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Transcript 
BIOE 301
Lecture Seven
Four Questions




What are the problems in healthcare today?
Who pays to solve problems in healthcare?
How can we use science and technology to
solve healthcare problems?
Once developed, how do new healthcare
technologies move from the lab to the
bedside?
The Project – Part One

Write an editorial advocating a change in
public health policy




Identify an important health problem
Carry out research to understand scope of
problem and limitations of current health
technologies
Propose a policy change to develop and/or
implement solutions to the health problem
Write an editorial in support of your policy
Project – Part One

Medline


http://www.rice.edu/fondren/
Sample editorials



http://www.oneworld.net/article/view/71857/
1/5294
http://www.washingtonpost.com/wpdyn/content/article/2006/01/10/AR200601100
1542.html
http://www.economist.com/opinion/displaySto
ry.cfm?Story_id=4221484&CFID=61903351&
CFTOKEN=519df0b-32e6754a-5419-44a1a79a-a9bf34a378b2
Ovary
Three Case Studies

Prevention of infectious disease


Early detection of cancer




HIV/AIDS
Cervical Cancer
Ovarian Cancer
Prostate Cancer
Treatment of heart disease


Atherosclerosis and heart attack
Heart failure
Today:
The process of developing
a new medical technology
Science of
Understanding
Disease
Emerging
Health
Technologies
Bioengineering
Preclinical Testing
Ethics of research
Clinical Trials
Abandoned due to:
• poor performance
• safety concerns
• ethical concerns
• legal issues
• social issues
• economic issues
Cost-Effectiveness
Adoption &
Diffusion
Class Activity #1 – Gene Therapy
Directions:

Place the articles in correct chronological order








Contextual clues in the selections
Your knowledge of the science of DNA and genes
Your recollection of events in the media.
Articles reflect current thought for the time
First article published in 1953; the last in 2003
Discuss in group; come to consensus
Choose one member of your group to speak

Did your ideas about the sequence match each other?

What clues or events prompted you to make choice?
Do not discuss your ideas with other groups
Science of
Understanding
Disease
Emerging
Health
Technologies
Bioengineering
Preclinical Testing
Ethics of research
Clinical Trials
Abandoned due to:
• poor performance
• safety concerns
• ethical concerns
• legal issues
• social issues
• economic issues
Cost-Effectiveness
Adoption &
Diffusion
Question:

What is the difference between science
and engineering?
Definitions

Science

Body of knowledge about natural phenomena
which is:
Well founded
 Testable



Purpose is to discover, create, confirm,
disprove, reorganize, and disseminate
statements that accurately describe some
portion of physical, chemical, biological world
“Science is the human activity of seeking
natural explanations for what we observe
in the world around us.”
Definitions

Engineering

Systematic design, production and operation
of technical systems to meet practical human
needs under specified constraints
Time
 $$
 Performance
 Reliability


“Engineering. . . in a broad sense. . . is
applying science in an economic manner
to the needs of mankind “
Definitions

What is the difference between science
and engineering?

Science
Inquiry to better understand world around us
 No practical goal necessary


Engineering

Use of science to solve real world problem in
practical way
Engineering Design Method


SPECS
Fashioning a product made for a practical
goal in the presence of constraints
Six design steps:



FMEA



1.
2.
3.
4.
5.
6.

Identify a need
Define the problem (goals, constraints)
Gather information
Develop solutions
Refine Design
Evaluate solutions
Communicate results
Papers, patents, marketing
Class Activity #2 – Take Apart
Directions:




You have been given a piece of equipment
Disassemble the equipment
Lay out the pieces in a way that shows the
inter-relationships between the parts
What are the primary constraints you think
the designers were trying to satisfy?
Example: Cervical cancer detection


Science of precancer
Engineering solutions for precancer detection






1.
2.
3.
4.
5.
6.
Identify a need
Define the problem (goals, constraints)
Gather information
Develop solutions
Evaluate solutions
Communicate results
Science of Precancer
Normal Cervical Tissue
Cervical Pre-Cancer
• Diagnosis based on morphologic features
– Nuclear size, shape, texture
– Nuclear-to-cytoplasmic ratio
Technology: Confocal Microscopy
Sample
Point Source
Beamsplitter
Illumination
Rejected
Light
Pinhole
Accepted
Image Rejected
Plane
Plane
Light
Detector
Webb, J. Investigative Dermatology,1995
Example: Cervical cancer detection


Science of precancer
Engineering solutions for precancer detection






1.
2.
3.
4.
5.
6.
Identify a need
Define the problem (goals, constraints)
Gather information
Develop solutions
Evaluate solutions
Communicate results
Confocal Microscope
Imaging Endogenous Contrast
Normal Cervix
Abnormal Cervix
LEEP Study
In Vivo Fiber Optic Confocal Microscope
Miniature Objective
7 mm outer diameter
22 mm long
Liang et al., Appl. Opt., 2002.
Portable system for clinical
studies
Miniature Microscopes
Collaboration with M. Descour
Example: Cervical cancer detection


Science of precancer
Engineering solutions for precancer detection






1.
2.
3.
4.
5.
6.
Identify a need
Define the problem (goals, constraints)
Gather information
Develop solutions
Evaluate solutions
Communicate results
Journal Article
Patent


www.uspto.gov
Diagnostic Imaging Patent
The Project – Part Two

Design a new technology to solve a health
problem and present a mock design of the
new technology





Define the problem
Define the constraints
Develop an alternative solution that meets the
constraints
Construct a prototype - Materials costs <$10
Communicate results for an in class
demonstration and design review
Summary of Lecture 7

Science


“Science is the human activity of seeking
natural explanations for what we observe in
the world around us.”
Engineering


Systematic design, production and operation
of technical systems to meet practical human
needs under specified constraints
Six steps of the engineering design method
Assignments Due Next Time

Project 2
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