A Novel 3D Bioprinter Using Direct-Volumetric Drop-On-Demand Technology for Fabricating Micro-Tissues and Drug-Delivery.
Biocompatible Materials
/ chemistry
Bioprinting
Cell Survival
/ drug effects
Drug Delivery Systems
Extracellular Matrix
/ drug effects
Humans
Induced Pluripotent Stem Cells
/ drug effects
Pharmaceutical Preparations
Printing, Three-Dimensional
Tissue Engineering
/ trends
Tissue Scaffolds
/ chemistry
3D bioprinted tissues
3D bioprinter
direct-volumetric
drop-on-demand
drug-delivery model
Journal
International journal of molecular sciences
ISSN: 1422-0067
Titre abrégé: Int J Mol Sci
Pays: Switzerland
ID NLM: 101092791
Informations de publication
Date de publication:
14 May 2020
14 May 2020
Historique:
received:
21
04
2020
revised:
08
05
2020
accepted:
11
05
2020
entrez:
20
5
2020
pubmed:
20
5
2020
medline:
12
2
2021
Statut:
epublish
Résumé
Drop-on-demand (DOD) 3D bioprinting technologies currently hold the greatest promise for generating functional tissues for clinical use and for drug development. However, existing DOD 3D bioprinting technologies have three main limitations: (1) droplet volume inconsistency; (2) the ability to print only bioinks with low cell concentrations and low viscosity; and (3) problems with cell viability when dispensed under high pressure. We report our success developing a novel direct-volumetric DOD (DVDOD) 3D bioprinting technology that overcomes each of these limitations. DVDOD can produce droplets of bioink from < 10 nL in volume using a direct-volumetric mechanism with < ± 5% volumetric percent accuracy in an accurate spatially controlled manner. DVDOD has the capability of dispensing bioinks with high concentrations of cells and/or high viscosity biomaterials in either low- or high-throughput modes. The cells are subjected to a low pressure during the bioprinting process for a very short period of time that does not negatively impact cell viability. We demonstrated the functions of the bioprinter in two distinct manners: (1) by using a high-throughput drug-delivery model; and (2) by bioprinting micro-tissues using a variety of different cell types, including functional micro-tissues of bone, cancer, and induced pluripotent stem cells. Our DVDOD technology demonstrates a promising platform for generating many types of tissues and drug-delivery models.
Identifiants
pubmed: 32423161
pii: ijms21103482
doi: 10.3390/ijms21103482
pmc: PMC7279004
pii:
doi:
Substances chimiques
Biocompatible Materials
0
Pharmaceutical Preparations
0
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Subventions
Organisme : Peabody Foundation, Inc.
ID : N/A
Organisme : Constance and Anthony Franchi Fund for Pediatric Orthopaedics
ID : N/A
Organisme : Massachusetts General Hospital Department of Orthopaedic Surgery
ID : N/A
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