New technique makes skin invisible - yes really

in Popular STEM3 months ago (edited)

TL;DR

Using Yellow Dye #5, a common coloring that's used in products from foods like Twinkies to lipsticks and house paints, Stanford University researchers have been able to see through the skin of mice. In time, human medical uses may follow.

Overview

H.G. Wells' 1897 novel, The Invisible Man, imagined the scenario where a serum could change the light scattering effects of a man's body to match the surrounding air, and thereby render the man invisible. A couple of decades later, Kramers-Kronig relations described a mathematical principle that applies to light refraction and absorption in different materials. That principle, combined with Lorentz Oscillation, informed the current research.

Reasoning that light absorbing materials could offset the light scattering that's caused by the lipids, water, and protein in our skin, the researchers went in search of such a material. What they found was Yellow Dye #5, or tartrazine.

According to Guosong Hong, PhD, assistant professor of material science, the result is stunning.

If the same technique could be applied to humans, it could offer a variety of benefits in biology, diagnostics, and even cosmetics.

Medscape describes the surprising effect when the researchers removed the fur from mice and applied a mix of water and tartrazine to the skin:

Rubbed on live mice (after areas of fur were removed using a drugstore depilatory cream), tartrazine rendered skin on their bellies, hind legs, and heads transparent within 5 minutes. With the naked eye, the researchers watched a mouse's intestines, bladder, and liver at work. Using a microscope, they observed muscle fibers and saw blood vessels in a living mouse's brain — all without making incisions. Transparency faded quickly when the dye was washed off.

According to Hong, this technique may eventually be used in doctors' offices and hospitals for diagnostic purposes and also to improve the effectiveness of procedures like drawing blood or removing tattoos.

In a separate commentary, Dr. John Gorecki and Dr. Christopher Rowlands suggest that this technique can also be used as,

an (advantageous) alternative to other optical clearing agents currently used in lab studies, such as glycerol, fructose, or acetic acid

And it can even improve existing imaging technologies like MRI and electron microscopy. According to Rowlands, the technique will be especially useful for neurobiologists.

Although tartrazine is already widely available, human medical uses for this transparency capability are still years away. In the meantime, however, the NSF has made an activity available on their web site so that people can see the effect first-hand. This activity involves painting a tartrazine solution on a chicken breast in order to make it transparent. The activity should be done while wearing, "a mask, eye protection, lab coat, and lab-quality nitrile gloves for protection".

In addition to driving this capability towards human medical uses, the researchers are also continuing their search for other materials that might have similar properties.

Here's a video from the National Science Foundation:


And here's another video from Stanford:


More information can be found at the links below


Thank you for your time and attention.

As a general rule, I up-vote comments that demonstrate "proof of reading".




Steve Palmer is an IT professional with three decades of professional experience in data communications and information systems. He holds a bachelor's degree in mathematics, a master's degree in computer science, and a master's degree in information systems and technology management. He has been awarded 3 US patents.


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This breakthrough using Yellow Dye #5 to make mouse skin transparent opens up exciting possibilities for non-invasive medical diagnostics and procedures in humans. It could revolutionize how we visualize tissues and organs, enhancing the precision of treatments. Future research may uncover even more materials to further this transformative technology.

 3 months ago 

True. And Yellow Dye #5 is so commonplace, I'm sort-of surprised that nobody has noticed this before, if only by accident.

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