Three-dimensional magnetic torque stimulation enhances functional structural maturation in developing human cardiac organoids [0.03%]
三维磁场力刺激增强发育中的人类心脏器官体的功能结构成熟度
Tae Hoon Shin,Ji-Min Noh,Seung-Cheol Choi et al.
Tae Hoon Shin et al.
Mechanical forces play a critical role in heart development by activating mechanotransduction pathways. However, applying forces to cardiac organoid models has significant challenges due to technical limitations. In this study, we applied m...
Hyaluronic acid oligosaccharides promote micro-vessel growth and regenerative ossification in biomimetic calvarial bone scaffolds [0.03%]
透明质酸寡糖促进生物模拟颅骨支架中的微血管生长和再生性成骨作用
Weibin Jia,Liling Liu,Min Li et al.
Weibin Jia et al.
Bone regeneration requires well-orchestrated cellular and molecular interactions, particularly vascularization and osteoprogenitor migration and differentiation. Calvarial bone healing is featured by a temporal uncoupling of angiogenesis an...
Yujie Zhang,Yuan Zhao,Zhenchong Sun et al.
Yujie Zhang et al.
Bone remodeling is governed by the basic multicellular unit (BMU) and plays a crucial role in both normal bone function and pathological conditions (e.g. osteoporosis). Unfortunately, our understanding of the bone remodeling process is limi...
Development of a three-dimensional experimental vascular model with smooth muscle cell-derived cross-linked elastic fiber assembly [0.03%]
一种由平滑肌细胞衍生的交联弹性纤维装配组成的三维实验血管模型的发展
Yuri Sawada,Shota Tanifuji,Takashi Nakamura et al.
Yuri Sawada et al.
Elastic lamellae are stratified extracellular structures essential for maintaining the integrity of large vessels. While numerous studies have elucidated the roles of individual molecules in elastic fiber formation, the mechanisms governing...
Advancing tumor immunotherapy through rationally engineered inorganic nanomaterials [0.03%]
理性设计的无机纳米材料促进肿瘤免疫治疗
Yiwei Li,Pengchao Zhang,Yumei Xiao et al.
Yiwei Li et al.
Although tumor immunotherapy has demonstrated significant clinical efficacy, its therapeutic outcomes are still limited by factors such as immune escape mechanisms, immune tolerance, weak immunogenicity, and patient-specific differences. In...
Corrigendum to "Dynamically assembled nanomedicine based on host-guest molecular recognition for NIR laser-excited chemotherapy and phototheranostics" [Acta Biomaterilia. Volume 168, 15 September 2023, Pages 565-579] [0.03%]
关于“基于主客体分子识别的动态组装纳米药物用于近红外激光激发化疗和光诊疗”的勘误声明
Dan Wu,Zhankui Zhang,Xinyue Li et al.
Dan Wu et al.
Published Erratum
Acta biomaterialia. 2025 Oct 22:S1742-7061(25)00745-7. DOI:10.1016/j.actbio.2025.10.010 2025
Corrigendum to "Surface-anchored tumor microenvironment-responsive protein nanogel-platelet system for cytosolic delivery of therapeutic protein in the post-surgical cancer treatment" [Acta Biomaterialia, 154 (2022): 412-423] [0.03%]
“用于术后癌症治疗的肿瘤微环境响应型蛋白质纳米凝胶-血小板系统在细胞质内输送治疗性蛋白”一文的勘误页(Acta Biomaterialia,2022,卷154,第412-423页)
Xiaoyuan Fan,Kaiyuan Wang,Qi Lu et al.
Xiaoyuan Fan et al.
Published Erratum
Acta biomaterialia. 2025 Oct 22:S1742-7061(25)00769-X. DOI:10.1016/j.actbio.2025.10.023 2025
Corrigendum to "Metal-polyphenol self-assembled nanodots for NIR-II fluorescence imaging-guided chemodynamic/photodynamic therapy-amplified ferroptosis" [Acta Biomaterialia 185 (2024) 361-370] [0.03%]
“金属-聚酚自组装纳米点用于近红外二区荧光成像引导的化疗/光动力治疗增强铁死亡”一文的勘误[Acta Biomaterialia 185 (2024) 361-370]
Yang Zhu,Chengyu Ding,Wenhua Fang et al.
Yang Zhu et al.
Published Erratum
Acta biomaterialia. 2025 Oct 22:S1742-7061(25)00746-9. DOI:10.1016/j.actbio.2025.10.011 2025
Structure- or size-transformable peptide-based antibacterial biomaterials: Design strategies, functions, and applications [0.03%]
结构和尺寸可转换的抗菌肽基生物材料:设计策略、功能与应用
Zhenduo Chen,Guanghui Zhao,Yuankai Qu et al.
Zhenduo Chen et al.
Bacterial infections have emerged as a significant challenge to global public health. However, traditional antibiotics often fall short in meeting the clinical demands for infection treatment due to their considerable side effects, poor tar...
Hydrogel-coated optical fiber derived from controllable hydrolysis chemistry for phototherapy in deep tissue [0.03%]
可控水解化学导电的光疗光学光纤水凝胶涂层用于深部组织光疗法
Zhipeng Liu,Zhenhao Wang,Antong Ma et al.
Zhipeng Liu et al.
Conventional medical optical fibers, typically composed of SiO₂, are inherently rigid and may damage healthy tissues during in vivo photomedical therapies. In contrast, hydrogel optical fibers offer improved biocompatibility and flexibilit...