Essential steps in bioprinting: From pre-to post-bioprinting.
P Datta, A Barui, Y Wu, V Ozbolat, KK Moncal… - Biotechnology advances, 2018
An increasing demand for directed assembly of biomaterials has inspired the
development of bioprinting, which facilitates the assembling of both cellular and
acellular inks into well-arranged three-dimensional (3D) structures for tissue …
development of bioprinting, which facilitates the assembling of both cellular and
acellular inks into well-arranged three-dimensional (3D) structures for tissue …
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The Arrival of Commercial Bioprinters-Towards 3D Bioprinting Revolution!
D Choudhury, S Anand, MW Naing - International Journal of Bioprinting, 2018
The dawn of commercial bioprinting is rapidly advancing the tissue engineering field.
In the past few years, new bioprinting approaches as well as novel bioinks
formulations have emerged, enabling biological research groups to demonstrate the …
In the past few years, new bioprinting approaches as well as novel bioinks
formulations have emerged, enabling biological research groups to demonstrate the …
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Bioprinting of artificial blood vessels
HY Ng, KXA Lee, CN Kuo, YF Shen - International Journal of Bioprinting, 2018
Vascular networks have an important role to play in transporting nutrients, oxygen,
metabolic wastes and maintenance of homeostasis. Bioprinting is a promising
technology as it is able to fabricate complex, specific multi-cellular constructs with …
metabolic wastes and maintenance of homeostasis. Bioprinting is a promising
technology as it is able to fabricate complex, specific multi-cellular constructs with …
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3D bioprinting of scaffolds with living Schwann cells for potential nerve tissue engineering applications
L Ning, H Sun, T Lelong, R Guilloteau, N Zhu… - Biofabrication, 2018
Abstract Three-dimensional (3D) bioprinting of biomaterials shows great potential for
producing cell-encapsulated scaffolds to repair nerves after injury or disease. For
this, preparation of biomaterials and bioprinting itself are critical to create scaffolds …
producing cell-encapsulated scaffolds to repair nerves after injury or disease. For
this, preparation of biomaterials and bioprinting itself are critical to create scaffolds …
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[HTML] Bioprinting of 3D tissues/organs combined with microfluidics
J Ma, Y Wang, J Liu - RSC Advances, 2018
Accompanied by the increasing demand for organ transplants and personalized
medicine, recent years have witnessed great developments in the regeneration of
tissues/organs, which has benefited from various manufacturing technologies …
medicine, recent years have witnessed great developments in the regeneration of
tissues/organs, which has benefited from various manufacturing technologies …
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Future of 3D printing: How 3D bioprinting technology can revolutionize healthcare?
S Morris - Birth Defects Research
Currently there are more than 2,000 children on the transplant waiting list—and more
than 100,000 Americans nationwide—awaiting a matching organ. Most children
aged one through 10 are awaiting a kidney, liver, or heart. As with any transplant …
than 100,000 Americans nationwide—awaiting a matching organ. Most children
aged one through 10 are awaiting a kidney, liver, or heart. As with any transplant …
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