Posts Tagged ‘evolution’

Your DNA Barcode

Sunday, February 21st, 2010
Can we be DNA barcoded like a soup can in a grocery store?

Can we be DNA barcoded like a soup can in a grocery store?

How many of you would take a blood test to learn exactly how long you will live? How about whether or not you will become demented? Since the Human Genome Project ended, the genes and mutations associated with a vast array of diseases are being discovered daily and it is pretty easy to just put them on “chip” and make them available to the public.

Don’t get me wrong; gene testing already has already improved our lives. Such tests can clarify a diagnosis and better direct care, while others allow families to avoid having children with life-threatening or disabling conditions. They can be used to prevent disease before it happens, as with monitoring and removal of colon growths among those who have a gene for familial polyposis, and can diagnose common iron-storage diseases early enough to treat them and prevent them from becoming fatal. They can also help to positively identify murderers two decades after the crime.

One real problem is that many commercialized gene tests are targeted to healthy people who might be at high risk because of a strong family medical history for a disorder. Unfortunately, because of how complex we are as biological organisms, the tests give only a “probability” for developing the disorder. That means that some people who carry a mutation may never develop the disease. Another limitation is the possibility of laboratory errors. What this means is that the tests are not perfect and could be wrong.

And what happens to your job prospects and health (or life) insurance rates when it is learned through genetic testing that you might develop a significant disease? Well…nothing. Because of the federal GINA Law (Genetic Information Nondiscrimination Act) passed in May 2008, insurance companies and employers cannot discriminate on the basis of information derived from genetic tests. So, genetics has now been added to the list of characteristics first embodied by the Civil Rights Act of 1964, that states that U.S. employers cannot discriminate according to race, color, national origin, sex, or religion. And this is good.

So, go ahead and take the “23 and Me” “DeCode” or “Navigenics” genomic screens if you so desire. Get to know your DNA barcode. Maybe you will get an idea of what may be around the corner for you. And maybe, just maybe, you will take better care of yourself knowing more about your genes. Just understand that many in the medical community feel that uncertainties surrounding test results, the current lack of available treatment options, the tests’ potential for provoking anxiety and social stigmatization could outweigh the benefits of testing. You know the saying: “Too much information…”

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Music to Our Ears

Sunday, November 8th, 2009

 

Miles and Microsurgery: it doesn't get any better.

Miles and Microsurgery: it doesn't get any better.

For as long we have pounded drums and plucked strings, listening to music has affected people’s sense of well-being, lifting and consoling their spirits, inducing calm and tranquility, or the trance of dance. I have listened to the sounds of classical jazz during microsurgery operations throughout my professional career as a surgeon. Coltrane, Miles, Evans, Djavan, Caetano Veloso and all the greats sweetly waft in the operating suite and overcome the din of devices within the room. Does music in the operating room lead to less wasted and more fluid surgical motion, and therefore faster procedures and better patient outcomes? Who knows. But as the background makes the painting, the music may make the maestro.

 

A recent study suggests that listening to music in surgery may also benefit patients. Maybe this is why oral surgeons and dentists offer earphones and video glasses to their patients. Anything is better than listening to the whine of the drill during a root canal. The effect of music on cortical, limbic or higher brain centers has previously been studied in patients undergoing brain surgery. These centers control feeling, thoughts and memory. In this recent research, a neurosurgeon studied the effect of different kinds of music on deeper portions of the brain, located in the thalamus. This region is responsible for sensation, motor function, consciousness, sleep and alertness. This study of music and Parkinson’s patients is quite different from what Oliver Sacks describes in his book Musicophilia, in which music therapy is used to increase the mobility and responsiveness of Parkinson’s patients.

According to this new study in awake patients undergoing surgery for Parkinson disease, music slowed the neuronal firings deep within the brain. As a consequence, patients became physically more relaxed, calm and even slept during their surgery. And pure melodic music appeared to be the most soothing to most patients.

So music in the operating room may make more sense than we think. In addition to helping the surgeon with his surgery, it may reduce patient anxiety. This in turn, could shorten operative times, reduce the need for anesthetic medication, and lead to quicker patient recovery and shorter hospital stays. In a word, more music, less pills.

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Posted in men's health, sexual health | 4 Comments »

A Short History of the Y Chromosome

Tuesday, September 22nd, 2009
The Y chromosome: diminutive but cool.

The Y chromosome: diminutive but cool.

Among the many chromosomes in a man’s body, the smallest one with the largest personality has to be the Y chromosome. With it, you are a male; without it, you are a female, with few exceptions. More than any other chromosome, it really defines who you are.

The Y chromosome controls other traits as well: hairy ears, tooth enamel, and stature to name a few. But for the longest time, the Y chromosome was also considered home to a lot of “junk DNA” that we thought had no purpose. We now know that much of this DNA has a purpose and that the Y is the home of many important male fertility genes.

Before its association with male fertility, the Y chromosome was widely considered a genetic black hole, a chromosome that evolved as a broken remnant of the X chromosome. We knew that the “maleness” gene was on the Y and a few other genes. However, since the Y chromosome has been fully undressed as a result of the human genome project, we now know that it is very unique, even special, and that it evolves in its own special way to keep men men.

The Y chromosome, and its neighbor the X chromosome, evolved into “sex” chromosomes hundreds of millions of years ago. This is important because many species do not have a chromosome for each sex like we do. Some species become male or female based simply on the environment in which they find themselves. Imagine that! A boy in the Artic but a girl in the Caribbean. At first, the original sex chromosomes probably evolved as a pair of two X chromosomes. Then, 150 million years ago, the Y chromosome made its break from the X chromosome. Basically, it stopped associating with it and this led to our current X-Y system of sex determination. I guess this is when men really became men.

As it works now, the single Y chromosome has no partner with which to swap genes when sperm are made (at a normal rate of 1200 sperm/heartbeat!) This “swap meet” of genes that occurs when new sperm are formed is an important repair process for the 22 other chromosomes and is absolutely critical for our evolution as a species. In fact, this is the source of our evolution. So, now that the Y chromosome has become isolated and less of a team player, is it doomed to extinction? More importantly, are men are doomed to extinction?  

So how does the Y chromosome survive and repair itself, living alone in isolation while the world is changing around it? Well, we now know that it manages very well on its own, thank you. And this has probably been true for about 5 million years. Although it no longer swaps genes with the X chromosome, from which it came, the human Y chromosome is able to swap genes with itself to discard bad genes. It’s called gene conversion and no other chromosome does it. Just the Y. How uniquely male.

Basically, essential Y chromosome genes are arranged in a series of eight “palindromes,” or mirror image sequences, each of which folds like a hairpin in which its two arms come together. Then the “DNA checkers” compare the two arms for any differences and convert a mutation back to the correct sequence, thus saving the Y’s genes from mutational decay. So, the older “junk DNA” thought to exist on the Y chromosome is now known to represent DNA that it critical for its survival. One man’s junk is another man’s treasure. And so it goes, the Y lives on, and men do too.

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