- University News Archive - 糖心Vlog传媒 Little Rock /news-archive/tag/u-s-food-and-drug-administration/ 糖心Vlog传媒 Little Rock Tue, 05 Dec 2017 18:13:31 +0000 en-US hourly 1 https://wordpress.org/?v=6.9.4 糖心Vlog传媒 Little Rock reseachers pioneer device to speed bone regeneration /news-archive/2017/12/05/nucress/ Tue, 05 Dec 2017 18:13:31 +0000 /news/?p=68728 ... 糖心Vlog传媒 Little Rock reseachers pioneer device to speed bone regeneration]]> Center for Integrative Nanotechnology Sciences (CINS) at 糖心Vlog传媒 Little Rock and researchers at the . This technology, the NuCress鈩 scaffold, is a nanomaterial-based bone regeneration device pioneered by 糖心Vlog传媒 Little Rock鈥檚 Dr. Alexandru S. Biris, a systems engineering professor, Roy and Christine Sturgis Charitable Trust Nanotechnology chair, and director of the Center for Integrative Nanotechnology Sciences. Biris鈥檚 long-time research partner, Dr. David Anderson, is professor and head of Large Animal Clinical Sciences at the (UTCVM). Together, Biris, Anderson, and their teams have designed, patented, and tested the NuCress鈩 scaffold. The scaffold is implanted directly at the wound site by a surgeon and can be loaded with drugs to fight infection or with hormones and stem cells to encourage bone growth. As a result, the scaffold can deliver bacteria-fighting drugs directly to the wound site and be safely absorbed by the body鈥攇enerally eliminating the need for additional surgeries. It is currently in the preclinical stages of development. Supported by funding from the U.S. Department of Defense, the NuCress鈩 scaffold is showing great promise in preliminary studies. But this year, it has聽moved out of the lab and into the field, restoring two severely injured animals to full health. Healing Hercules
Hercules the alpaca

Hercules the alpaca

Hercules the alpaca was only 24 hours old when he broke his leg on his ranch in Lebanon, Tennessee. The baby animal received a plasma transfusion and was bottle-fed for months. To make matters worse, the open wound and exposed bone led to a serious infection, which prevented the bone break from healing properly. As a result, the animal鈥檚 veterinarian referred him to UTCVM for advanced treatment. Dr. Pierre-Yves Mulon, UTCVM assistant professor in Farm Animal Medicine and Surgery, was the expert orthopedic surgeon who oversaw Hercules鈥檚 case. Having worked with both the latest commercially available technologies and the NuCress鈩 scaffold, Mulon determined that the scaffold was the best option to heal the fragile animal. He trimmed the scaffold to match the break, loaded it with antibiotics, implanted it in the wound鈥nd waited. Given Hercules鈥檚 condition, Mulon expected a long road to recovery. But the NuCress鈩 scaffold quickly exceeded expectations. 鈥淗ercules responded well and fast,鈥 Mulon said. 鈥淗e was able to walk immediately after surgery and has been very active. The bone repaired within the time range expected for a closed fracture, though it was an open one.鈥 Mulon explained that while other options, such as traditionally administered drugs or implantable antimicrobial beads, could have been used, they would have presented more obstacles, such as future surgeries. 鈥淚t is difficult to confirm if the results would have changed using any other option; however, I think it would have necessitated more time,鈥 said Mulon, adding, 鈥淎ny open fracture carries a guarded to poor prognosis, and Hercules made it, and we are very happy.鈥 Joining the Rodeo A much tougher test of the scaffold鈥檚 abilities came this fall, with much higher stakes. Mulon was faced with a gravely injured prize breeding cow in the rodeo industry. Considered a genetic founder of the herd, this pricey bovine was suffering from a complicated, chronic bone infection in her leg. The infection was so severe that the cow had already undergone one unsuccessful surgery, and options were limited. Traditional treatments, with their need for future surgeries and their delayed infection fighting, could have actually harmed the vulnerable cow more.
Dr. Pierre-Yves Mulon, assistant professor in Farm Animal Medicine and Surgery, University of Tennessee College of Veterinary Medicine

Dr. Pierre-Yves Mulon, assistant professor in Farm Animal Medicine and Surgery, University of Tennessee College of Veterinary Medicine

Time was running out. Remembering Hercules鈥 remarkable results, Mulon and the animal鈥檚 owner decided to take a risk. Mulon implanted an antibiotic-loaded NuCress鈩 scaffold in the cow鈥檚 injured leg. Though he was hopeful that the scaffold would work a miracle, Mulon gave the animal鈥檚 owner a bleak prognosis鈥攛-rays indicated that the wound could be too far gone to heal. 鈥淪he was suffering such a deep orthopedic infection that鈥he would have been put to sleep if the bone infection could not be resolved,鈥 Mulon said. But, once again, the NuCress鈩 scaffold exceeded expectations. The infection completely healed, and, after a lengthy recovery, the cow is back home and well on her way to being a functioning member of the herd again. 鈥淚 strongly believe that the slow release of antibiotics over a prolonged period of time [by the scaffold] helped this cow tremendously and led to the successful outcome,鈥 Mulon asserted. 鈥淚 have not seen any product comparable to this one.鈥 Looking to the Future Having worked on the scaffold for over a decade, Biris and Anderson share Mulon鈥檚 enthusiasm. 鈥淲e are very happy that these animals are benefiting from the technology,鈥 Biris said. But alpacas and cows are just the beginning of the scaffold鈥檚 story. Supported by an over $5 million grant from the Department of Defense, Biris, Anderson, and their teams are optimizing the NuCress鈩 scaffold for use in long bone. Additionally, 鈥攖he company commercializing the device鈥攊s preparing to apply to the U.S. Food and Drug Administration for regulatory approval of the scaffold, moving it one step closer to human use. The teams also are seeking funding to expand the scaffold鈥檚 uses to other types of wounds and areas of the body. If successful, the NuCress鈩 scaffold could become an essential part of the bone-healing process for injured soldiers, car accident victims, cancer survivors, and more. Contributing Writer: 聽Emily Davis, Content/Grant Writer, Center for Integrative Nanotechnology Sciences This work was supported by the U.S. Army Medical Research and Materiel Command Congressionally Directed Medical Research Programs, Defense Medical Research and Development Program, under Award No. W81XWH-15-1-0666. Opinions, interpretations, conclusions and recommendations are those of the author and are not necessarily endorsed by the Department of Defense. In conducting research using animals, the investigator(s) adheres to the laws of the United States and regulations of the Department of Agriculture.]]>