Gym on a chip for small animal exercise

What is claimed is: 1 . A method of performing a swimming exercise on a worm under controlled conditions comprising the steps of: providing a surface acoustic wave (SAW) device comprising a circular chamber filled with fluid dimensioned to hold a small animal or plurality of animals, wherein the chamber is between a pair of offset interdigital transducers (IDTs) that are deposited on a piezoelectric substrate and wherein upon actuation from a radio frequency (RF) source a SAW is generated and propagates along the piezoelectric substrate towards the chamber whereby it induces an acoustic streaming in the fluid inside the chamber to stimulate swimming exercise of the small animal or small animals; placing one or more worms in the fluid filled chamber of the SAW device; and applying power levels of 0.125 W or lower and a 50% duty cycle or lower. 2 . The method of performing a swimming exercise on a worm under controlled conditions according to claim 1 wherein the worm is C. elegans. 3 . The method of performing a swimming exercise on a worm under controlled conditions according to claim 1 further comprising the step of contacting the worm with one or more compounds to be screened for alleviating dopaminergic (DA) neuronal loss. 4 . The method of performing a swimming exercise on a worm under controlled conditions according to claim 1 wherein the SAW device further comprises a radio frequency (RF) source in communication with the IDTs. 5 . The method of performing a swimming exercise on a worm under controlled conditions according to claim 4 wherein the SAW device produces a streaming velocity that can be controlled via the RF signal input power. 6 . The method of performing a swimming exercise on a worm under controlled conditions according to claim 1 wherein the SAW device further comprises a controller and wherein the SAW device produces a streaming velocity that can be controlled via the RF signal input power, thus regulating the duration and intensity of exercise of the worm. 7 . The method of performing a swimming exercise on a worm under controlled conditions according to claim 1 wherein each individual IDT consists of about 20 electrode pairs with a spacing of about 50 μm and an aperture of about 6 mm. 8 . The method of performing a swimming exercise on a worm under controlled conditions according to claim 1 wherein the offset distance between each pair of IDTs is about 3 mm and the horizontal distance is about 18 mm.