Washington, April 15 (Inditop.com) New research in the field of tissue engineering holds a promise that far fewer lab animals will be needed for experimental trials of medical formulations.
A study into fat cells by Amit Gefen, professor at the Tel Aviv University’s (TAU) Faculty of Engineering, has led him to conclude that the necessary tissue can be produced from fat, skin, bone and muscle cells.
His breakthrough study could have hundreds of applications in the pharmaceutical and medical world.
“Drugs make our lives better, and basic science is needed to push new drugs through clinical trials,” he said.
“But there is no doubt that an untold number of animals are sacrificed in the laboratory setting – both in basic research and in applied conditions when testing particular molecules,” says Gefen.
He heads TAU’s Teaching Laboratory for Cell and Tissue Engineering. As a medical researcher himself, he was dependent on animal trials for testing new hypotheses he developed for living systems – until recently.
Bridging the worlds of biology and engineering, Gefen is now using adult rat stem cells – cells that can be stimulated to create skin, bone, fat and muscle tissue from an animal in a lab setting.
In his own work on studying the mechanical properties of pressure ulcers, many tissue replications were needed. His new approach no longer requires the sacrifice of large numbers of animals. When an experiment is over, not one animal life has been lost.
The use of engineered tissues, says Gefen, may also be more scientifically efficient than using those from a living source, said a TAU release.
“The model we’ve created offers a very reliable method for researchers asking questions about basic science, and those investigating new drugs. We can injure tissue in a very controlled environment and grow muscle tissue without blood vessels, thereby neutralising certain variables that often cloud what’s happening in an experiment,” he said.
Though Gefen’s method may not completely eliminate the need for animal testing, as few as five percent of the animals used today will need to be sacrificed in future tests, he predicts.
His procedure was published in a recent issue of Tissue Engineering.
