Dynamic cell patterning and photopolymerization with electric field modulation for constructing hierarchical tumor microenvironments [0.03%]
具有电场调制的动态细胞图案化和光聚合以构建分层肿瘤微环境
Anping Wu,Yanfeng Zhao,Xinyi Dong et al.
Anping Wu et al.
Engineered tumor models that replicate the hierarchical, heterogeneous microenvironment of in vivo tumors have shown huge potential in biomedical and clinical research. Tumor spheroids are widely used as in vitro models to investigate tumor...
Multi-omics qualification of an organ-on-a-chip model of osteolytic bone metastasis [0.03%]
骨溶性骨转移芯片模型的多组学验证研究
Natalia Munoz Castro,Joanne Nolan,Eleni Maniati et al.
Natalia Munoz Castro et al.
Bone is a primary site for metastasis in breast cancer, with up to 70% of patients with metastatic breast cancer developing osteolytic bone lesions, wherein cancer cells drive osteoclast resorption of bone. However, progress in developing t...
Application of Microalgae as Functional Biomaterials for Tissue Repair and Regeneration [0.03%]
微藻作为组织修复和再生的功能生物材料的应用研究
Jun Kang,Zhijing Yang,Lin Li et al.
Jun Kang et al.
Tissue repair and regeneration via advanced tissue engineering strategies offer tremendous translational potential in regenerative medicine. However, challenges remain in engineering large-size tissue constructs and organs and applying them...
Metal Ion-Protein-Based Liquid Hemostatic Foam for Prehospital Emergency Treatment of Incompressible Hemorrhage [0.03%]
基于金属离子-蛋白质的液体止血泡沫用于院前难治性出血的急救治疗
Xinran Yang,Lizong Tang,Shaohan Luo et al.
Xinran Yang et al.
Mortality resulting from incompressible hemorrhage is the primary cause of pre-hospital deaths, highlighting the urgent need for the development of innovative hemostatic materials capable of effectively managing this type of bleeding. Inspi...
Erratum to "Elastic strain and strength-elongation performance of medium-entropy Zr-Nb-Ti-O alloys for bone implants" [Acta Biomaterialia 198 (2025) 530-545] [0.03%]
关于“中熵Zr-Nb-Ti-O骨植入合金的弹性应变和强塑性性能”的勘误[Acta Biomaterialia 198 (2025) 530-545]
Zhaolin Hua,Dechuang Zhang,Lin Guo et al.
Zhaolin Hua et al.
Published Erratum
Acta biomaterialia. 2025 Nov 13:S1742-7061(25)00812-8. DOI:10.1016/j.actbio.2025.11.001 2025
Corrigendum to "Quaternary ammonium salt microspheres loaded with vascular disrupting agents for targeted interventional therapy of hepatocellular carcinoma" [Acta Biomaterialia 203 (2025) 591-603] [0.03%]
Acta Biomaterialia》第203期(2025年)591-603页“载有血管破坏剂的季铵盐微球用于肝细胞癌靶向介入治疗”的勘误修正
Xun-Zheng Su,En-Qi Qiao,Gao-Jun Teng et al.
Xun-Zheng Su et al.
Published Erratum
Acta biomaterialia. 2025 Nov 12:S1742-7061(25)00823-2. DOI:10.1016/j.actbio.2025.11.004 2025
Structural origin of high bioactivity in zirconia containing bioactive glasses [0.03%]
生物活性玻璃增强锆石的高生物活性结构起源
Wenqing Xie,Deepak V Pillai,Ying Shi et al.
Wenqing Xie et al.
Bioactive phosphosilicate glasses with high in vitro bioactivity and mechanical strength were developed by elucidating the roles of ZrO2 and P2O5 in governing structure, dissolution behavior, and bioactivity. In comparison to conventional b...
Dual-orientation of collagen fibers to guide cell alignment in 3D-printed constructs [0.03%]
双取向胶原纤维导向三维打印构建物中的细胞排列
Diya Singhal,Fotis Christakopoulos,Lucia G Brunel et al.
Diya Singhal et al.
Natural tissue comprises fibrous proteins with complex fiber alignment patterns. Here, we develop a reproducible method to fabricate biomimetic scaffolds with patterned fiber alignment along two independent orientations. While extrusion-bas...
Supramolecular copolymerized peptide self-assembly enables in situ reprogramming of tumor-associated macrophages to potentiate mild photothermal immunotherapy of cold tumors [0.03%]
超分子共聚肽自组装技术可通过原位重编程肿瘤相关巨噬细胞,增强冷肿瘤的轻度光热免疫治疗效应
Yuanzhao Mao,Xiaoting Gu,Yitong Yu et al.
Yuanzhao Mao et al.
The progressive advancement of nanomedicine has positioned mild photothermal therapy (mPTT) at the forefront of oncological research as a precision therapeutic modality with spatiotemporal controllability. Unlike conventional photothermal a...
Corrigendum to "High molecular weight hyaluronic acid-liposome delivery system for efficient transdermal treatment of acute and chronic skin photodamage" [Acta Biomaterialia 182, 2024, 171-187] [0.03%]
关于“高效治疗急性及慢性皮肤光损伤的高分子量透明质酸-脂质体递送系统”的勘误说明
Hui Xing,Xiangjun Pan,Yihan Hu et al.
Hui Xing et al.
Published Erratum
Acta biomaterialia. 2025 Nov 10:S1742-7061(25)00811-6. DOI:10.1016/j.actbio.2025.10.065 2025