After assembling their "virtual" fat cells, Prof. Gefen and his group found that fat cells or lipids have a point where mechanical loads can disintegrate them, as well as a point at which they are able to resist disintegration. Prof. Gefen is now trying to determine the specific load magnitudes and frequencies for fat cells, perhaps using ultrasound at a supersonic frequency to vibrate the tissue.
Not all infomercials are light-weight
Those fat-busting "ab vibrators" that you can see on infomercials are on the right track, says Prof. Gefen, but the magnitude of mechanical loads and the frequency of their application need to be scientifically determined. Such information could be crucial to the future of our health, he says, noting that diabetes and obesity rates are rising. "Any treatment that would be effective in fighting obesity would also apply immediately to diabetes," he explains.
The next step for Prof. Gefen and his fellow researchers is to pin down the mathematical equations that allow for the dissolving of lipid droplets, then predict what a fat cell will do under certain levels of force. This will lead to better information on how to use mechanical loads to control the production of fat by fat cells -- whether this means applying a certain frequency of ultrasonic vibration, or simply spending more time in the gym.
|Contact: George Hunka|
American Friends of Tel Aviv University