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Biomedical Materials期刊亮点文章

25 Jun 2025 gabriels

Biomedical Materials期刊发表原创研究成果与重要综述，致力于提升我们对生物医学材料在组成、性能和应用等方面的理解，服务于各类与人类健康相关的应用领域。

欢迎阅读我们精选的高水平研究文章！

精选文章

PAPER

Stimuli-triggered multilayer films in response to temperature and ionic strength changes for controlled favipiravir drug release

Li Xu et al 2024 Biomed. Mater. 19 035004

In this article you can read about how the block copolymer micelles and natural biopolymers were utilized to form layer-by-layer films via electrostatic interaction, which were able to effectively load and controllably release favipiravir, a potential drug for the treatment of coronavirus epidemic.

TOPICAL REVIEW

Unveiling the versatility of gelatin methacryloyl hydrogels: a comprehensive journey into biomedical applications

Sheersha Pramanik et al 2024 Biomed. Mater. 19 042008

PAPER | OPEN ACCESS

In vitro analysis of insoluble salt formation mechanism associated with Mg corrosion—variations depending on the diffusion environment in model tissue

Masanobu Hayashi et al 2024 Biomed. Mater. 19 025010

Previous studies have suggested that diffusion through blood flow may influence Mg corrosion. In his study we try to understand the degradation behaviors of Mg. We analyzed insoluble salt precipitation associated with Mg corrosion in model tissue with different diffusion rates.

PAPER

Facile preparation of self-healing hydrogels based on chitosan and PVA with the incorporation of curcumin-loaded micelles for wound dressings

Peng Ding et al 2024 Biomed. Mater. 19 025021

This study presented the design of a novel self-healing composite hydrogel that could perform as wound dressing for the promotion of wound healing.

TOPICAL REVIEW

Advances of liquid metal hydrogel composites in biomedical applications

Junbo Chen et al 2024 Biomed. Mater. 19 012001

This review introduces the categories and featured properties of LMs, including biocompatibility, synthesis methods, surface modifications, response behaviors, and reversible deformation.

PAPER

Fiber configuration determines foreign body response of electrospun scaffolds: in vitro and in vivo assessments

Qiaolin Ma et al 2024 Biomed. Mater. 19 025007

The results in this study show that electrospun yarn scaffold results in greater cellular immune reactions and elevated FBR in in vivo assessments.

PAPER

3D printed high-precision porous scaffolds prepared by fused deposition modeling induce macrophage polarization to promote bone regeneration

Xiangyu Wang et al 2024 Biomed. Mater.19 035006

The findings in this study indicated that macroporous scaffolds enhanced macrophage adhesion and drove their differentiation towards the M2 phenotype. This led to the increased production of anti-inflammatory factors and a reduction in pro-inflammatory agents, highlighting the scaffolds’ immunomodulatory capabilities.

PAPER | OPEN ACCESS

Advantages and limitations of using cell viability assays for 3D bioprinted constructs

Sofia Avnet et al 2024 Biomed. Mater. 19 025033

In this study, we tested bioprinted osteogenic bioinks as a model system. Alginate- or gelatin-based bioinks were loaded with/without ceramic microparticles and osteogenic cells (bone tumor cells, with or without normal bone cells).

期刊介绍

Biomedical Materials

2024年影响因子：3.7 Citescore：6.8
Biomedical Materials（BMM）期刊是IOP出版社旗下基于同行评议的学术期刊，创刊于2006年。该刊关注如何利用生物医学材料解决日益增长的人类健康需求，包括但不限于组织工程以及、再生医学、干细胞、药物/因子递送、纳米医学、癌症诊断和治疗等领域的应用基础研究和临床转化研究。