New tissue engineering research could greatly reduce the number of lab animals required for FDA mandated experimental trials on new health products with medical formulations.

Scientists from Tel Aviv University writing in Tissue Engineering say that the necessary tissue for animal trials can be produced from adult rat stem cells ― cells that can be stimulated to create skin, bone, fat and muscle tissue from an animal in a laboratory setting.

The use of engineered tissues may also be more scientifically efficient than using those from a living source. "The model we've created offers a very reliable method for researchers asking questions about basic science, and those investigating new drugs," says Prof. Amit Gefen, a researcher at Tel Aviv University. "We can injure tissue in a very controlled environment and grow muscle tissue without blood vessels, thereby neutralizing certain variables that often cloud what's happening in an experiment."


Fat cells (dyed orange) produced in a lab setting 

(Photo Credit: AFTAU)

Though the method may not completely eliminate the need for animal testing, as few as 5% of the animals used today will need to be sacrificed in future tests. "It's a matter of proportion. Our tools spare an enormous number of lives," Prof. Gefen says.

The team is also developing a new tool for researchers to investigate fat accumulation in cells (an important question for diabetes researchers) and weight loss drugs. Among the devices is one that can tell doctors how much mechanical stress is being placed on a person's foot, buttocks or other soft tissues. Another measures how much sensation is left in a diabetic limb. For all these approaches, researchers have adopted tissue engineering methods to use fewer animals in his trials.

"We are now able to build a number of 'simplified' living tissues quite readily, and we're able to keep them 'alive,'" Prof. Gefen says. "They're genetically similar to the biological tissue of the animal, so we can factor out irrelevant physiological elements such as bleeding and pain response in an experiment. The fact that this tissue is genetically identical and the environmental factors are so well-controlled means that we can obtain far more experimental reproducibility than with experiments done on live animals."