Finale of BME510

I took BME 510: Biological System Modeling this semester. It taught the basic aspects of modeling of nonlinear dynamic modeling, such as parameter estimation and model validation. The very known cases would be population growth model and predator and prey model.
Tonight was the presentation of everyone's final project. With no boundary, we could do any modeling, usually related to our own project. It could be the most divergent presentations ever. By the way, I am the only biology major. Others are mostly biomedical engineering
My topic is "A dynamic model of DAMGO mediating NF-kB activation". I was hoping to talk more of the model, but it turned out my classmates asked more questions about the biological background of the cell signaling.
My friend Chloe's project is calf muscle pump, which is called the second heart. It helps to pump the heart from lower body back to heart. In order to collect data, she has to sit still for hours with the monitor wrapped on her leg, and watch dramas on the laptop. What a wonderful scientific experiment!
And the most interesting one is from Shawatana. Her model is to reveal the relation between USA GDP and birthrate. The more amazing of her is that she is working on an equipment to help losing weight. (She is definitely slim BTW. )I told her, let me use that equipment when it is completed.
Had a lot of fun tonight. Thank you, Dr. Hiroki Sayama. You replied my 4AM email after 3 hr(7 AM) and corrected my codes in such short time! Your efficiency is admirable!

Antibody Tests On Fingerprints To Detect Drugs And Diseases

ScienceDaily (May 17, 2007) — To this day, fingerprints are just the thing when a perpetrator needs to be arrested or a person needs to be identified. British scientists working with David A. Russell also want to make it possible to use fingerprints to reveal drug and doping transgressions and to diagnose diseases. As the team from the University of East Anglia in Norwich and King’s College in London report in the journal Angewandte Chemie, they have now been able to use specific antibodies to differentiate between the fingerprints of smokers and nonsmokers.

A fingerprint is of no use to an investigator unless it can be matched to one in a database or can be directly compared with that of a suspect. Russell and his team expect that we will soon be able to gain information about the lifestyle of the person who made the fingerprints, which could shrink the pool of suspects. In this way, it should be possible to use fingerprints to detect drugs, medications, or food that have been consumed, and also to diagnose some diseases.

Researchers want to coax all of these secrets out of the tiny traces of perspiration that a fingerprint leaves on a surface. The research team demonstrated the ease with which this should be possible by differentiating between fingerprints made by smokers and nonsmokers. To avoid false results from chance contact with tobacco products, they designed their system to detect cotinine, a metabolite formed by the body after consumption of nicotine.

The researchers wet the fingerprints with a solution containing gold nanoparticles to which cotinine-specific antibodies were attached. These bind to the cotinine. Subsequently, a second antibody, which was tagged with a fluorescent dye and binds specifically to cotinine antibodies, was applied to the fingerprint. Because there are many cotinine antibodies attached to each nanosphere, there is a significant amplification effect.

Indeed, the ridge patterns of smokers’ fingerprints fluoresce, while those of nonsmokers do not. The fingerprints are very highly resolved and can be lifted for comparison with known prints, just as in conventional procedures. When magnified, even the tiny sweat pores along the ridges of the fingertip become visible, which can also be used to make an unambiguous assignment.

In addition to forensic applications, this method would be ideal for detecting doping. Sample manipulations by the test subjects would hardly be possible since each sample is uniquely assignable to a specific athlete by virtue of the ridge pattern. Medical diagnostics could also benefit in the form of simple and quick mass screening with no danger of sample mix-ups. 

John Wiley & Sons, Inc.. "Antibody Tests On Fingerprints To Detect Drugs And Diseases."ScienceDaily, 17 May 2007. Web. 9 May 2011 

My first forensics book

I was looking forward for a introductory textbook in forensics. And I picked out Richard Safersein. 

First, this has been used as undergrad textbook for years. 

Secondly, I paid for about 7 dollars. Cheap, aha? Because it is published in 2006.  Well, it is definitely efficient for me as a beginner. 

And, what surprised me is that this 9th edition received much better reviews than its later10th edition. 

I just browse it a little bit when I got it in 2 days after ordering. 

The images are really nice. And it provides a lot of online resources. So do not worry about getting legged behind the rapid development in this field. 

I will share my reflection when I start to read it.

Now I have to concentrate on my biological systematic modeling project due next week. 

By the way, Wolfram Mathematica is cool but pricey. 

Thanks for reading my first post!

http://www.amazon.com/Criminalistics-Introduction-Forensic-Science-College/dp/0132216558/ref=sr_1_3?s=books&ie=UTF8&qid=1304912061&sr=1-3