Sustained MicroRNA delivery enhanced remyelination and functional recovery after spinal cord injury [0.03%]
脊髓损伤后持续的MicroRNA递送可增强脱髓鞘和功能恢复
Wei Ju,Chongquan Huang,Ruby Singh et al.
Wei Ju et al.
Myelination by oligodendrocytes (OLs) is critical for central nervous system (CNS) function. It facilitates rapid electrical conduction and supports neuronal metabolism. Unfortunately, spinal cord injury (SCI) disrupts this process by causi...
Exploring the angiogenic potential of skin patches with endothelial cell patterns fabricated via in-bath 3D bioprinting using light-activated bioink for enhanced wound healing [0.03%]
基于光照生物墨水的浴中3D生物打印血管内皮细胞图案化皮肤贴片促进伤口愈合的研究
Arvind Kumar Shukla,Minjun Ahn,Jun Gao et al.
Arvind Kumar Shukla et al.
The lack of functional vasculature in skin substitutes leads to ischemia and delayed regeneration, highlighting the need for effective prevascularization strategies. This study employs in-bath 3D bioprinting to fabricate prevascularized ski...
Adsorbent of bacteria and inflammatory Factors: Injectable dual-network hydrogel for osteomyelitis treatment [0.03%]
一种兼具细菌和炎症因子吸附能力的双网络可注射水凝胶抗菌材料
Qiang Yu,Haoyi Chen,Ming Li et al.
Qiang Yu et al.
Current treatments for osteomyelitis are often hampered by biofilm formation, the emergence of multidrug-resistant (MDR) bacteria, and limited antibiotic penetration into infected bone tissue, all of which impede bone regeneration and prolo...
Programmed temporal modulation by using a magnetoelectric wound dressing for ultra-fast early-stage wound healing [0.03%]
基于磁电缠绕敷料的程序化时间调制促进超快早期创面修复
Baoying Zhao,Jiwei Sun,Yizhuo Xu et al.
Baoying Zhao et al.
Temporal modulation based on phase transition rule of natural wound healing is of significant importance for high-performance tissue regeneration, thus avoiding potential risks from prolonged healing period. Unfortunately, most existing wou...
Targeted immunomodulation with H2-generating nanostructures to mitigate obesity-induced inflammation and metabolic dysfunctions [0.03%]
利用产生H2的纳米结构进行靶向免疫调节以缓解肥胖引起的炎症和代谢紊乱
Uyen Nu Thu Pham,Kun-Chi Chou,Thi-Lan-Huong Ngo et al.
Uyen Nu Thu Pham et al.
Obesity-induced inflammation in visceral adipose tissue (VAT) is a major driver of metabolic dysfunctions, contributing to severe health conditions such as insulin resistance, diabetes, and fatty liver disease. Current anti-inflammatory the...
3D printing of structural bionic and functionalized hydrogels for the construction of macroscale human cardiac tissues [0.03%]
用于构建宏观人源心脏组织的结构仿生及功能化水凝胶的三维打印技术研究
Qiongjiao Zeng,Yuan Yang,Hanwen Wang et al.
Qiongjiao Zeng et al.
Capturing the intricate structural, mechanical, and electrophysiological properties of the native heart in models is crucial for achieving efficient physiological pumping function; however, current approaches have shown limited success in r...
Oral delivery of chitosan-bilirubin nanoparticles alleviates hepatic inflammation and fibrosis in metabolic dysfunction-associated steatohepatitis [0.03%]
口服给药的壳聚糖-胆红素纳米颗粒可缓解代谢功能障碍相关steatohepatitis肝炎的肝炎和纤维化
Afia Tasnim Rahman,Jinyoung Choi,Woojin Kyung et al.
Afia Tasnim Rahman et al.
Metabolic dysfunction-associated steatohepatitis (MASH) is a severe chronic liver disease that often leads to complications, such as cirrhosis and hepatocellular carcinoma. Despite intensive research and development efforts, there are relat...
Self-sustained biomimetic bioelectronic accelerated metabolic reprogramming of bone regeneration [0.03%]
自维持仿生生物电子加速骨再生代谢重编
Lingfeng Yu,Qi Wu,Fei Jin et al.
Lingfeng Yu et al.
Bionic bioelectronics has promising applications in bone defect repair, with current research primarily focusing on the development of electroactive biomaterials and self-powered systems, which can mimic the electrophysiological microenviro...
Corrigendum to "TGase-mediated cell membrane modification and targeted cell delivery to inflammatory endothelium" [Biomaterials, Volume 269, February 2021, 120276] [0.03%]
“TGase介导的细胞膜修饰及针对炎症内皮的靶向细胞递送”一文的勘误(2021年2月第269卷120276)
Chunxiao Qi,Yuhong Jin,Yuyang Chen et al.
Chunxiao Qi et al.
Published Erratum
Biomaterials. 2025 Jul 25:123571. DOI:10.1016/j.biomaterials.2025.123571 2025
Hydrophobicity-to-cationic amphipathicity transformable antimicrobial polypeptides for the prevention of medical implant-associated infections [0.03%]
用于防止医疗植入物相关感染的疏水性到阳离子两亲性的抗菌多肽转换体
Xinshuang Zhang,Shuyi Jia,Xueyi Li et al.
Xinshuang Zhang et al.
Surface immobilization of antimicrobial peptides (AMPs) on implants offers promising efficacy against drug-resistant bacterial infections. The cationically amphipathic structure of AMPs, while crucial for their potent antimicrobial activity...