Brainy bandages.Infection-revealing biosensors may someday make wound care a consultation between doctor and bandage bandage /ban·dage/ (ban´daj) 1. a strip or roll of gauze or other material for wrapping or binding a body part. 2. to cover by wrapping with such material. . Researchers have placed a sensing device in a wound-friendly gel and shown that the device's color-based signaling still works. The biosensors, made of silicon infiltrated with nanoscale At nanometer size. Any device only a few nanometers in size is nanoscale. See nanotechnology and nanometer. pores, are optical devices that can be constructed to reflect only a certain color when white light hits them. For wound care, the researchers suggest, the biosensor A device that detects and analyzes body movement, temperature or fluids and turns it into an electronic signal. See lab on a chip and data glove. Biosensor pores would contain molecules, such as antibodies, that bind to microbe-specific proteins. When present in a wound, those proteins would get stuck in the pores and change the color of the light that the device reflects. One drawback to current silicon biosensors is that they are made on a backing that's too rigid to curve around wounds. So, Lisa A. DeLouise, a biomaterials scientist at the University of Rochester The University of Rochester (UR) is a private, coeducational and nonsectarian research university located in Rochester, New York. The university is one of 62 elected members of the Association of American Universities. (N.Y.) Medical Center, and her colleagues decided to place the sensor portion within a hydrogel hy·dro·gel n. A colloidal gel in which the particles are dispersed in water. hydrogel a gel that contains water. hydrogel Wound care A polymer absorptive wound dressing. See Dressing. , which is more flexible. Hydrogels already have a role in wound care, says DeLouise. Besides being soft and flexible, they keep the wound moist and absorb excess fluids. In laboratory tests of the prototype smart bandages, which the researchers describe in the Sept. 16 Advanced Materials Advanced Materials is a leading peer-reviewed materials science journal published every two weeks. Advanced Materials includes Communications, Reviews, and Feature Articles from the cutting edge of materials science, including topics in chemistry, physics, , DeLouise's team found that the hydrogel-suspended sensors retained their color-changing capability. The researchers now plan to determine which protein-grabbing molecules to place in the pores for the best infection detection.-A.C. |
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