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3D bioprinting
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facet applications:3D bioprinting
facet content type:Technical Article
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逆加成-断裂链转移 (RAFT)聚合
RAFT(可逆加成断裂链转移)聚合是一种可逆的去活化自由基聚合(RDRP),是给自由基聚合赋予活性的通用方法之一。
聚甘油癸二酸酯在组织工程和再生医学的应用
商业生物材料已停滞不前超过30年的时间,因为很少有材料能够成功地从实验台过渡到临床使用。合成型脂族聚酯因其悠久的历史和获得美国食品药品监督管理局(FDA)批准的记录,一直在可吸收生物材料领域占据主导地位。
用于细胞递送和组织再生的可注射水凝胶
将基于水凝胶的生物材料用于递送和募集细胞以促进体内组织再生是新生的研究热题。本文讨论了水凝胶在细胞递送和组织再生中的应用。
Degradable Poly(ethylene glycol) Hydrogels for 2D and 3D Cell Culture
Progress in biotechnology fields such as tissue engineering and drug delivery is accompanied by an increasing demand for diverse functional biomaterials. One class of biomaterials that has been the subject of intense research interest is hydrogels, because they closely mimic
Poly(Glycerol Sebacate) in Tissue Engineering and Regenerative Medicine
The world of commercial biomaterials has stagnated over the past 30 years as few materials have successfully transitioned from the bench to clinical use. Synthetic aliphatic polyesters have continued to dominate the field of resorbable biomaterials due to their long
Bioprinting for Tissue Engineering and Regenerative Medicine
In the past two decades, tissue engineering and regenerative medicine have become important interdisciplinary fields that span biology, chemistry, engineering, and medicine.
Reversible Addition Fragmentation Chain Transfer (RAFT) Polymerization
RAFT (Reversible Addition Fragmentation chain Transfer) polymerization is a reversible deactivation radical polymerization (RDRP) and one of the more versatile methods for providing living characteristics to radical polymerization.
Recent Advances in 3D-Bioprinting-based Drug Screening
Learn how 3D bioprinting is revolutionizing drug discovery with highly-controllable cell co-culture, printable biomaterials, and its potential to simulate tissues and organs. This review paper also compares 3D bioprinting to other advanced biomimetic techniques such as organoids and organ chips.
Three-Dimensional Bioprinting for Tissue and Disease Modeling
Professor Shrike Zhang (Harvard Medical School, USA) discusses advances in 3D-bioprinted tissue models for in vitro drug testing, reviews bioink selections, and provides application examples of 3D bioprinting in tissue model biofabrication.
Controlled Fabrication Methods for Tissue Engineering Constructs
Highlighting existing and novel fabrication methods for both, solid and hydrogel-based scaffold for tissue engineering applications.
Poly(ethylene glycol) (PEG) and Synthetic PEG Derivatives for Tissue Engineering and Cell Delivery
Highlighting new synthetic modifications of PEG to improve the mechanical properties and degradation of resulting hydrogels in tissue engineering applications.
Photo-Crosslinkable Gelatin Hydrogel: Versatile Materials for (High Resolution) Additive Manufacturing
Discussion of synthetic modifications to gelatin, improving the three-dimensional (3D) print resolution, and resulting material properties.
RESOMER® Biodegradable Polymers for Medical Device Applications Research
Find use of RESOMER® biodegradable polymers in medical device applications research.
Patterning of PEG-based Hydrogels - Engineering Spatial Complexity
2D and 3D scaffold patterning techniques can be applied in the presence of cells using poly(ethylene glycol) (PEG)-based hydrogels. These methods can be applied to any optically transparent, photoactive substrate.
Injectable Hydrogels for Cell Delivery and Tissue Regeneration
The use of hydrogel-based biomaterials for the delivery and recruitment of cells to promote tissue regeneration in the body is of growing interest. This article discussed the application of hydrogels in cell delivery and tissue regeneration.