Direct-write bioprinting of cell-laden methacrylated gelatin hydrogels

Biofabrication

Volumn 6, Issue 2, 2014, Pages

  Bertassoni, Luiz E ^a,b,c   Cardoso, Juliana C ^b,c,d   Manoharan, Vijayan ^b,c,e   Cristino, Ana L ^b,c   Bhise, Nupura S ^b,c   Araujo, Wesleyan A ^b,c   Zorlutuna, Pinar ^b,c,h   Vrana, Nihal E ^b,c   Ghaemmaghami, Amir M ^f   Dokmeci, Mehmet R ^b,c,g   Khademhosseini, Ali ^b,c,g  

^a UNIVERSITY OF SYDNEY   (Australia)

^b BRIGHAM AND WOMEN S HOSPITAL   (United States)

^c MASSACHUSETTS INSTITUTE OF TECHNOLOGY   (United States)

^d TIRADENTES UNIVERSITY   (Brazil)

^e SASTRA UNIVERSITY   (India)

^f UNIVERSITY OF NOTTINGHAM   (United Kingdom)

^g HARVARD UNIVERSITY   (United States)

^h UNIVERSITY OF CONNECTICUT   (United States)

Author keywords

bioprinting; direct write; GelMA; hydrogels; tissue engineering

Indexed keywords

CELLS; CYTOLOGY; HYDROGELS; MECHANICAL PROPERTIES; PRINTING; THREE DIMENSIONAL; TISSUE; TISSUE ENGINEERING;

BIOPRINTING; DIRECT WRITE; GELATIN HYDROGELS; GELMA; MICRO ARCHITECTURES; PRINTING PROCESS; TISSUE ARCHITECTURE; TISSUE CONSTRUCTS;

BIOMECHANICS;

BIOMATERIAL; GELATIN; HYDROGEL; METHACRYLIC ACID DERIVATIVE;

3T3 CELL LINE; ANIMAL; BIOPRINTING; CELL SURVIVAL; CHEMISTRY; DRUG EFFECTS; HEPG2 CELL LINE; HUMAN; HYDROGEL; MOUSE; PROCEDURES; TISSUE ENGINEERING; TISSUE SCAFFOLD; TOXICITY; YOUNG MODULUS;

ANIMALS; BIOCOMPATIBLE MATERIALS; BIOPRINTING; CELL SURVIVAL; ELASTIC MODULUS; GELATIN; HEP G2 CELLS; HUMANS; HYDROGELS; METHACRYLATES; MICE; NIH 3T3 CELLS; TISSUE ENGINEERING; TISSUE SCAFFOLDS;

EID: 84899520611     PISSN: 17585082     EISSN: 17585090     Source Type: Journal    
DOI: 10.1088/1758-5082/6/2/024105     Document Type: Article

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