Horse Care | Horse Racing Free Tips

Stall-Side Test For Equine Disease May Assist With COVID-19 Detection

Scientists have discovered a way to use a cell phone's camera to detect respiratory diseases like equine influenza in horses; that same technology could help identify COVID-19 in humans. These easily spread diseases can cause large death tolls, as well as economic loss and disruption of daily life.

One complication to slowing the spread of diseases like these are the is the lack of widely available testing that can offer speedy and accurate results, reports The Horse. This means that communities are unable to make informed recommendations regarding quarantines that can help control the spread of the disease.

Early diagnosis of disease, whether in horses or humans, is key to controlling the spread of disease, notes Dr. Brian Cunningham, an electrical and computer engineering professor at the University of Illinois at Urbana-Champaign. If obtaining results takes days, whether because of a backlog of samples or lab closures because of holidays, the virus has already spread before a positive result is even given. Adding to the potential delay in diagnosis and implementation of control strategies is that some affected patients may have more than one disease.

Cunningham has developed a testing technique for a variety of equine respiratory pathogens, including Streptococcus equi, EHV-1 and EHV-4, and equine influenza. The test uses nasal swabs to detect viral RNA, which is converted to DNA and then amplified in compartments on a silicon chip. Each compartment on the chip can be used to test for a different virus. The chemical reaction it produces replicates billions of copies of the original viral nucleic acid sequence. Fluorescent markers bind to the DNA during amplification, which can be seen on smartphone cameras as green light.

The entire test takes about 30 minutes and can be done stall side, eliminating the need to send samples to a lab and wait, possibly days, for results. With modification, the test could also be used to detect contagious human respiratory viruses like COVID-19.

Chill Out: How To Effectively Cool Out A Hot Horse

The most effective way to cool a hot horse has been almost as hotly debated as whether or not horses should be blanketed: Some people believe that a horse should be hosed and then immediately scraped so as much water leaves his coat as possible; others think you should hose and leave the water to dry on its own.

Cool water is an effective way to cool down a hot horse after it has exercised. Heat will move from the hot horse to the cool water until a similar temperature between body and water is reached. Research has shown that scraping the water off a horse once it has been hosed doesn't affect the horse's body temperature during or after hosing.

The key to successfully cooling the horse down is to provide a continuous flow of water over the horse's major blood vessels and back. Horses dissipate heat through their skin; the cool water flowing over them draws heat away from the horse and removes it, which is why water running over a hot horse will feel warm as it flows over his body. Water that travels over a completely cooled-out horse will be cool to the touch when it runs off his body.

Read more about caring for horses during warm weather at the University of Minnesota Extension.

The post Chill Out: How To Effectively Cool Out A Hot Horse appeared first on Horse Racing News | Paulick Report.

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University Of Florida Vets Use Placenta-Derived Treatment For Animals With Severe Bone Loss

A human placenta-derived compound developed by a University of Florida faculty member in the Herbert Wertheim College of Engineering is being used with promising results by veterinarians at UF's College of Veterinary Medicine to treat animals with severe bone loss.

Without the compound, the animals — which included a giraffe at the Jacksonville Zoo and Gardens and two pet dogs — would have almost certainly faced amputation of the affected areas, the veterinarians said.

The product's developer, Peter McFetridge, Ph.D., the Integra Lifesciences Term Professor in the J. Crayton Pruitt Family Department of Biomedical Engineering, studies the engineering of viable “living” tissues and organs for the repair and regeneration of diseased tissues. Stan Kim, BVSc., an associate professor of small-animal surgery at UF, learned of McFetridge's work and was intrigued about the placental compound he had been testing in rodent models with some success.

McFetridge and Kim began discussing possibilities for the product's additional use in small animals. Kim treated the dogs with the new compound at UF's Small Animal Hospital earlier this year.

“Both dogs had very bad fractures that did not heal and had lost a lot of bone,” Kim said. “Typical treatments usually fail in these types of cases.”

The dogs were completely healed after the placental treatment, he said, and are doing very well.

“The most exciting thing about the placental compound is that it seems to regenerate bone in a remarkable manner,” Kim said. “Although our main excitement is with regenerating bone, we have also had very positive results with wounds.”

Meanwhile, Kim's colleague, Adam Biedrzycki, BVSc., Ph.D., an assistant professor of equine surgery at UF, had been contacted in January by the Jacksonville Zoo and Gardens about the possibility of helping with the treatment of a 2-year-old reticulated giraffe named JoJo, who had become severely lame in October. Despite various treatments provided at the zoo, JoJo's foot problems had worsened.

“They asked if I or a colleague had any interest in consulting or participating in the case,” Biedrzycki said.

JoJo had a severe case of septic arthritis in the medial claw of her right front foot, he said. The zoo had been treating the giraffe with analgesics, antibiotics and stall rest, and had even applied a custom-made boot from a farrier who works with exotic hoof stock. However, radiographs appeared to show bone abnormalities and deterioration, contributing to lesions and fluid drainage.

“I told them that giraffes are certainly not my area of expertise, but in a bovine or horse with this condition we would do massive bone grafts, place antibiotic beads, administer antibiotics directly into the limb and spend lots of time and money trying to save the digit. In a cow, we would drill out and remove the dead or damaged tissue surrounding the foot bone. Then we would cast it followed by regular bandage changes on the limb and leave it to heal.”

That was essentially what was done with the giraffe, he said — but with the addition of the placental compound.

Biedrzycki spoke with Kim, who had used the placental compound successfully in a few cases. Kim put Biedrzycki in touch with McFetridge to further discuss the product and its potential for treating infections and stimulating bone growth.

Biedrzycki then brainstormed with Jacksonville Zoo veterinarian Yousef Jafarey, D.V.M., and his team to develop a plan: They would cut out the diseased bone, clean out the area and put in bone allografts, antibiotic beads and the placental product “to try to speed things up.”

The giraffe wore a cast on her foot, and three cast changes were performed six weeks apart. The second time, the area was cleaned out a bit more and additional placental compound was applied, Biedrzycki said.

“It was a very big deal,” he said. “I was really impressed with the whole team effort.”

That effort involved the zoo's keepers, its animal health team, an anesthesia crew and many more people performing various duties along the way, Biedrzycki said.

“You also had an army of people massaging the giraffe's neck, another team putting antibiotics in the vein, and the surgery team working on the foot, along with a farrier to help trim the foot,” he said. “There were probably about 30 people altogether working on this giraffe. I think they have the whole procedure down to an art now.”

He said the collaborative effort and range of expertise at the zoo was likely why JoJo did so well with the procedure and continues to improve.

“So far, the outcome is excellent,” he said. “The infection is gone and there is new bone growth at the site showing fusion between the bones, which is really unheard of. She still has some limb swelling, which will take a while to go down. But JoJo seems pretty happy at this stage.”

Jafarey said the zoo was astounded at JoJo's progress since working with Biedrzycki and the UF team.

“The introduction of this new compound has been integral in her recovery and we are excited that our organization participated in this groundbreaking research,” he said.

The material the UF veterinarians have been using started out being used to drive the regeneration of large vessels for heart bypass, McFetridge said.

“I never thought it could be used clinically, as it contains a lot of human maternal tissues, from the placenta, as well as the fetal side of the placenta,” he said. “But after several animal studies, we discovered that there was no negative immune response at all, and that it had a potent healing effect across a range of different tissues.”

Unlike typical biologic treatments that have one response, the placenta-derived material seems to promote healing in several vastly different tissues including bone, blood vessels and skin, McFetridge added.

McFetridge and two of his biomedical engineering department colleagues, Jon Dobson, Ph.D., the J. Crayton Pruitt Family Professor, and Blanka Sharma, Ph.D., an associate professor and the J. Crayton Pruitt Family Term Fellow, have co-founded a company in Gainesville, 42Bio, to commercialize the product for veterinary applications. They recently got private funding to move forward with research facilities at The Hub, UF's business incubator.

“So we're hoping to be able to provide this amazing material more widely, especially as we find out, almost daily, how well it helps heal critical injuries. The healing responses we've seen in the giraffe and the dogs are almost jaw-dropping.”

NY Delivers Cease And Desist To Popular Horse Show

The HITS horse show season in Saugerties, New York, began on Wednesday despite being given cease and desist order h by the state Health Department earlier in the month. The order noted that horse shows were not considered essential businesses that could conduct in-person services.

The first in the HITS show series, the Vermont Summer Special, slated to run July 1-5, would have violated the state regulations regarding the COVID-19 state of emergency. The state was prepared to allow for a drastically pared-down version of the event, which was to allow for no more than 25 competitors each day. HITS President Tom Struzzieri voluntarily cancelled the events scheduled for July 3-5.

HITS had already cancelled three weeks of scheduled horse shows in Saugerties. In May, the organization announced that it would start its six-week 2020 show series in July and call it the Great American Show Series. The plan was to combine three Vermont Summer Festival shows with three HITS shows to create a series. The shows would not have spectators.

The horse shows draw thousands of tourists to the area each year, pouring millions of dollars into the local economy. The rescheduled shows were to run July 1-5 and July 8-12. Traditional HITS shows had been scheduled for July 15-19, July 22-26, and July 29 to Aug. 2, and Aug. 5-9. It is unclear whether the state will place similar restrictions on those events.