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Biomedical Engineering and Bioengineering Commons

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Articles 1 - 6 of 6

Full-Text Articles in Biomedical Engineering and Bioengineering

Development Of Gelatin And Graphene-Based Nerve Regeneration Conduits Using 3d Printing Strategies For Electrical Transdifferentiation Of Mesenchymal Stem Cells, Metin Uz, Maxsam Donta, Meryem Mededovic, Donald S. Sakaguchi, Surya Mallapragada Feb 2019

Development Of Gelatin And Graphene-Based Nerve Regeneration Conduits Using 3d Printing Strategies For Electrical Transdifferentiation Of Mesenchymal Stem Cells, Metin Uz, Maxsam Donta, Meryem Mededovic, Donald S. Sakaguchi, Surya Mallapragada

Chemical and Biological Engineering Publications

In this study, gelatin and graphene-based nerve regeneration conduits/scaffolds possessing tailored 3D microstructures and mechanical properties were fabricated using 3D printing. The effect of 3D conduit microstructure and mechanical properties along with the applied electrical stimuli on mesenchymal stem cell (MSCs) behavior and transdifferentiation into Schwann cell (SC)-like phenotypes were investigated. The results indicated that the gelatin conduits/scaffolds had favorable 3D microstructural and mechanical properties for MSC attachment and growth. Immunocytochemistry results demonstrated that the application of electrical stimuli through the conductive graphene within the gelatin-based 3D microstructure had a profound effect on the differentiation of MSCs ...


Myosin Phosphorylation On Stress Fibers Predicts Contact Guidance Behavior Across Diverse Breast Cancer Cells, Juan Wang, Ian C. Schneider Mar 2017

Myosin Phosphorylation On Stress Fibers Predicts Contact Guidance Behavior Across Diverse Breast Cancer Cells, Juan Wang, Ian C. Schneider

Chemical and Biological Engineering Publications

During cancer progression the extracellular matrix is remodeled, forming aligned collagen fibers that proceed radially from the tumor, resulting in invasion. We have recently shown that different invasive breast cancer cells respond to epitaxially grown, aligned collagen fibrils differently. This article develops insight into why these cells differ in their contact guidance fidelity. Small changes in contractility or adhesion dramatically alter directional persistence on aligned collagen fibrils, while migration speed remains constant. The directionality of highly contractile and adhesive MDA-MB-231 cells can be diminished by inhibiting Rho kinase or β1 integrin binding. Inversely, the directionality of less contractile and adhesive ...


Anticancer Drugs, Le Zhao, Zengyi Shao, Jacqueline V. Shanks Jan 2017

Anticancer Drugs, Le Zhao, Zengyi Shao, Jacqueline V. Shanks

Chemical and Biological Engineering Publications

Plant‐derived anticancer drugs play a large role in anticancer pharmaceuticals. Through reviewing the four major types of plant anticancer drugs, namely vinca alkaloids, taxane diterpenoids, podophyllotoxin lignans, and camptothecin quinoline alkaloids, this article illustrates the development process, current status, existing challenges, and future perspective of the plant anticancer drug production. Moreover, this review explains how various biotechnologies, from the mature elicitation strategy to the “omics” techniques that are still undergoing development, can be applied to address the challenges in improving the production of the plant‐sourced anticancer drugs.


Smart Materials For Nerve Regeneration And Neural Tissue Engineering, Surya K. Mallapragada, Metin Uz Jan 2017

Smart Materials For Nerve Regeneration And Neural Tissue Engineering, Surya K. Mallapragada, Metin Uz

Chemical and Biological Engineering Publications

Stimuli-responsive smart-biomaterial-based approaches have been identified as a promising tool for nerve regeneration and neural tissue engineering. Understanding the stimuli-responsive behavior of the smart materials, along with the fundamentals of cellular interactions, is the key to future strategies for neural tissue engineering. Advances in the development and application of smart biomaterials and 3-D scaffold fabrication techniques as well as cellular reprogramming and transdifferentiation technologies make it possible to combine stem cells, cellular engineering, drug/gene delivery systems, nanotechnology and biomaterial-based therapies to develop experimental and clinical strategies for neural tissue engineering. The application of smart biomaterials in these technologies is ...


High Throughput Studies Of Cell Migration In 3d Microtissues Fabricated By A Droplet Microfluidic Chip, Xiangchen Che, Jacob A. M. Nuhn, Ian C. Schneider, Long Que Jan 2016

High Throughput Studies Of Cell Migration In 3d Microtissues Fabricated By A Droplet Microfluidic Chip, Xiangchen Che, Jacob A. M. Nuhn, Ian C. Schneider, Long Que

Chemical and Biological Engineering Publications

Arrayed three-dimensional (3D) micro-sized tissues with encapsulated cells (microtissues) have been fabricated by a droplet microfluidic chip. The extracellular matrix (ECM) is a polymerized collagen network. One or multiple breast cancer cells were embedded within the microtissues, which were stored in arrayed microchambers on the same chip without ECM droplet shrinkage over 48 h. The migration trajectory of the cells was recorded by optical microscopy. The migration speed was calculated in the range of 3–6 µm/h. Interestingly, cells in devices filled with a continuous collagen network migrated faster than those where only droplets were arrayed in the chambers ...


Matrix Metalloproteinase-14 Is A Mechanically Regulated Activator Of Secreted Mmps And Invasion, Amanda Haage, Dong Hyun Nam, Xin Ge, Ian C. Schneider Jul 2014

Matrix Metalloproteinase-14 Is A Mechanically Regulated Activator Of Secreted Mmps And Invasion, Amanda Haage, Dong Hyun Nam, Xin Ge, Ian C. Schneider

Chemical and Biological Engineering Publications

Matrix metalloproteinases (MMPs) are extracellular matrix (ECM) degrading enzymes and have complex and specific regulation networks. This includes activation interactions, where one MMP family member activates another. ECM degradation and MMP activation can be initiated by several different stimuli including changes in ECM mechanical properties or intracellular contractility. These mechanical stimuli are known enhancers of metastatic potential. MMP-14 facilitates local ECM degradation and is well known as a major mediator of cell migration, angiogenesis and invasion. Recently, function blocking antibodies have been developed to specifically block MMP-14, providing a useful tool for research as well as therapeutic applications. Here we ...