光子成像成熟度研究”(Werner等人)的更正,组织工程,2024;30(1):38-48; doi: 10.1089/ten.tec.2023.0141
Published Erratum
Tissue engineering. Part C, Methods. 2024 Apr 25. DOI:10.1089/ten.tec.2023.0141.correx 2024
Revolutionizing Dental Implant Research: A Systematic Review on Three-Dimensional In Vitro Models [0.03%]
dental implant研究的里程碑:一种三维体外模型系统的建立
Ghannaa Shayya,Clémentine Benedetti,Lise Chagot et al.
Ghannaa Shayya et al.
Dental implants have been clinically used for almost five decades with high success rates. In vitro research models used in implant dentistry are limited to two-dimensional experiments, which are reproducible and well adapted to evaluate a ...
Embedded Printing of Hydrogels and Watery Suspensions of Cells in Patterned Granular Baths [0.03%]
在图案化颗粒浴中嵌入式打印水凝胶及细胞水悬浮液微粒结构
Vasileios D Trikalitis,Julia Perea Paizal,Vincent Rangel et al.
Vasileios D Trikalitis et al.
Bioprinting within support media has emerged as the superior alternative to conventional extrusion printing. Not only because it allows for more freedom over the shapes that can be printed but also because it allows for the printing of inks...
Sarah A Hewes,Fariha N Ahmad,Jennifer P Connell et al.
Sarah A Hewes et al.
Modeling organ-blood barriers through the inclusion of microvessel networks within in vitro tissue models could lead to more physiologically accurate results, especially since organ-blood barriers are crucial to the normal function, drug tr...
Developing Porous Fibrin Scaffolds with Tunable Anisotropic Features to Direct Myoblast Orientation [0.03%]
一种用于指导肌母细胞定向的具有可调各向异性特征的多孔纤维蛋白支架的构建方法
Bryanna L Samolyk,Zoe Y Pace,Juanyong Li et al.
Bryanna L Samolyk et al.
Functional regeneration of anisotropically aligned tissues such as ligaments, microvascular networks, myocardium, or skeletal muscle requires a temporal and spatial series of biochemical and biophysical cues to direct cell functions that pr...
Kidney Mesenchymal Stem Cell Differentiation: Effect of Scaffold and Basic Fibroblast Growth Factor [0.03%]
肾脏间充质干细胞分化:支架材料和碱性成纤维细胞生长因子的影响
Amirhesam Keshavarz Zarjani,Darioush Bijan Nejad,Niloofar Neisi et al.
Amirhesam Keshavarz Zarjani et al.
Background: Chronic kidney disease (CKD) poses a global health challenge, and it needs alternative therapeutic approaches for patients with end-stage renal disease (ESRD). Although organ transplantation is effective, it faces challenges suc...
Liquid Overlay and Collagen-Based Three-Dimensional Models for In Vitro Investigation of Multiple Myeloma [0.03%]
用于多发性骨髓瘤体外研究的液态覆盖和胶原基三维模型
Jovana Ilic,Christoph Koelbl,Friederike Simon et al.
Jovana Ilic et al.
Multiple myeloma (MM) clones reside in the bone marrow (BM), which plays a role in its survival and development. The interactions between MM and their neighboring mesenchymal stromal cells (MSCs) have been shown to promote MM growth and dru...
Characterization of Acellular Cartilage Matrix-Sodium Alginate Scaffolds in Various Proportions [0.03%]
不同比例的无细胞软骨基质-海藻酸钠支架的特性分析
Wang Lu,Mengchu Yang,Yanan Zhang et al.
Wang Lu et al.
The development of three-dimensional (3D) bioprinting technology has provided a new solution to address the shortage of donors, multiple surgeries, and aesthetic concerns in microtia reconstruction surgery. The production of bioinks is the ...