☆ 4.6 Article

Design and Fabrication of Mature Engineered Pre-Cardiac Tissue Utilizing 3D Bioprinting Technology and Enzymatically Crosslinking Hydrogel

MATERIALS (2022)

Related references

Note: Only part of the references are listed.

Article Nanoscience & Nanotechnology

3D Biofabrication of a Cardiac Tissue Construct for Sustained Longevity and Function

Matthew Alonzo et al.

Summary: In this study, 3D printed hydrogel scaffolds encapsulated with a mixture of cells were developed as cardiac organoid models to investigate the effects of microgravity on cardiovascular disease. It was found that the scaffolds had mechanical properties similar to native heart tissue and supported the growth and functionality of the cells. The bioprinted cardiac cells exhibited contractile functions, and the co-culture of different cell types led to increased cell viability and proliferation.

ACS APPLIED MATERIALS & INTERFACES (2022)

Add to Collection

Review Cardiac & Cardiovascular Systems

Bioengineering approaches to treat the failing heart: from cell biology to 3D printing

Moran Yadid et al.

Summary: This article provides an overview of the latest developments in cardiac tissue engineering, the challenges that still need to be addressed, and future directions for the field. It discusses various approaches from cellular level to engineering planar cardiac patches and volumetric organs, highlighting the state-of-the-art technologies that enable the bioengineering of functional cardiac tissues.

NATURE REVIEWS CARDIOLOGY (2022)

Add to Collection

Article Cell & Tissue Engineering

Highlights on Advancing Frontiers in Tissue Engineering

Nureddin Ashammakhi et al.

Summary: The field of tissue engineering is advancing rapidly, with a focus on addressing the needs of disease states and creating functional products in regenerative medicine. The key to success lies in important ideas and collaborative research efforts between academia and industry.

TISSUE ENGINEERING PART B-REVIEWS (2022)

Add to Collection

Article Engineering, Biomedical

FRESH 3D bioprinting a contractile heart tube using human stem cell-derived cardiomyocytes

Jacqueline Bliley et al.

Summary: This study demonstrates the 3D bioprinting of a simplified heart model resembling embryonic development. The engineered heart tubes were cellularized and showed synchronous contractions similar to natural heart beats. These findings establish the feasibility of creating 3D bioprinted human heart tubes and open the door for engineering more complex heart muscle structures.

BIOFABRICATION (2022)

Add to Collection

Article

Cardiovascular 3D bioprinting: A review on cardiac tissue development

Dianoosh Kalhori et al.

Bioprinting (2022)

Add to Collection

Review Chemistry, Applied

Egg-box model-based gelation of alginate and pectin: A review

Lianqi Cao et al.

CARBOHYDRATE POLYMERS (2020)

Add to Collection

Article Chemistry, Multidisciplinary

3D Printing of Personalized Thick and Perfusable Cardiac Patches and Hearts

Nadav Noor et al.

ADVANCED SCIENCE (2019)

Add to Collection

Article Multidisciplinary Sciences

3D bioprinting of collagen to rebuild components of the human heart

A. Lee et al.

SCIENCE (2019)

Add to Collection

Review Engineering, Biomedical

3D bioprinting and its in vivo applications

Nhayoung Hong et al.

JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART B-APPLIED BIOMATERIALS (2018)

Add to Collection

Review Cardiac & Cardiovascular Systems

Multicellular Interactions in 3D Engineered Myocardial Tissue

Maedeh Zamani et al.

FRONTIERS IN CARDIOVASCULAR MEDICINE (2018)

Add to Collection

Article Engineering, Biomedical

3D Bioprinting for Tissue and Organ Fabrication

Yu Shrike Zhang et al.

ANNALS OF BIOMEDICAL ENGINEERING (2017)

Add to Collection

Article Chemistry, Multidisciplinary

3D inkjet printing of star block copolymer hydrogels cross-linked using various metallic ions

Y. Nakagawa et al.

RSC ADVANCES (2017)

Add to Collection

Review Biotechnology & Applied Microbiology

3D bioprinting for engineering complex tissues

Christian Mandrycky et al.

BIOTECHNOLOGY ADVANCES (2016)

Add to Collection

Article Engineering, Biomedical

Biofabrication: reappraising the definition of an evolving field

Juergen Groll et al.

BIOFABRICATION (2016)

Add to Collection

Review Chemistry, Applied

Research progress on chemical modification of alginate: A review

Ji-Sheng Yang et al.

CARBOHYDRATE POLYMERS (2011)

Add to Collection

Article Chemistry, Applied

Chemical, physical and biological properties of alginates and their biomedical implications

Kurt I. Draget et al.

FOOD HYDROCOLLOIDS (2011)

Add to Collection

Article Engineering, Biomedical

An injectable, in situ enzymatically gellable, gelatin derivative for drug delivery and tissue engineering

Shinji Sakai et al.

BIOMATERIALS (2009)

Add to Collection

Article Engineering, Biomedical

Electrical coupling of cardiomyocyte sheets occurs rapidly via functional gap junction formation

Yuji Haraguchi et al.

BIOMATERIALS (2006)

Add to Collection

Article Cardiac & Cardiovascular Systems

Prevascularization with gelatin microspheres containing basic fibroblast growth factor enhances the benefits of cardiomyocyte transplantation

Y Sakakibara et al.

JOURNAL OF THORACIC AND CARDIOVASCULAR SURGERY (2002)

Add to Collection

© Peeref 2019-2024. All rights reserved.