Intricate pattern has surprising roots in your body
The pattern was discovered by scientists trying to determine if some nanoparticles harm human health.
Mon, Apr 15, 2013 at 02:40 PM
This black-and-white pattern reveals the surprising shapes made by molecules of lung surfactant. (Photo: Prajnaparamita Dhar/University of Kansas)
A beautiful black-and-white image that looks like the pattern on a scarf isn't the work of an upscale French designer. It's the stuff that lines your lungs.
The snapshot is a microscopic image that used fluorescent dye to reveal the patterns made by lung surfactant, a soaplike material that covers the inside of the lungs. Without surfactant, the lungs would collapse.
"During the breathing cycle, as your lung is compressed, it will form this pattern," said Prajna Dhar, the creator of the striking microscopic image. Dhar and her colleagues published the picture in January 2012 in Biophysical Journal. This March, the National Institute of General Medical Sciences featured the image in their monthly newsletter, Biomedical Beat. [Tiny Grandeur: Stunning Photos of the Very Small]
The researchers took the patterned surfactant image as part of a study investigating how nanoparticles affect the body. Nanoparticles are particles so tiny they're measured in billionths of a meter. They're the subject of major scientific research right now, because engineering on a nano-scale allows scientists to literally build materials atom by atom, like this world map one-thousandth the size of a grain of salt. Nanotechnology is being used to develop everything from nano-scale solar cells to medicine delivery systems.
The explosion in technology has led to concern that nanoparticles might harm human health, Dhar told LiveScience. The question is whether the tiny particles are toxic or not.
To find out, Dhar and her colleagues exposed lung surfactant molecules to nanoparticles made of carbon — "really tiny nano-diamonds," Dhar said. They found that in the short term, the particles don't affect how surfactant changes as lung tissue compresses and expands. But over time (the researchers looked at exposures up to 21 days), the nanoparticles changed the way the surfactant "packed" when compressed by exhaling lung tissue.
"If it changes the way the surfactant packs, it destabilizes the sufactant," Dhar said. "And if it destabilizes the surfactant, than you cannot lower the energy that is required to breathe."
The effect of the particles lodging in the lungs is similar to what happens after a long period of secondhand smoke exposure, Dhar said, or to black lung disease. This disease occurs in coal miners who have breathed coal dust (also made of carbon) for many years. The lungs can't rid themselves of fine dust particles, so they accumulate, causing inflammation, formation of excessive fibrous tissue, and even death of the lung tissue.
The effect of nanoparticles on lung tissue is different depending on the size, shape and material of the particles, Dhar said. She and her colleagues hope to use their lung-based surfactant system to test nanomaterials for safety, expanding to particles other than carbon. Testing the particles on animals is less effective, she said, because black lung-like symptoms may take an animal's entire life to develop. Exposing surfactant directly to the nanoparticles is far faster.
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