Fabric Heats Up and Cools Down its Wearer

Textile engineers have developed a fabric woven out of ultra-fine nano-threads made in part of phase-change materials and other advanced substances that combine to produce a fabric that can respond to changing temperatures to heat up and cool down its wearer depending on need. The material that can store and release large amounts of heat when the material changes phase from liquid to solid. Combining the threads with electrothermal and photothermal coatings that enhance the effect, they have in essence developed a fabric that can both quickly cool the wearer down and warm them up as conditions change.

Such fabrics often make use of phase-change materials (PCMs) that can store and later release large amounts of heat when the material changes phase (or state of matter, for example, from solid to liquid). One such material is paraffin, which can in principle be incorporated into a textile material in different ways. When the temperature of the environment around the paraffin reaches its melting point, its physical state changes from solid to liquid, which involves an absorption of heat. Then heat is released when the temperature reaches paraffin’s freezing point.

 

The problem here has been that the manufacturing methods for phase-change micro-capsules are complex and very costly,” said Hideaki Morikawa, corresponding author of the paper and an advanced textiles engineer with the Institute for Fiber Engineering at Shinshu University. “Worse still, this option offers insufficient flexibility for any realistically wearable application.”

So the researchers turned to an option called coaxial electrospinning. Electrospinning is a method of manufacturing extremely fine fibers with diameters on the order of nanometers. When a polymer solution contained in a bulk reservoir, typically a syringe tipped with a needle, is connected to a high-voltage power source, electric charge accumulates on the surface of the liquid.

A paper describing the manufacturing technique appeared in the American Chemical Society journal ACSNano.

Cotton As Human Food

U.S. regulators gave the green light for genetically modified cotton to be used for human consumption, paving the way for a protein-packed new food sourceedible cottonseed that tastes a bit like chickpeas – that its developers said could help tackle global malnutrition.

The Food and Drug Administration’s decision on the cotton plant developed by Texas A&M University scientists means it is allowed as food for people and all types of animals.

Texas A&M AgriLife Research plant biotechnologist Keerti Rathore said the scientists are holding discussions with companies and hope to have the plant commercially available within about five years. Rathore said the team also will explore seeking regulatory approval in other countries starting with Mexico.

Genetically modified cotton plants with an edible cottonseed trait are seen growing near Belvidere, North Carolina, U.S.
Yes, we are fully aware of the resistance to GMOs in many countries, but I remain hopeful that counties who are desperate for food will adopt this technology,” Rathore added.

Cotton is grown in more than 80 countries, with its fiber used to make textiles and cottonseed currently used among other purposes to feed animals such as cattle and sheep that have multiple stomach chambers. Ordinary cottonseed is unfit for humans and many animals to eat because it contains high levels of gossypol, a toxic chemical.

Rathore’s team used so-called RNAi, or RNA interference, technology to “silence” a gene, virtually eliminating gossypol from the cottonseed. Gossypol was left at natural levels in the rest of the plant because it guards against insects and disease.

Source: https://www.reuters.com/

How To Strengthen Your Immune System

There’s another reason to celebrate the gut microbiome—a healthy gut might actually be able to save lives. According to scientists at the Lawson Health Research Institute, all it takes to strengthen your immune system is to improve your gut health, a process that we know is as easy as increasing your ingestion of probiotics and dietary fiber. How’s that for functional food?

These Lawson Health Research Institute scientists are implementing a preliminary study that would discover whether a fecal transplant of a healthy microbiome can help patients with melanoma become more receptive to immunotherapy treatments. During immunotherapy treatments, patients take certain drugs to stimulate their immune systems in order to attack tumors in their bodies. A fecal transplant, according to these researchers, would make their immune systems more receptive to the drugs and, in turn, could help more people successfully fight their cancer.

We know that some people’s immune systems don’t respond well, and it seems to be associated with the microbes within your gut,” Michael Silverman, M.D., a Lawson associate scientist, said in a video filmed by the research institute. “The goal is to give people healthy microbes to replenish the microbes in their gut so that their immune system responds optimally, and they’re able to control the tumor.”

Source: https://www.mindbodygreen.com/