Microcomputer Counters-Micro Cellular Engineering-Assignment, Exercises of Cellular and Tissue Engineering

This assignment is related to Micro Cellular Engineering course. It was given by Dr. Maniram Mukopadhyay at Alagappa University. It includes: Rodriguez, Microchip, Weakness, Micro-Scale, Application, Engineering, Counter, Microfluidics, HIV, AIDS

Typology: Exercises

2011/2012

Uploaded on 07/26/2012

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Projects in Microscale Engineering for the Life Sciences
Homework Assignment #4 Issued: March 6, 2007
Due: March 13, 2007
For this week’s homework, please read the Rodriguez paper that is posted on our website
(http://umech.mit.edu/6.07J/index.php in the Handouts section). Write short para-
graphs addressing each of the following issues (which we will also discuss in class on March 8):
1. Discuss the strengths of the microchip counter for counting CD4 cells over previous tech-
niques. What are its weaknesses? Is this technique a useful application of micro-scale
engineering? Why or why not?
2. Does the microchip counter work as effectively as previous cytometry techniques mentioned
by the authors? What evidence do the authors present to show that the microchip counter
works effectively? Are you convinced by their arguments?
3. What aspects of the CD4 counting system could be improved in your opinion (e.g., the
optical techniques used, the fluid delivery system, etc.)?
4. If the authors are correct in their assertion that this novel device may reduce costs of HIV
monitoring by more than ten-fold, then is this microfluidics device going to have a dramatic
impact in helping save lives in the fight against HIV/AIDS? Why or why not? What else
needs to be done to get this device into widespread clinical use?
5. One concern in developing diagnostic tools is the rate of false-positives (the test returns
a positive result although the patient is disease-free) and false-negatives (the test returns a
negative result although the patient has the disease). If we take flow cytometry as the ”gold
standard”, what are the rates of false-positives and false-negatives for this new technique?
How would you establish a threshold CD4 count to maximize the effectiveness of treatment?
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Projects in Microscale Engineering for the Life Sciences

Homework Assignment #4 Issued: March 6, 2007 Due: March 13, 2007

For this week’s homework, please read the Rodriguez paper that is posted on our website (http://umech.mit.edu/6.07J/index.php in the Handouts section). Write short para graphs addressing each of the following issues (which we will also discuss in class on March 8):

  1. Discuss the strengths of the microchip counter for counting CD4 cells over previous tech niques. What are its weaknesses? Is this technique a useful application of micro-scale engineering? Why or why not?
  2. Does the microchip counter work as effectively as previous cytometry techniques mentioned by the authors? What evidence do the authors present to show that the microchip counter works effectively? Are you convinced by their arguments?
  3. What aspects of the CD4 counting system could be improved in your opinion (e.g., the optical techniques used, the fluid delivery system, etc.)?
  4. If the authors are correct in their assertion that this novel device may reduce costs of HIV monitoring by more than ten-fold, then is this microfluidics device going to have a dramatic impact in helping save lives in the fight against HIV/AIDS? Why or why not? What else needs to be done to get this device into widespread clinical use?
  5. One concern in developing diagnostic tools is the rate of false-positives (the test returns a positive result although the patient is disease-free) and false-negatives (the test returns a negative result although the patient has the disease). If we take flow cytometry as the ”gold standard”, what are the rates of false-positives and false-negatives for this new technique? How would you establish a threshold CD4 count to maximize the effectiveness of treatment?

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