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Biotechnology Medical Technology

Microsurgery Using Microgrippers

11 years, 2 months ago

2193  0
Posted on Sep 04, 2008, 11 a.m. By Donna Sorbello

MIT Technology Review is reporting on new metal and polymer microgrippers that can be chemically activated to grab or cut tissue deep within the body without requiring any incisions. The scientists that developed the device envision swallowing a bunch of these and then guiding the particles using magnets to specific spots in the body for microsurgeries or doing biopsies.

MIT Technology Review is reporting on new metal and polymer microgrippers that can be chemically activated to grab or cut tissue deep within the body without requiring any incisions. The scientists that developed the device envision swallowing a bunch of these and then guiding the particles using magnets to specific spots in the body for microsurgeries or doing biopsies.

From MIT Tech Review:

A gripper based on the current design could respond autonomously to chemical cues in the body. For example, it might react to the biochemicals released by infected tissue by closing around the tissue, so that pieces can be removed for analysis.
Gracias [David Gracias, biomolecular and chemical-engineering professor at Johns Hopkins University] and his colleagues presented the microgripper at the American Chemical Society meeting earlier this month. To demonstrate the device, they used it to grasp and maneuver tiny beads and clumps of cells in a petri dish. They have also used the device in the laboratory to perform an in vitro biopsy on a cow's bladder. "This is the first micromachine that has been shown convincingly to do very useful things," Gracias says. "And it does not require electric power for operation."

The open gripper is 500 micrometers (0.05 centimeters) in diameter, and it is made of a film of copper and chromium covered with polymer. As long as the polymer stays rigid, the gripper remains open. But introducing a chemical trigger or lowering the temperature causes the polymer to soften, actuating the gripper's fingers so that they curl inward to form a ball that is 190 micrometers wide. Another chemical signal can be used to reopen the gripper. All of the chemicals used as triggers in experiments are harmless to the body.

RESOURCE/SOURCE:  www.medgadget.com on 8/29/08

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