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Marianna Foldvari
School of Pharmacy, Professor
[Global Impact] [CBC] April 30, 2018 "Working with gene therapy to treat glaucoma"
[Waterloo Stories] July 5, 2012 "Revolutionary drug delivery"
Veronika Magdanz
Systems Design Engineering
Research Interests:
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microrobots
- sperm cells
- magnetic actuation
- remote control
- wireless
- soft robots
- medical robots
- bioprinting
- 3D printing
We develop microrobots for medical applications. The goal is to develop more targeted, active, but less invasive strategies for drug or cell delivery with the help of wireless, autonomously moving microrobots. One strategy is to combine biological elements with artificial components in a biohybrid approach. The biological component (cells, molecules) can serve as power source, loading unit or structural unit.
One example is the "spermbot" - a sperm cell remotely controlled with magnetic fields: https://phys.org/news/2014-01-sperm-bots-desired-video.html
Another example is IRONSperm: a magnetically functionalized nonmotile sperm driven by magnetic fields:https://www.science.org/doi/10.1126/sciadv.aba5855
Inspired by the motion of sperm, we also develop small scale flexible magnetic robots for noninvasive surgery (coming soon). I am also interested in reproductive biology and research that elucidates reasons for infertility. We look into the mechanisms of sperm migration and some interesting phenomena, such as sperm bundling (publication online soon)
[Google Scholar]
Joe Quadrilatero
Kinesiology
Research Interests:
The primary focus of the Skeletal Muscle Biology and Cell Death Laboratory is to study cell death processes (i.e., apoptosis and autophagy) in skeletal muscle. In addition, a major theme is the influence of mitochondrial signaling and dynamics on skeletal muscle development, function, regeneration, and health.
Bruce Reed
Biology
Research Interests:
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Molecular genetics
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Cell and Developmental Biology
- Stem Cell Biology & Cellular Differentiation
- Programmed Cell Death
- Live-Imaging Microscopy
Evelyn Yim
Chemical Engineering
Research Interests:
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Stem cells, nanofabrication and advancement of biomaterials in healthcare technologies to repair, replace or regenerate damaged tissue and organ structures
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Fabrication and application of nano-structure for biomedical applications in neural, vascular, and cornea tissue engineering
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Biomaterial approach to study ex-vivo pluripotent stem cell expansion
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Modulation of cell behavior with nanotopography
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Topography-regulation of stem cells lineage commitment and differentiation
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Differentiation of adult and pluripotent stem cells with nanotopography