Ontario Vet College Now Offering Stem Cell Therapy

Clinicians and researchers at the University of Guelph's Ontario Veterinary College (OVC) have teamed up to offer stem cell therapy to repair injured tendons and ligaments in horses.

The move provides clients with a new treatment option for their animals and will allow OVC researchers to add scientific rigor to the anecdotal evidence that suggests cell-based therapies speed healing of injured or damaged tissues.

"It is cutting-edge technology and we are uniquely equipped to offer all components of the service under one roof--from diagnostics to cell collection and culturing to treatment and follow-up. But there is still a lot to learn," said Antonio Cruz, DVM, MVM, MSc, DrMedVet, Dipl. ACVS, Dipl. ECVS, associate professor of large animal surgery.

Cruz, aims to attract a caseload that will contribute clinical data to the knowledge gained from laboratory research being conducted by Dean Betts, BSc, MSc, PhD, and Thomas Koch, DVM.

"This is the next progression of the work we've already been doing," said Koch, a veterinarian and PhD candidate whose research to date has focused on the potential for treating damaged cartilage using stem cells taken from the umbilical cord blood of foals. "Obviously, you don't have access to cord blood for most horses most of the time. But there are other sources."

Bone marrow, for instance, as was the case recently with Santiago, a 13-year-old chestnut Trakehner gelding with lameness in a front leg, who was the first to be treated with stem cells at the OVC. Santiago was referred to Guelph in the fall and diagnosed with suspensory desmitis (inflammation of the branch of the suspensory ligament).

In early November, Cruz's team extracted bone marrow aspirate from Santiago's sternum.

In the lab, Koch and Betts took the aspirate and separated the nucleated cells from red blood cells. They then cultured a fraction of the available cells in plastic flasks containing a special medium that caused the stem cells multiply and adhere to the plastic. The cells are then purified and put into other culture flasks. Initially, only about one in 35,000 cells showed stem cell characteristics, said Koch.

Sixteen days after harvesting, the team had 16 million cells that were re-suspended in the original bone marrow supernatant (fluid above a sediment or precipitant) and injected into the swollen fetlock of Santiago's left front leg.

If Santiago's condition improves, there is no way of knowing whether the stem cells made the difference, or the growth factors in the supernatant, or simply time and rest, or a combination of these. But, according to Betts, hospital cases will add support to the scientific work to be done in the lab and in future randomized clinical trials.

"We're doing this because of promising results elsewhere and the fact that the underlying rationale makes sense, although it's not evidence-based in a strict scientific sense," Betts said.

The procedure offers hope to people like Santiago's owner, Heather Baker-Sullivan of Caledon, Ont.

"He's my baby," said Baker-Sullivan, who until the injury rode Santiago, in local and regional dressage shows.

"We've had him for 10 years. He's part of the family and I wanted to do the best for him."

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