Immunomodulatory Biomaterials for Implant Osseointegration: Knowledge Mapping (2005-2025) [0.03%]
调控植入物骨整合的免疫响应型生物材料研究知识领域图谱(2005-2025)
Yue Li,Geng Liu,Chunxia Chen
Yue Li
This study used bibliometric analysis to comprehensively map the research landscape of immunomodulatory biomaterials enhancing implant osseointegration between 2005 and 2025. Publications retrieved from the Web of Science Core Collection we...
The Evolution and Frontiers of Piezoelectric Materials for Bone and Cartilage Regeneration Research [0.03%]
用于骨和软骨再生研究的压电材料的发展及前沿领域研究
Jingying Liu,Yijing Han,Cheng Hu et al.
Jingying Liu et al.
Bone and cartilage injuries are highly prevalent and arise from diverse pathogenic mechanisms, placing a substantial burden on patients' health, quality of life, and on families and society. Piezoelectric materials, inspired by tissue engin...
Editorial: Calcium Phosphate Ceramics: The Living Bridge Between Biology and Biomaterials [0.03%]
述评:含磷钙陶瓷:生命医用材料之桥
John A Jansen
John A Jansen
Early Anti-Inflammatory Effect of Bupivacaine-Meloxicam Therapy in a Rabbit Model of Arthrofibrosis [0.03%]
布比卡因-美洛昔康治疗兔关节粘连模型的早期抗炎效果研究
Kareme D Alder,Mason F Carstens,Cole E Bothun et al.
Kareme D Alder et al.
Arthrofibrosis is a common complication following total knee arthroplasty and is the result of a dysregulated immuno-inflammatory cascade, which culminates in excessive scar deposition by myofibroblasts within the knee joint. Pharmacotherap...
Biomaterial-Derived Multimodal Cell-Regulatory Signals for Tissue Regeneration [0.03%]
用于组织再生的生物材料来源的多模态细胞调控信号
Xiumei Wang
Xiumei Wang
In tissue engineering and regenerative medicine, biomaterials have transitioned from passive structural supports to dynamic platforms capable of actively modulating regenerative microenvironments. Their tunable physical and chemical propert...
Novel Three-Dimensional Preclinical Model for Investigating Cartilage Regeneration, Incorporating Physiological and Pathological Mechanical Loading [0.03%]
一种新颖的三维前期模型用于调查软骨再生,包含生理和病理力学负载
Mingjing Zhu,Jianfeng Jin,Hadi Seddiqi et al.
Mingjing Zhu et al.
The development and implementation of novel treatments for temporomandibular joint disorders (TMDs) are limited by the lack of preclinical models that closely mimic in vivo conditions. Specifically, models that support three-dimensional (3D...
Performance of Developed Mononuclear Cell Separator for Regenerative Therapy Is Comparable to Manual [0.03%]
一种新型单核细胞分离器用于再生治疗的效果可与手动分离媲美
Orie Saino,Takahiro Shioyama,Kenichi Nomura et al.
Orie Saino et al.
Regenerative therapy involving transplanted bone marrow mononuclear cells (BM-MNCs) and hematopoietic stem cells (HSCs) is markedly effective against many diseases. However, manual MNC separation requires skilled labor and cell-processing c...
Development of a Complex Human In Vitro Model of Endochondral Ossification [0.03%]
软骨内骨生成的复杂人体体外模型的研发
Encheng Ji,Amaia Garmendia Urdalleta,Janneke Witte-Bouma et al.
Encheng Ji et al.
During development and regeneration, bone is formed by endochondral ossification (EO) through the remodeling of a cartilage template. This complex process involves multiple cell types and interactions that cannot currently be modeled in vit...
Study on Polyurethane Dipping Double-Layer Membrane Coating Method for Developing Polymer-Covered Stents [0.03%]
聚氨酯蘸涂双层膜涂覆法研制聚合物覆盖支架的研究
So Yeun Choi,Jeong Chan Lee,Il Won Suh et al.
So Yeun Choi et al.
A stent is a medical device that is inserted into a narrowed or blocked area to normalize the flow when blood or body fluids do not flow smoothly. Covered stents coated with various materials such as silicone and expanded polytetrafluoroeth...
High-Resolution Cone-Beam Tomography for Assessing Angiogenesis in Jawbone Regeneration Models [0.03%]
高分辨率锥形束断层扫描在颌骨再生模型血管生成评估中的应用
Sibylle Vital,Gaël Sylvain,Benjamin Salmon et al.
Sibylle Vital et al.
Orofacial bone tissue engineering addresses bone loss caused by trauma, malformations, or tumors, enabling restoration and implant rehabilitation. Angiogenesis plays a crucial role in osteogenesis by ensuring nutrient and oxygen transport e...