Specific Nanozyme-Based Cascade Catalysis Hydrogel With Oxygen-Self-Supplying and ROS-Scavenging Capacity for Efficient Diabetic Wound Healing [0.03%]
一种高效的糖尿病伤口愈合纳米酶级联催化氧自供给和ROS清除性水凝胶疗法
Liangyu Li,Keyue Guo,Gaofei Hu et al.
Liangyu Li et al.
Diabetic wounds are characterized by impaired and delayed healing due to a pathological triad of hyperglycemia, excessive reactive oxygen species (ROS) accumulation, and persistent tissue hypoxia. Herein, a glucose-activated cascade catalys...
Multifunctional Toxin-Neutralizing and Antibacterial Cell-Mimicking Liposomes for Effectively Managing Wound Infections and Promoting Scarless Healing [0.03%]
多功能的仿生细胞毒毒素中和及抗菌型脂质体有效管理伤口感染和促进无疤痕愈合
Laien Zhao,Chengyu Jia,Yue Zhao et al.
Laien Zhao et al.
During the healing process of infected wounds, tissue damage caused by pore-forming toxins (PFTs) secreted by bacteria, as well as sustained inflammatory cascades and abnormal collagen expression are key factors leading to delayed wound hea...
CORE: Cholesterol Altered Lipid Nanoparticles for Splenic Expression of mRNA Payloads [0.03%]
基于胆固醇修饰的脂质纳米颗粒脾脏递送mRNA疫苗研究
Eshan A Narasipura,Vincent Fung,Rachel VanKeulen-Miller et al.
Eshan A Narasipura et al.
A central challenge within the field of nanomedicine is synthesizing and formulating vectors capable of extrahepatic delivery. mRNA lipid nanoparticles (LNPs) are no exception as most lipid-based formulations, when administered systemically...
Carbon Dots-Based Nanomaterials for Chronic Wound Healing: From Multifunctional Mechanisms to Smart Dressings and Tissue Regeneration [0.03%]
基于碳点的纳米材料在慢性伤口愈合中的应用:从多功能机制到智能敷料和组织再生
Xuan Zhao,Yukun Liu,Kang Wang et al.
Xuan Zhao et al.
Chronic wounds represent a major clinical challenge due to persistent infection, excessive inflammation, impaired angiogenesis, and defective tissue remodeling. Carbon dots (CDs)-based nanomaterials are promising candidates for addressing t...
Deciphering the Role of Cancer Stem Cells in Breast Cancer Brain Colonization Using a Novel Patient-Derived Model [0.03%]
利用新颖的患者衍生模型解码癌干细胞在乳腺癌脑转移中的作用
Stefania Faletti,Cristina Richichi,Daniela Osti et al.
Stefania Faletti et al.
Brain metastases from breast cancer (BCBM) are fatal and lack effective treatments. Their cellular and molecular drivers remain poorly understood, partly due to limited preclinical models that fail to capture patient tumor heterogeneity. Ca...
Optoelectrical Devices for Neural Interfacing: Engineering Integration, Stability, and Multimodal Sensing [0.03%]
用于神经接口的光电器件:工程集成、稳定性和多模态传感
Stella Aslanoglou,Barbara Spagnolo,Antonio Balena et al.
Stella Aslanoglou et al.
In recent years, implantable optoelectrical devices have emerged as an effective resource for modulating and monitoring neural activity with high spatiotemporal resolution. By integrating optical stimulation, electrophysiological recording,...
Airborne 1O2 Delivery via a Superhydrophobic Dressing as a Pathway to Next-Generation Wound Therapies, an in Vivo Murine Burn Model Study [0.03%]
利用超疏水敷料气溶胶化释放1O2作为下一代创面治疗策略的体内研究烧伤模型研究报告
Fernanda Viana Cabral,QianFeng Xu,Natalie Eidenschink et al.
Fernanda Viana Cabral et al.
Antimicrobial photodynamic therapy (aPDT) has been investigated as a promising therapy for treating wound infections. However, its clinical application is limited by tissue hypoxia, poor photosensitizer (PS) penetration, and off-target toxi...
Spiky Nanoparticle-Gel Composite for Efficient Intravesical Botulinum Toxin A Delivery and Treatment of Overactive Bladder [0.03%]
用于膀胱给药和治疗过度活动性膀胱的高效刺状纳米颗粒-凝胶复合物注射ボトulinum toxin A
Yongheng Zhou,Qinggang Liu,Linna Wang et al.
Yongheng Zhou et al.
Overactive bladder (OAB) is a symptomatic disease that is difficult to treat. This study developed APTES-functionalized spiky titanium dioxide nanoparticles (ASNPs) loaded with botulinum toxin A (ASNP@BA), which is coated with P407/HA (HP) ...
Correction to "Multifunctional Delivery Nanosystems Formed by Degradable Antibacterial Poly(Aspartic Acid) Derivatives for Infected Skin Defect Therapy" [0.03%]
“由可降解抗菌聚天冬氨酸衍生物形成的用于感染皮肤缺损治疗的多功能递送纳米系统”的纠正项
Published Erratum
Advanced healthcare materials. 2026 Mar 27:e71091. DOI:10.1002/adhm.71091 2026