Bioprinting in ophthalmology: current advances and future pathways
N Poomathi, S Singh, C Prakash, RV Patil, PT Perumal… - Rapid Prototyping Journal, 2018
Purpose Bioprinting is a promising technology, which has gained a recent attention,
for application in all aspects of human life and has specific advantages in different
areas of medicines, especially in ophthalmology. The three-dimensional (3D) …
for application in all aspects of human life and has specific advantages in different
areas of medicines, especially in ophthalmology. The three-dimensional (3D) …
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Natural Polymers for Organ 3D Bioprinting
F Liu, Q Chen, C Liu, Q Ao, X Tian, J Fan, H Tong… - Polymers, 2018
Abstract Three-dimensional (3D) bioprinting, known as a promising technology for
bioartificial organ manufacturing, has provided unprecedented versatility to
manipulate cells and other biomaterials with precise control their locations in space …
bioartificial organ manufacturing, has provided unprecedented versatility to
manipulate cells and other biomaterials with precise control their locations in space …
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3D Bioprinting of Breast Cancer Models for Drug Resistance Study
Y Wang, W Shi, MA Kuss, S Mirza, D Qi… - ACS Biomaterials Science & …, 2018
Adipose derived mesenchymal stem/stromal cells (ADMSC) are one of the major
stromal cells in the breast cancer microenvironment to promote cancer progression.
Previous studies using two-dimensional (2D) cultures on the effects of ADMSC on …
stromal cells in the breast cancer microenvironment to promote cancer progression.
Previous studies using two-dimensional (2D) cultures on the effects of ADMSC on …
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Orthopedic Implant Design and Analysis: Potential of 3D/4D Bioprinting
CJ Wang, KB Hazlehurst - 3D and 4D Printing in Biomedical Applications …, 2019
The use of 3D printing for surgical planning and personalized medical implants are
increasing, as 3D printed implants can be used in many types of surgery. Starting
from CT or MRI images, personalized implant design and manufacturing can allow …
increasing, as 3D printed implants can be used in many types of surgery. Starting
from CT or MRI images, personalized implant design and manufacturing can allow …
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Three-dimensional bioprinting of gelatin methacryloyl (GelMA)
G Ying, N Jiang, C Yu, YS Zhang - Bio-Design and Manufacturing, 2018
Abstract The three-dimensional (3D) bioprinting technology has progressed
tremendously over the past decade. By controlling the size, shape, and architecture
of the bioprinted constructs, 3D bioprinting allows for the fabrication of tissue/organ …
tremendously over the past decade. By controlling the size, shape, and architecture
of the bioprinted constructs, 3D bioprinting allows for the fabrication of tissue/organ …
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Current Trends and Challenges in Biofabrication Using Biomaterials and Nanomaterials: Future Perspectives for 3D/4D Bioprinting
LP Silva - 3D and 4D Printing in Biomedical Applications …, 2019
Biofabrication is a multidisciplinary (and maybe interdisciplinary) research field
combining principles, protocols, and practice from engineering, biology, and material
sciences through the use of manufacturing processes to build models and create …
combining principles, protocols, and practice from engineering, biology, and material
sciences through the use of manufacturing processes to build models and create …
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3D and 4D Scaffold-Free Bioprinting
CS Ong, P Yesantharao, N Hibino - 3D and 4D Printing in Biomedical Applications …, 2019
Traditional 3D bioprinting (inkjet bioprinting, microextrusion, and laser bioprinting)[1]
uses scaffolds (also referred to as hydrogels, bioinks, matrices, biomaterial,
biomatrices, etc.) as carriers to embed living cells. The cells, together with the …
uses scaffolds (also referred to as hydrogels, bioinks, matrices, biomaterial,
biomatrices, etc.) as carriers to embed living cells. The cells, together with the …
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Design, 3D Bioprinting, and Testing of Otic Prosthesis
D Rogozea - 2018
The middle ear is a complex organ with multiple functions. It is prone to accidental,
genetic, excessive noise exposure, or age-related damage. Its main role is to convey
and amplify the mechanical vibrations of the tympanic membrane to the acoustic …
genetic, excessive noise exposure, or age-related damage. Its main role is to convey
and amplify the mechanical vibrations of the tympanic membrane to the acoustic …
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