Scar Tissue Issues In Horses May Be Resolved With Standing Surgery

A horse that has experienced a hind-end injury such as a kick, fall or other trauma can develop a mechanical restriction from scar tissue that does not allow him to take normal strides, called a fibrotic myopathy, which can affect his athletic ability. The condition, which is not usually painful, is diagnosed by palpation and ultrasound around the horse's thigh.

The veterinary hospital at the University of California, Davis, did a retrospective study that used 22 horses with the condition that had a standing fibrotic myotomy performed. Drs. Charlene Noll, Isabelle Kilcoyne, Betsy Vaughan and Larry Galuppo reviewed the horse's long-term comfort and return to athletic endeavors.

Tenotomy is a more-standard treatment for this type of issue, but a standing myotomy is less expensive and less invasive. The horse can also be moved about during the procedure to assess the response to the incision into the fibrotic tissue.

Only two of the horses in the study developed complications during the surgery. There were additional complications in 18 percent of the horses, which included issues with drainage or infection that caused sutures to reopen.

After the surgery, the horses were on stall rest for two weeks and hand walked for 10 minutes three times a day. Once sutures were removed, the horses began trotting for five minutes each day and work was increased incrementally from there.

Four weeks after the surgery, canter work was added to the rehabilitation program. Passive range of motion exercises were also recommended twice daily throughout the rehabilitation time. Two months after the surgery, the horses could go back to regular work and could get turned out.

Follow up calls and questionnaires were sent to the horse owners between 6 months and 11 years after the surgery was performed. Ten of the 16 owners said they were satisfied with the long-term outcome of the surgery. Eight of the horses had a recurrence of issues, and eight of the 12 athletic horses returned to their previous level of use.  The other four athletic horses needed repeat surgery.

The research team concluded that standing myotomy for fibrotic myopathy leads to fair outcomes with minimal complications, but proper rehabilitation was imperative to the surgery's success.

Read the full article here.

Read more at EquiManagement.

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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.”

Read more here.

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Ointment Containing Semi-metallic Element Helps Heal Equine Leg Wounds

Texas A&M researchers have found that an ointment containing a semi-metallic element is showing promise in healing lower-leg wounds on horses. The cream, which contains 0.5 percent gallium maltolate, reduced wound size more rapidly, reduced proud flesh and reduced the number of bacteria present on the skin when compared to a similar ointment without the element.

Drs. Shauna Lawless, Noah Cohen, Sara Lawhon, Ana Chamoun-Emanuelli, Jing Wu, Andrés Rivera-Vélez, Brad Weeks and Canaan Whitfield-Cargile noted that wounds on the lower legs of horses are difficult to manage: they can be difficult to keep clean and can be difficult to manage.

Gallium possesses antimicrobial properties, but it had not been studied in relation to equine injuries. The scientists sought to compare healing rates between gallium-treated and untreated wounds to see if gallium could help heal wounds that were inoculated with the bacteria Staphylococcus aureus.

The study team used six horses with induced injuries. The use of the gallium-infused ointment reduced healing time, saw less granular tissue growth and reduced the amount of bacteria in the wound when compared to wounds that were not treated with the element. The researchers concluded that its not just the antimicrobial properties of gallium that assist in healing; the element alters the expression of specific genes that aid in wound healing.

Read more at HorseTalk.

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