Dermal Templates Support Epidermal Regeneration and Maturation Regardless of Cell Donor Age [0.03%]
真皮模板支持表皮再生和成熟,不受供体年龄的影响
Autumn C Campbell,Divya Sridharan,Britani N Blackstone et al.
Autumn C Campbell et al.
To provide an optimal wound bed for epidermal regeneration, a viable dermis is needed. As the dermis is destroyed in full-thickness burns, dermal templates (DTs) are used to create a healthy dermis for grafting and other procedures. Neonata...
Fibroblast Matrix Enhanced Three-Dimensional-Bioprinted Hydrogel for Osteochondral Regeneration [0.03%]
纤维母细胞支架增强的三维生物打印软骨修复复合水凝胶用于软骨再生研究
Devy F Garna,Aryan S Shet,Levi Randall Morgan et al.
Devy F Garna et al.
Decellularized extracellular matrix (dECM) plays an important role in tissue engineering by preserving native biochemical and structural cues while removing immunogenic cellular components. Addressing donor shortages, this study develops a ...
Nanocellulose Source and Morphology Impact on Properties of Composite Gelatin Hydrogel Scaffolds [0.03%]
纳米纤维素来源和形貌对胶原凝胶复合水凝胶支架性能的影响研究
Janet V Reid,Niki Hazelton,Stefan J Hill et al.
Janet V Reid et al.
Nanocellulose has emerged as a promising biomaterial for development of scaffolds for tissue engineering. Incorporation of nanocellulose into a polymer scaffold can increase its stiffness, allowing it to better mimic the mechanical properti...
Bioprinting the Osteochondral Interface: Advances, Challenges, and Future Directions [0.03%]
软骨接骨界面的生物打印:进展、挑战与未来方向
Hang Truong,Murat Guvendiren
Hang Truong
Osteochondral (OC) defects, involving simultaneous damage to articular cartilage and subchondral bone, remain clinically challenging due to the distinct biological, mechanical, and structural characteristics of each layer. Traditional repai...
Inhibition of miR-221 in Human MSCs Supports the Engineering of Hyaline Cartilage Microtissues [0.03%]
抑制人骨髓间充质干细胞中的miR-221可促进透明软骨微组织工程化
Nadia Rodriguez,Pere Dosta,Fiona E Freeman et al.
Nadia Rodriguez et al.
Developmentally inspired tissue engineering strategies are increasingly being employed to generate biomimetic articular cartilage (AC) grafts. One such approach leverages the capacity of stem or progenitor cells to self-organize and generat...
Tissue-Inducing Biomaterials for Cardiac Tissue Regeneration and Repair [0.03%]
心脏组织再生和修复用的组织诱导性生物材料
Muhammad Shafiq,Qasim A Majid,Muhammad Rafique et al.
Muhammad Shafiq et al.
Ischemic cardiac injury, arising due to myocardial infarction (MI), ischemia-reperfusion injury (IRI), and other ischemia-associated forms of cardiac damage, remains a major clinical challenge. The irreversible loss of cardiomyocytes from w...
Cheyanne L Frosti,Scott P Connelly,Matthew D Layne
Cheyanne L Frosti
Adipose tissue is a highly plastic organ whose remodeling dynamics are central to whole-body metabolic health. Expansion of white adipose tissue occurs through either hyperplasia, which preserves tissue function, or hypertrophy, which cause...
Plasma Surface Modification of 3D Printed Scaffolds for Neurovascularized Nipple-Areolar Complexes [0.03%]
等离子体表面修饰3D打印支架用于神经血管化乳头-乳晕复合体
Caitlin R O&#x;Donnell,M Azam Ali,Jaydee D Cabral
Caitlin R O&#x;Donnell
For individuals undergoing mastectomy, reconstruction of the nipple-areola complex (NAC) is a critical step in emotional and psychological recovery. However, current clinical approaches-including flap suturing, tattooing, or grafting-are li...
Repairing Volumetric Muscle Loss with Skeletal Muscle Units and Hyaluronic Acid Hydrogel in Rats [0.03%]
透明质酸水凝胶介导的骨骼肌单位移植修复大块肌肉缺损
Eileen Y Su,Emmanuel E Vega-Soto,Stoyna S Novakova et al.
Eileen Y Su et al.
Volumetric muscle loss (VML) is characterized as the loss of muscle tissue that exceeds the muscle's self-repair mechanism, resulting in incomplete restoration of muscle mass and function. Existing treatment modalities, including muscle gra...
One-Pot Crosslinking Enables 3D Printing of Shear-Recovery Fish Collagen VEGF-Functionalized Inks [0.03%]
一步交联使鱼胶原VEGF功能化剪切恢复三维打印墨水成为可能
Alexandria R Leonard,Mathew H Cumming,M Azam Ali et al.
Alexandria R Leonard et al.
Fish collagen is gaining attention as a sustainable biomaterial for three-dimensional (3D) scaffold fabrication in tissue engineering. In this study, a biomimetic, one-pot crosslinking strategy for native fish skin collagen was developed an...