Biomechanical mechanism of swelling-induced pain in injectable hydrogels: a numerical simulation study aimed at optimizing low-pain delivery strategies [0.03%]
注射式水凝胶中肿胀引起的疼痛的生物力学机制:旨在优化低痛策略的数值模拟研究
Feiran Deng,Mengmeng Xing
Feiran Deng
The clinical application of injectable hydrogels as drug delivery vehicles is limited by persistent pain and discomfort at the injection site, which are critical issues that affect long-term patient compliance. This pain primarily originate...
Biocompatible and antibacterial polymers for biomedical applications: a minireview [0.03%]
用于生物医学应用的生物相容性和抗菌聚合物:综述
Qiaojun Hu,Haoxiang Chen,Hanfei Cheng et al.
Qiaojun Hu et al.
The global health crisis posed by antimicrobial resistance and biofilm-protected infections demands urgent development of biocompatible antibacterial materials. The traditional antimicrobial substances are challenged by their higher cytotox...
Research progress on laser Surface microstructuring systems for drug storage and release from orthopedic implants [0.03%]
激光表面微结构化技术在骨科植入物药物缓释方面的研究进展
Yumei Bao,Zhiwei Chen,Heng Zhang
Yumei Bao
Postoperative infection and insufficient osseointegration of orthopedic implants are core challenges leading to surgical failure, and endowing implants with drug storage and release functions has become a key innovative direction to break t...
Investigating human IgE antibody interactions with pollen-derived sporopollenin biopolymers: Immunoreactivity profiling for the rational design of structurally robust and biocompatible biomaterials [0.03%]
人IgE抗体与花粉衍生的孢子多糖生物聚合物相互作用的研究:结构坚固且生物相容的生物材料的理性设计的免疫反应性谱分析
Volkan Aylanc,Seymanur Ertosun,Miguel Estravís et al.
Volkan Aylanc et al.
Pollen grains are being explored as innovative biomaterials for different applications, ranging from oral drug delivery to encapsulation of food additives, with the production of pollen-based building blocks standing on its robust, chemical...
3D bioprinting of cell-laden constructs: Technologies, bioink design, and biomedical applications [0.03%]
具有细胞的3D生物打印结构:技术、生物墨水设计和生物医药应用
Qinzhe Xing,Yufeng Liu,Jordan Lee Thomas et al.
Qinzhe Xing et al.
Three-dimensional (3D) cell printing is rapidly redefining how we engineer tissues by enabling the precise delivery of living cells within bio-inks to build complex, cell-laden structures. Unlike traditional approaches that seed cells onto ...
Nandini Samudre,Ankita Negi,Vishal Gupta et al.
Nandini Samudre et al.
Avascular necrosis (AVN), is a bone degenerative condition, characterized by disrupted blood supply, leading to bone necrosis and subsequent bone collapse. Current AVN treatments such as core decompression and surgical interventions exhibit...
MyelinoChip: a myelination-on-a-chip platform with suspended high aspect-ratio microfibers for long-term tracking of myelin sheath formation [0.03%]
MyelinoChip:一种具有悬浮高宽径比微纤维的髓鞘形成长期追踪芯片平台
Hui-Ying Lin,Jing-Yi Yang,Hao-Chen Chang et al.
Hui-Ying Lin et al.
Myelination is a critical biological process in which Schwann cells form myelin sheaths around axons to support signal transmission and nerve regeneration. Artificial axon models can provide a useful tool for studying the process of myelina...
Engineering a platform combining decellularized ECM and native bone surface topography for investigating osteoblastic function [0.03%]
一种平台的工程化设计:结合脱细胞基质和天然骨表面拓扑结构用于研究成骨细胞功能
Berkay Erenay,Birgün Özçolak,Hayriye Öztatlı et al.
Berkay Erenay et al.
Utilization of cell derived decellularized extracellular matrices (dECM) is a highly versatile way to introduce complex cell specific native-like microenvironment in vitro. While dECMs have been used in various applications, surface functio...
Decalcified bone scaffold with dynamic matrix stiffness prepared by mineralization improves bone defect repair [0.03%]
由矿化制备的动态基质刚度去矿化骨支架改善骨缺损修复
Yang Zou,Shiyao Tang,Zhenyin Chen et al.
Yang Zou et al.
Bone formation is a dynamic process, while the stiffness of extracellular matrix increases dynamically during bone maturation. Matrix stiffness can significantly regulate the stem cell differentiation and bone repair. It is particularly imp...
Corrigendum: 3D biomaterial P scaffolds carrying umbilical cord mesenchymal stem cells improve biointegration of keratoprosthesis (2022 Biomed. Mater. 17 055004) [0.03%]
订正:载有脐带间充质干细胞的3D生物材料P角膜移植支架改善了人工角膜的生物整合(2022年Biomed. Mater. 17 055004)
Yueyue Li,Wenqin Xu,Qian Li et al.
Yueyue Li et al.
Published Erratum
Biomedical materials (Bristol, England). 2025 Nov 26;20(6). DOI:10.1088/1748-605X/ae17fe 2025