Introduction to Bioengineering Presented to Chabot College ENGR10

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Introduction to Bioengineering Presented to Chabot College ENGR10

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Title: Mechanical properties of dendritic actin networks Author: Dan Last modified by: Bruce Mayer, PE Created Date: 3/18/2006 9:16:43 PM Document presentation format – PowerPoint PPT presentation

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Title: Introduction to Bioengineering Presented to Chabot College ENGR10

1
Introduction to BioengineeringPresented to
Chabot College ENGR10 Nov06
Ovijit Chaudhuri PhD candidate Department of
Bioengineering, University of California Berkeley
2
What is Bioengineering?

Applying engineering techniques/analysis and
technology to biological and medical problems.
Some areas (biomedical engineering) are focused
on medical applications and using technology for
solutions to healthcare problems (traditional).
Others are focused on using engineering
principles and ideas to understand the way
biological systems are constructed.
Bioengineering is very interdisciplinary
encompassing various fields.

3
Prosthetics Hip replacement
4
Medical Imaging

MRI, PET, CAT, etc

Cuellar Clinic website
5
Biomechanics

How stiff does the hip replacement need to be?
What kind of loads will it experience?

6
Biomaterials

Mechanical properties?
Materials that are easy to mold?
What kind of materials are biocompatible?
Wear, tear, corrosion.
Immune Response?

www.machinedesign.com
7
Improving healthcare Lab on a chip Devices
El-Ali, et al., Nature, 2006
Yager, et al., Nature, 2006
Whitesides, Nature, 2006
8
Drug Delivery
Microjet injection device Fletcher lab, UC
Berkeley
Glucose sensor/ delivery device Gough lab, UCSD
9
Industry

Hip replacement
Other prosthetic devices
Cardiac stents (Guidant, Johnson and Johnson)
Other cardiac devices
Drug delivery devices

10
Understanding the engineering of biological
systems - Computational Biology
Max Delbrueck Center Berlin-Buch
11
Understanding the engineering of biological
systems - Synthetic Biology
Keasling lab, UC Berkeley
12
Understanding the engineering of biological
systems -Tissue Engineering
Engler, et al., Cell, 2006
Kurpinski, et al., Cell, 2006
Nelson, et al., Science, 2006
13
Understanding the engineering of biological
systems cell mechanics and motility
David Rogers, Vanderbilt U.
14
Atomic Force Microscopy
15
Our Atomic Force Microscope
16
Growing actin networks power cell movement and
provide rigidity
Svitkina, et al.,JCB, 1999
17
Our studies of actin networks
Parekh, et al., Nat. Cell Bio. 2005
18
Questions?

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