Machine learning for bioelectronics on wearable and implantable devices: challenges and potential
Bioelectronics presents a promising future in the field of embedded and implantable
electronics, providing a range of functional applications, from personal health monitoring to …
electronics, providing a range of functional applications, from personal health monitoring to …
Invited review‐applications for 3D printers in veterinary medicine
AM Hespel, R Wilhite, J Hudson - Veterinary Radiology & …, 2014 - Wiley Online Library
Recent technological advances in 3D printing have resulted in increased use of this
technology in human medicine, and decreasing cost is making it more affordable for …
technology in human medicine, and decreasing cost is making it more affordable for …
[HTML][HTML] 3D bioprinting processes: A perspective on classification and terminology
This article aims to provide further classification of cell-compatible bioprinting processes and
examine the concept of 3D bioprinting within the general technology field of 3D printing …
examine the concept of 3D bioprinting within the general technology field of 3D printing …
Layer-by-layer: the case for 3D bioprinting neurons to create patient-specific epilepsy models
N Antill-O'Brien, J Bourke, CD O'Connell - Materials, 2019 - mdpi.com
The ability to create three-dimensional (3D) models of brain tissue from patient-derived cells,
would open new possibilities in studying the neuropathology of disorders such as epilepsy …
would open new possibilities in studying the neuropathology of disorders such as epilepsy …
[HTML][HTML] Bioprinting of multimaterials with computer-aided design/computer-aided manufacturing
Multimaterials deposition, a distinct advantage in bioprinting, overcomes material's limitation
in hydrogel-based bioprinting. Multimaterials are deposited in a build/support configuration …
in hydrogel-based bioprinting. Multimaterials are deposited in a build/support configuration …
Strategic design and recent fabrication techniques for bioengineered tissue scaffolds to improve peripheral nerve regeneration
Bioengineered tissue scaffolds are a potential tool for improving regenerative repair of
damaged peripheral nerves. Novel modes of fabrication coupled with scaffold design …
damaged peripheral nerves. Novel modes of fabrication coupled with scaffold design …
Layer-by-layer 3D constructs of fibroblasts in hydrogel for examining transdermal penetration capability of nanoparticles
Nanoparticles are emerging transdermal delivery systems. Their size and surface properties
determine their efficacy and efficiency to penetrate through the skin layers. This work utilizes …
determine their efficacy and efficiency to penetrate through the skin layers. This work utilizes …
Bioprinting in cardiovascular tissue engineering: A review
Fabrication techniques for cardiac tissue engineering have been evolving around scaffold-
based and scaffold-free approaches. Conventional fabrication approaches lack control over …
based and scaffold-free approaches. Conventional fabrication approaches lack control over …
3D printers their clinical, experimental, and teaching uses
AM Hespel - 2015 - search.proquest.com
Recent technological advances in 3D printing have resulted in increased use of this
technology in human medicine, and decreasing cost is making it more affordable for …
technology in human medicine, and decreasing cost is making it more affordable for …
[PDF][PDF] 3D Bioprinted hydrogel scaffolds laden with schwann cells for use as nerve repair conduits
A Rajaram - 2015 - harvest.usask.ca
The goal of nerve tissue engineering is to promote and guide axon growth across a site of
nerve injury without misdirection. Bioengineered tissue scaffolds have been shown to be …
nerve injury without misdirection. Bioengineered tissue scaffolds have been shown to be …