Rational Design of Microfabricated Electroconductive Hydrogels for Biomedical Applications [0.03%]
用于生物医学应用的微加工导电水凝胶的合理设计
Brian W Walker,Roberto Portillo Lara,Emad Mogadam et al.
Brian W Walker et al.
Electroconductive hydrogels (ECHs) are highly hydrated 3D networks generated through the incorporation of conductive polymers, nanoparticles, and other conductive materials into polymeric hydrogels. ECHs combine several advantageous propert...
Quaternary ammonium-based biomedical materials: State-of-the-art, toxicological aspects and antimicrobial resistance [0.03%]
季铵基生物医用材料:现状、毒理学特性及抗菌耐药性问题研究
Yang Jiao,Li-Na Niu,Sai Ma et al.
Yang Jiao et al.
Microbial infections affect humans worldwide. Many quaternary ammonium compounds have been synthesized that are not only antibacterial, but also possess antifungal, antiviral and anti-matrix metalloproteinase capabilities. Incorporation of ...
Biopolymer nanofibrils: structure, modeling, preparation, and applications [0.03%]
生物聚合物纳米纤维素:结构、模拟、制备及应用
Shengjie Ling,Wenshuai Chen,Yimin Fan et al.
Shengjie Ling et al.
Biopolymer nanofibrils exhibit exceptional mechanical properties with a unique combination of strength and toughness, while also presenting biological functions that interact with the surrounding environment. These features of biopolymer na...
Flow Behavior Prior to Crosslinking: The Need for Precursor Rheology for Placement of Hydrogels in Medical Applications and for 3D Bioprinting [0.03%]
交联前的流变行为:在医学应用和3D生物打印中放置水凝胶所需的前驱体流变学
Jakob M Townsend,Emily C Beck,Stevin H Gehrke et al.
Jakob M Townsend et al.
Hydrogels - water swollen cross-linked networks - have demonstrated considerable promise in tissue engineering and regenerative medicine applications. However, ambiguity over which rheological properties are needed to characterize these gel...
Generational Biodegradable and Regenerative Polyphosphazene Polymers and their Blends with Poly (lactic-co-glycolic acid) [0.03%]
可降解和再生聚磷氮烯聚合物及其与聚乳酸-乙交酯的共混物
Kenneth S Ogueri,Harry R Allcock,Cato T Laurencin
Kenneth S Ogueri
New fields such as regenerative engineering have driven the design of advanced biomaterials with a wide range of properties. Regenerative engineering is a multidisciplinary approach that integrates the fields of advanced materials science a...
Corrigendum to “Dynamically tunable cell culture platforms for tissue engineering and mechanobiology” [Prog. Polym. Sci. Vol. 65 [2017] 53–82] [0.03%]
“用于组织工程和机械生物学的可动态调节细胞培养平台”的勘误(卷65[2017年][Prog. Polym. Sci.]第53-82页)
Published Erratum
Progress in polymer science. 2017 Jul:70:92. DOI:10.1016/j.progpolymsci.2017.05.001 2017
Electroactive polymers for tissue regeneration: Developments and perspectives [0.03%]
组织再生的导电高分子材料:进展和展望
Chengyun Ning,Zhengnan Zhou,Guoxin Tan et al.
Chengyun Ning et al.
Human body motion can generate a biological electric field and a current, creating a voltage gradient of -10 to -90 mV across cell membranes. In turn, this gradient triggers cells to transmit signals that alter cell proliferation and differ...
David M Warsinger,Sudip Chakraborty,Emily W Tow et al.
David M Warsinger et al.
Conventional water resources in many regions are insufficient to meet the water needs of growing populations, thus reuse is gaining acceptance as a method of water supply augmentation. Recent advancements in membrane technology have allowed...
Dynamically Tunable Cell Culture Platforms for Tissue Engineering and Mechanobiology [0.03%]
用于组织工程和机械生物学的动态可调细胞培养平台
Koichiro Uto,Jonathan H Tsui,Cole A DeForest et al.
Koichiro Uto et al.
Human tissues are sophisticated ensembles of many distinct cell types embedded in the complex, but well-defined, structures of the extracellular matrix (ECM). Dynamic biochemical, physicochemical, and mechano-structural changes in the ECM d...
Fa-Ming Chen,Xiaohua Liu
Fa-Ming Chen
Biomaterials have played an increasingly prominent role in the success of biomedical devices and in the development of tissue engineering, which seeks to unlock the regenerative potential innate to human tissues/organs in a state of deterio...