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2015 2
2016 77
2017 90
2018 67
2019 51
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In Situ Cross-Linkable Hydrogels as a Dynamic Matrix for Tissue Regenerative Medicine.
Park KM and Park KD. Tissue Eng Regen Med 2018 - Review. PMID 30603578 Free PMC article.
RESULTS: With advances in biomaterials engineering, these hydrogel materials have been utilized as either artificial cellular microenvironments to create engineered tissue constructs or as bioactive acellular matrices to stimulate the native ECM for enhanced tissue regeneration and restoration. ...In particular, we focus on emerging technologies as a powerful therapeutic tool for tissue regenerative medicine applications....
RESULTS: With advances in biomaterials engineering, these hydrogel materials have been utilized as either artificial cellular microenvironments to create engineered tissue constructs or as bioactive acellular matrices to stimulate the native ECM for enhanced tissue regeneration and res …
Biopolymeric In Situ Hydrogels for Tissue Engineering and Bioimaging Applications.
Sontyana AG, et al. Tissue Eng Regen Med 2018 - Review. PMID 30603580 Free PMC article.
BACKGROUND: Biopolymeric in situ hydrogels play a crucial role in the regenerative repair and replacement of infected or injured tissue. ...Researchers have been investigating new advancements and designs to restore tissue functions and structure, and these studies involve a composite of biometrics, cells and a combination of factors that can repair or regenerate damaged tissue. ...
BACKGROUND: Biopolymeric in situ hydrogels play a crucial role in the regenerative repair and replacement of infected or injured tissue. ...Researchers have been investigating new advancements and designs to restore tissue functions and structure, and these studies involve a composite …
Collagen Scaffolds in Cartilage Tissue Engineering and Relevant Approaches for Future Development.
Irawan V, et al. Tissue Eng Regen Med 2018 - Review. PMID 30603588 Free PMC article.
BACKGROUND: Cartilage tissue engineering (CTE) aims to obtain a structure mimicking native cartilage tissue through the combination of relevant cells, three-dimensional scaffolds, and extraneous signals. ...
BACKGROUND: Cartilage tissue engineering (CTE) aims to obtain a structure mimicking native cartilage tissue through the combination of relevant cells, three-dimensional scaffolds, and extraneous signals. ...
Click Chemistry-Based Injectable Hydrogels and Bioprinting Inks for Tissue Engineering Applications.
Gopinathan J and Noh I. Tissue Eng Regen Med 2018 - Review. PMID 30603577 Free PMC article.
BACKGROUND: The tissue engineering and regenerative medicine approach require biomaterials which are biocompatible, easily reproducible in less time, biodegradable and should be able to generate complex three-dimensional (3D) structures to mimic the native tissue structures. ...The future scope of these materials is promising, including their applications in in situ 3D bioprinting for tissue or organ regeneration....
BACKGROUND: The tissue engineering and regenerative medicine approach require biomaterials which are biocompatible, easily reproducible in less time, biodegradable and should be able to generate complex three-dimensional (3D) structures to mimic the native tissue structures. ...The fut …
The Use of Normal Stem Cells and Cancer Stem Cells for Potential Anti-Cancer Therapeutic Strategy
Han SW, et al. Tissue Eng Regen Med 2018 - Review. PMID 30603561 Free PMC article.
RESULTS: Stem cells have been considered as important element of regenerative therapy by promoting tissue regeneration. Particularly, there is a growing trend to use stem cells as a target drug-delivery system to reduce undesirable side effects in non-target tissues. ...
RESULTS: Stem cells have been considered as important element of regenerative therapy by promoting tissue regeneration. Particularly, there is a growing trend to use stem cells as a target drug-delivery system to reduce undesirable side effects in non-target tissues. ...
Current advances in three-dimensional tissue/organ printing.
Park JH, et al. Tissue Eng Regen Med 2016 - Review. PMID 30603443 Free PMC article.
Three-dimensional (3D) tissue/organ printing is a major aspect of recent innovation in the field of tissue engineering and regenerative medicine. 3D tissue/organ printing aims to create 3D living tissue/organ analogues, and have evolved along with advances in 3D printing techniques. ...In addition, in vitro models are described, and future perspectives in 3D tissue/organ printing are identified....
Three-dimensional (3D) tissue/organ printing is a major aspect of recent innovation in the field of tissue engineering and regenerative medicine. 3D tissue/organ printing aims to create 3D living tissue/organ analogues, and have evolved along with advances in 3D printing …
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