Electrically Conducting Hydrogels for Health care: Concept, Fabrication Methods, and Applications [0.03%]
导电水凝胶在医疗保健中的应用:概念、制备方法及应用前景
Shweta Agarwala
Shweta Agarwala
Electrically conducting hydrogels are gaining increasing attention due to their potential application in smart patches, biosensors, functional tissue engineering scaffolds, wound management, and implants. The current review focuses on these...
Investigating the Effect of Carbon Nanomaterials Reinforcing Poly(ε-Caprolactone) Printed Scaffolds for Bone Repair Applications [0.03%]
研究碳纳米材料增强聚 ε-己内酯打印支架在骨修复应用中的效果
Yanhao Hou,Weiguang Wang,Paulo Bártolo
Yanhao Hou
Scaffolds, three-dimensional (3D) substrates providing appropriate mechanical support and biological environments for new tissue formation, are the most common approaches in tissue engineering. To improve scaffold properties such as mechani...
Combined Porogen Leaching and Emulsion Templating to produce Bone Tissue Engineering Scaffolds [0.03%]
结合_porogen_沥滤法和乳液模板法制造骨组织工程支架
Robert Owen,Colin Sherborne,Richard Evans et al.
Robert Owen et al.
Bone has a hierarchy of porosity that is often overlooked when creating tissue engineering scaffolds where pore sizes are typically confined to a single order of magnitude. High internal phase emulsion (HIPE) templating produces polymerized...
Customized Fabrication Approach for Hypertrophic Scar Treatment: 3D Printed Fabric Silicone Composite [0.03%]
治疗增生性疤痕的个性化制造方法:3D打印织物硅胶复合材料
Lung Chow,Kit-Lun Yick,Mei-Ying Kwan et al.
Lung Chow et al.
Hypertrophic scars (HS) are considered to be the greatest unmet challenge in wound and burn rehabilitation. The most common treatment for HS is pressure therapy, but pressure garments may not be able to exert adequate pressure onto HS due t...
Effects of Topology Optimization in Multimaterial 3D Bioprinting of Soft Actuators [0.03%]
多材料3D生物打印软驱动器中的拓扑优化效果
Ali Zolfagharian,Martin Denk,Abbas Z Kouzani et al.
Ali Zolfagharian et al.
Recently, there has been a proliferation of soft robots and actuators that exhibit improved capabilities and adaptability through three-dimensional (3D) bioprinting. Flexibility and shape recovery attributes of stimuli-responsive polymers a...
Ali Zolfagharian,Timothy M Gregory,Mahdi Bodaghi et al.
Ali Zolfagharian et al.
Despite the frequency of mallet finger injuries, treatment options can often be costly, time-consuming, and ill-fitted. Three-dimensional (3D) printing allows for the production of highly customized and inexpensive splints, which suggests p...
3D Freeform Printing of Nanocomposite Hydrogels through in situ Precipitation in Reactive Viscous Fluid [0.03%]
通过反应粘性流体中的原位沉淀进行纳米复合水凝胶的3D自由成型打印
Shengyang Chen,Tae-Sik Jang,Houwen Matthew Pan et al.
Shengyang Chen et al.
Composite hydrogels have gained great attention as three-dimensional (3D) printing biomaterials because of their enhanced intrinsic mechanical strength and bioactivity compared to pure hydrogels. In most conventional printing methods for co...
Chunling Yu,Jingchao Jiang
Chunling Yu
Recently, three-dimensional (3D) printing technologies have been widely applied in industry and our daily lives. The term 3D bioprinting has been coined to describe 3D printing at the biomedical level. Machine learning is currently becoming...
Graphene Oxide Induces Ester Bonds Hydrolysis of Poly-l-lactic Acid Scaffold to Accelerate Degradation [0.03%]
氧化石墨烯通过促进聚乳酸酯键水解来加速其降解速率
Cijun Shuai,Yang Li,Wenjing Yang et al.
Cijun Shuai et al.
Poly-l-lactic acid (PLLA) possesses good biocompatibility and bioabsorbability as scaffold material, while slow degradation rate limits its application in bone tissue engineering. In this study, graphene oxide (GO) was introduced into the P...
Hydrolytic Expansion Induces Corrosion Propagation for Increased Fe Biodegradation [0.03%]
水解膨胀促进腐蚀传播以提高铁的生物降解性
Cijun Shuai,Sheng Li,Shuping Peng et al.
Cijun Shuai et al.
Fe is regarded as a promising bone implant material due to inherent degradability and high mechanical strength, but its degradation rate is too slow to match the healing rate of bone. In this work, hydrolytic expansion was cleverly exploite...