Toward Bioactive Hydrogels: A Tunable Approach via Nucleic Acid-Collagen Complexation [0.03%]
基于核糖核酸-胶原复合物的可调式生物活性水凝胶的研究
Nikolaos Pipis,Senthilkumar Duraivel,Vignesh Subramaniam et al.
Nikolaos Pipis et al.
Purpose: Nucleic acid-collagen complexes (NACCs) are unique biomaterials formed by binding short, monodisperse single-stranded DNA (ssDNA) with type I collagen. These complexes spontaneously generate microfibers and nanop...
Fat Expansion Not Fat Infiltration of Muscle Post Rotator Cuff Tendon Tears of the Shoulder: Regenerative Engineering Implications [0.03%]
肩袖肌腱撕裂后肌肉脂肪量的增加而非肌肉内脂肪浸润:再生工程的意义
Marc A Merriman Jr,James H Chapman,Taraje Whitfield et al.
Marc A Merriman Jr et al.
Purpose: Rotator cuff (RC) tears affect many individuals around the globe. Ambiguity of rotator cuff repair surgical outcomes is currently a limitation that is associated with fat accumulation and atrophy in the rotator c...
Decellularized Extracellular Matrix-Derived Hydrogels: a Powerful Class of Biomaterials for Skeletal Muscle Regenerative Engineering Applications [0.03%]
脱细胞基质衍生的水凝胶:一种用于骨骼肌再生工程应用的强大生物材料类别的英文标题翻译成中文为:脱细胞细胞外基质衍生的水凝胶:一类强大的用于骨骼肌再生工程应用的生物材料
Mohammed A Barajaa,Debolina Ghosh,Cato T Laurencin
Mohammed A Barajaa
Purpose: The extracellular matrix (ECM) is a complicated milieu consisting of structural and functional molecules secreted by the resident cells that provides an optimal microenvironmental niche for enhanced cell adhesion...
Shiv Shah,Debolina Ghosh,Takayoshi Otsuka et al.
Shiv Shah et al.
Purpose: The majority of adult tissues are limited in self-repair and regeneration due to their poor intrinsic regenerative capacity. It is widely recognized that stem cells are present in almost all adult tissues, but th...
Functions and Effectiveness of Unloader, Patellofemoral, and Knee Sleeve Orthoses: A Review [0.03%]
膝关节矫形器的功能和有效性:综述型文章
Godwin K Dzidotor,Jeffrey B Moorhead Jr,Chinedu C Ude et al.
Godwin K Dzidotor et al.
Background: Knee orthoses have been extensively used as a nonsurgical approach to improving knee deficiencies. Currently, arthritic knee conditions remain the leading cause of disability, and this number is expected to in...
Animal Models of Osteoarthritis: Updated Models and Outcome Measures 2016-2023 [0.03%]
软骨损伤和骨关节炎的动物模型(2016-2023年更新版)
James H Chapman,Debolina Ghosh,Seyyedmorteza Attari et al.
James H Chapman et al.
Purpose: Osteoarthritis (OA) is a global musculoskeletal disorder that affects primarily the knee and hip joints without any FDA-approved disease-modifying therapies. Animal models are essential research tools in developi...
Nora Hlavac,Deanna Bousalis,Emily Pallack et al.
Nora Hlavac et al.
Purpose: This study demonstrated in vivo delivery of a decellularized, injectable peripheral nerve (iPN) hydrogel and explored options for using iPN in combination with regenerative biomolecular therapies like stem cell s...
Bone Marrow Mesenchymal Stem Cells Expanded Inside the Nichoid Micro-Scaffold: a Focus on Anti-Inflammatory Response [0.03%]
骨髓间充质干细胞在 nichoid 微支架内的扩增:重点关注抗炎反应
Bianca Barzaghini,Stephana Carelli,Letizia Messa et al.
Bianca Barzaghini et al.
Purpose: Mesenchymal stem cells (MSCs) represent a promising source for stem cell therapies in numerous diseases, including pediatric respiratory system diseases. Characterized by low immunogenicity, high anti-inflammator...
Harnessing Biomaterials for Immunomodulatory-Driven Tissue Engineering [0.03%]
用于免疫调控的组织工程生物材料的研究进展与趋势
Justin X Zhong,Preethi Raghavan,Tejal A Desai
Justin X Zhong
Abstract: The immune system plays a crucial role during tissue repair and wound healing processes. Biomaterials have been leveraged to assist in this in situ tissue regeneration process to dampen the foreign body response...
3D Printing of Hybrid-Hydrogel Materials for Tissue Engineering: a Critical Review [0.03%]
用于组织工程的混合水凝胶材料的三维打印:批判性评论
Sanaz Tajik,Camila Negron Garcia,Samantha Gillooley et al.
Sanaz Tajik et al.
Purpose: Key natural polymers, known as hydrogels, are an important group of materials in design of tissue-engineered constructs that can provide suitable habitat for cell attachment and proliferation. However, in compari...