Correction: Injectable electroconductive Prussian blue nanofiber-PVA hydrogel modulates the wound microenvironment to promote diabetic wound healing [0.03%]
可注射电导性普鲁士蓝纳米纤维-PVA水凝胶调节伤口微环境以促进糖尿病创面愈合
Dian-Qing Wang,Jin Huang,Sheng Chang
Dian-Qing Wang
[This corrects the article DOI: 10.3389/fbioe.2026.1748784.]. Keywords: Prussian blue nanofiber; diabetic wo...
The vertebro-subclavian artery angle modulates hemodynamic mechanisms of atherosclerosis in vertebral artery origin: a combined clinical and computational fluid dynamics study [0.03%]
颈椎动脉角调节椎动脉开口处动脉粥样硬化血流动力学机制:临床及计算流体动力学研究
Ligang Chen,Bin Hou,Chuangzhong Li et al.
Ligang Chen et al.
Objective: By dictating local hemodynamics, vascular geometry played a critical role in atherosclerosis (AS). The objective of this research was to clarify how the vertebro-subclavian artery (VA-SCA) angle affected local ...
Therapeutic effect of sustained release of aloe emodin via novel grafted polymer in electrospun nanofiber membranes on peritendinous adhesions [0.03%]
新型接枝聚合物在电纺纳米纤维膜中持续释放芦荟ematine治疗腱周粘连的效果研究
Xinpeng Dong,Yuan Wang,Yi Li et al.
Xinpeng Dong et al.
Introduction: Tendon injuries are prevalent musculoskeletal conditions in clinical settings, affecting various regions such as the rotator cuff tendons, forearm flexor/extensor tendons, finger flexor tendons, and Achilles...
Jacob Hofman-Bang,Katrine Finderup Nielsen,Stine Juhl et al.
Jacob Hofman-Bang et al.
Sustainable co-production of 1,3-PDO, ethanol and H2 from glycerol via dark fermentation by Citrobacter telavivensis T1.2D-1 isolated from the deep subsurface [0.03%]
一种来源于深部地下环境的阴沟肠杆菌菌株T1.2D-1,通过黑暗发酵工艺可持续联产1,3-PDO、乙醇和氢气
Inés Ochoa-Arizu,Adrián Martínez-Bonilla,Nuria Rodríguez et al.
Inés Ochoa-Arizu et al.
The increasing production of biodiesel has led to a surplus of glycerol, a polluting by-product in need of valorization. In this study, we demonstrate that Citrobacter telavivensis T1.2D-1, an extremophile bacterium isolated from the Iberia...
Improving governance in the age of synthetic biology, artificial intelligence, and diverging threats [0.03%]
合成生物学、人工智能及多元威胁背景下的治理改进
Dunja M Sabra,Johannes L Frieß,Bernd Giese et al.
Dunja M Sabra et al.
Introduction: Advancements in synthetic biology (SynBio) and other emerging and converging technologies, such as artificial intelligence (AI) additive manufacturing (3D printing), and nanotechnology are driving progress a...
A standardized rat model of maxillary anterior periodontal soft tissue defect for the evaluation of soft tissue graft materials [0.03%]
标准化的上前牙区牙龈软组织缺损修复评价材料的大鼠模型
Ruoxuan Huang,Chunhsin Hsu,Shoucheng Chen et al.
Ruoxuan Huang et al.
Background: Functional reconstruction of periodontal soft tissue is a major focus in both clinical and basic research within the field of dentistry. However, standardized small-animal models that accurately recapitulate c...
Genetic manipulation technologies for precise cellular control: a comparative review of five approaches [0.03%]
五种遗传工程技术的比较及展望:精确控制细胞工具的现状及未来方向
Qin Xiao,Panpan Sun,Jing Liu et al.
Qin Xiao et al.
Genetic manipulation technologies have revolutionized our ability to control cellular activities with high precision. Five major approaches-chemogenetics, optogenetics, odorgenetics, magnetogenetics, and sonogenetics-offer distinct advantag...
Functional characterization of urine-derived stem cells from acute-on-chronic liver failure patients in an immune-mediated acute liver injury model [0.03%]
来源于急性肝衰竭患者尿液的干细胞在免疫介导的急性肝损伤模型中的功能表征研究
Jiateng Zhang,Pengfei Yu,Jiaqi Li et al.
Jiateng Zhang et al.
Introduction: Acute-on-chronic liver failure (ACLF) is a highly lethal clinical syndrome with limited effective therapeutic options. Urine-derived stem cells (USCs) represent a non-invasive and readily accessible cell sou...
Integrating cells, scaffolds, and molecular regulation: a mechanobiological and translational review of bioengineering therapies for intervertebral disc degeneration [0.03%]
细胞、支架和分子调控的整合:关于椎间盘退变生物工程治疗的力学生物学及转化研究综述
Wang Hao,Chen Renchang,Xia Wa et al.
Wang Hao et al.
Intervertebral disc degeneration (IDD) is a primary cause of chronic low back pain, severely impacting patients' quality of life. Conventional treatments focus on symptom relief but fail to restore disc structure and function. Recent bioeng...