A new, updated account of poroid fungi in North America
Poroid fungi, commonly known as "polypores," are among the most frequently encountered fungi throughout the year because of their large ...
![\"Phat](\"https:\/\/bioengineer.org\/wp-content\/uploads\/2023\/04\/Company-owned-by-TTUHSC-researchers-named-to-Regional-Incubator-Program.png\")
<\/p>\nIn an important step toward commercialization, a company co-owned by Texas Tech University Health Sciences Center (TTUHSC) researchers Ted Reid, Ph.D., vice chairman for the School of Medicine\u2019s Department of\u00a0Ophthalmology and Visual Sciences,\u00a0and Phat Tran, Ph.D., a research instructor in the same department, has been accepted into\u00a0the 2023 REACH (Regional Energy Accelerator for Commercializing Hard-Tech) incubator program.<\/p>\n
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Credit: TTUHSC<\/p>\n
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In an important step toward commercialization, a company co-owned by Texas Tech University Health Sciences Center (TTUHSC) researchers Ted Reid, Ph.D., vice chairman for the School of Medicine\u2019s Department of\u00a0Ophthalmology and Visual Sciences,\u00a0and Phat Tran, Ph.D., a research instructor in the same department, has been accepted into\u00a0the 2023 REACH (Regional Energy Accelerator for Commercializing Hard-Tech) incubator program.<\/p>\n
The REACH Energy Accelerator is a grant program funded through the U.S. Department of Energy\u2019s Office of Technology Transitions. The program provides participants with 12 months of cost-free, hard tech-based business support services such as consulting, prototyping, testing, techno-economic analysis support and market research to startup companies located throughout mid-America. REACH is further supported through \u00a0Breakthrough Energy\u2019s Fellows Ecosystem Grant Awards and is powered by the Colorado State University Energy Institute, Innosphere Ventures, the Colorado Energy Research Collaborator, and 20 university partners and referring institutions.<\/p>\n
Reid\u2019s and Tran\u2019s company, New American Fabric (NAF), combines\u00a0innovative selenium chemistry with standard chemical moieties used in the textile industry to attach compounds to cellulose-based fibers\u00a0in a patent-protected approach that results in economical antimicrobial textiles. Moieties are groups of specific atoms responsible for creating certain chemical reactions within a molecule.<\/p>\n
Other members of the NAF team include\u00a0Noureddine Abidi, Ph.D., endowed professor of biopolymers for the Texas Tech University (TTU) Department of Plant and Soil Science and director for TTU\u2019s Biopolymer Research Institute; and Nicholas Bergfeld, M.D., an award-winning start-up coach who has mentored four National Science Foundation I-corps national teams.<\/p>\n
Reid, who specializes in selenium research, said NAF\u00a0sought to investigate the viability of attaching a selenium-based compound to cotton to produce an antimicrobial fabric.\u00a0They began by\u00a0experimenting with different compounds to see how well they would attach to the glucose atoms within the cotton\u2019s cellulose, which is basically a long string of sugar molecules. One of the compounds that worked includes a chemical component used for wrinkle resistance. NAF modified the compound by adding a selenium atom.<\/p>\n
\u201cWe went through different methods to try to attach that to the cotton \u2014 and it does that very well \u2014 but getting it to survive many washes in a washing machine is, of course, one of the things we wanted it to do,\u201d Reid explained. \u201cIt does a little bit, but not as well as we would like, so we’re now in the process of trying a second compound which uses a different chemistry to attach to the glucose, and we have reason to believe that it\u2019s going to stay attached quite well.\u201d<\/p>\n
Binding their antimicrobial compound to fabric would provide benefits to patients of certain diseases such as diabetes. Reid said a serious issue for diabetics is that the extra glucose in their bloodstream is taken in by nerve endings, such as those in the feet, and then is prevented from exiting by an enzyme in the nerve endings that changes the glucose into an alcohol known as a polyol. The nerves then start to wither because of the building up in the nerve endings, which causes diabetics to develop peripheral neuropathies in their feet. This can also occur in the fingers.<\/p>\n
\u201cThe important thing is the nerves actually produce a compound that helps wound healing, and it’s needed for the epithelium (a thin layer of outer skin tissue) to resurface a wound,\u201d Reid said. \u201cSo if a diabetic who has peripheral neuropathy gets a crack in their skin and it dries out, or if they otherwise damage their foot, this compound is not present to re-epithelialize (resurface) the wound. Therefore the wound stays open and, ultimately, they have to amputate the foot, or sometimes even the leg. The same thing is true for fingers.\u201d<\/p>\n
The life expectancy for a diabetic if they have to amputate a foot is five years, but Reid said socks treated with the compound developed by NAF through TTUHSC would block bacterial growth produced by sweat or injuries to the foot and protect diabetics from getting these infections. The socks also could be used for other conditions such as athlete\u2019s foot.<\/p>\n
In addition to using this technology on socks and other clothing, Reid said there are other important uses for this technology such as bandages and feminine hygiene products. Both would be especially beneficial to third world countries.<\/p>\n
The bandages could be wrapped around a wound or a sore, removed periodically for washing and then reapplied to the wound because the antimicrobial properties remain intact. For feminine hygiene products, the use of which can lead to fungal infections, Reid, Tran and NAF have demonstrated their compound can block fungi before it has an opportunity to cause infection.<\/p>\n
\u201cThe big problem is not so much that fungi are initially damaging the skin or the tissue, but it grows on the feminine hygiene product and then releases toxins, which damage cells and allow the fungus to grow on the damaged tissue,\u201d Reid described. \u201cWhat we\u2019ve shown is that fungi just cannot bind to this stuff. Feminine hygiene products are a $34 billion industry right now, and we think we can make them a premier product because the selenium will block the ability of these fungal infections to form. We think our compound will be a product that will make their feminine hygiene products ideal.\u201d<\/p>\n
NAF doesn\u2019t intend to manufacture any of the proposed products itself. Reid said they are looking for large companies such as Johnson & Johnson or Proctor and Gamble that already make these products.<\/p>\n
\u201cWe can’t make those products, and we can’t compete with them sales-wise,\u201d Reid reasoned. \u201cWe’re going to either license or partner with them to do this, and that sort of makes us unique. What REACH is doing is they’re looking for people that we can contact in those companies and talk with them about our product.\u201d<\/p>\n
Once a partner or licensee is identified, Reid said it shouldn\u2019t take long for products treated with the NAF compound to enter the market.<\/p>\n
\u201cIt’s not difficult; once we can show them how to use this compound, I would say it should be easily available,\u201d Reid said. \u201cWe don’t look at this as far in the future. This is something that should be happening pretty soon; I would guess within a year or year and-a-half.\u201d<\/p>\n
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In an important step toward commercialization, a company co-owned by Texas Tech University Health Sciences Center (TTUHSC) researchers Ted Reid, Ph.D., vice chairman for the School of Medicine\u2019s Department of\u00a0Ophthalmology and Visual Sciences,\u00a0and Phat Tran, Ph.D., a research instructor in the same department, has been accepted into\u00a0the 2023 REACH (Regional Energy Accelerator for Commercializing Hard-Tech) […]<\/p>\n","protected":false},"author":8,"featured_media":204176,"comment_status":"","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"jnews-multi-image_gallery":[],"jnews_single_post":[],"jnews_primary_category":[],"jnews_override_bookmark_settings":[],"jnews_social_meta":[],"jnews_review":[],"enable_review":"","type":"","name":"","summary":"","brand":"","sku":"","good":[],"bad":[],"score_override":"","override_value":"","rating":[],"price":[],"jnews_override_counter":[],"footnotes":""},"categories":[237],"tags":[],"class_list":["post-204175","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-chemistry"],"_links":{"self":[{"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/posts\/204175","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/users\/8"}],"replies":[{"embeddable":true,"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/comments?post=204175"}],"version-history":[{"count":0,"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/posts\/204175\/revisions"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/media\/204176"}],"wp:attachment":[{"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/media?parent=204175"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/categories?post=204175"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/bioengineer.org\/wp-json\/wp\/v2\/tags?post=204175"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}
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