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US Equestrian Hopes To ‘Grow Access’ With Updated Membership Tiering Structure For 2022

US Equestrian is pleased to announce the launch of a newly designed membership tier structure to be implemented during the 2022 membership renewal season, offering more access, and expanded opportunity to grow equestrian sport through increased engagement. The new membership tiering will not impact the current pricing structure of membership categories but will adjust benefits and access allocated to each individual tier.

The move to restructure the membership tiering aligns with the next phase of the strategic plan announced in January 2020 and the million-member goal set by current President Tom O'Mara. The new member tiering will include three categories: 1) fans; 2) subscribers; and 3) competing memberships, offering an array of opportunities for enthusiasts and participants in equestrian sport.

“The goal behind this restructure is to create a model that is enticing for new members to join USEF so we can continue to grow access and interest in our sport from the grass roots level all the way up through our high-performance programs,” said Tom O'Mara, President of US Equestrian. “With the updated tiering, we believe we will encourage individuals passionate about equestrian sport to join our organization as a fan at no cost or upgrade their membership to a subscriber level for $25 to experience increased benefits, with the ultimate goal of expanding the pool of competing members participating at our licensed competitions. We know there are millions of people in the U.S. with a passion for horses and want everyone to have an opportunity to be a part of US Equestrian.”

The base fan experience is free and will allow individuals to learn about the benefits of USEF and sample offerings at no cost, encouraging interaction and connection with USEF on a free and ongoing basis. Fan members will have access to USEF Network livestreaming (not including On-Demand access), the Learning Center, the USEF Equestrian Weekly e-newsletter, and the Member Perks program. Fans will also automatically renew.

The subscriber tier of membership, available for $25 annually, will include exclusive on-demand and replay streaming on USEF Network, access to USEF Member Health Coverage options, and a mailed subscription of US Equestrian magazine while maintaining all exclusive benefits available to non-competing paying members, as well as access to the additional benefits offered at the fan membership level. Official Education Partners of USEF and their members will automatically be eligible for free Subscriber memberships.

The competing memberships will remain at an annual renewal fee of $80 and receive access to all US Equestrian benefits, including access to the membership health coverage options, as well as live and on-demand streaming via USEF Network, the Learning Center, Equestrian Weekly, Member Perks incentives, and the benefit of a working framework of to ensure fair and equal organized sport.

US Equestrian will launch the new tiers of membership at the beginning of the new competition year on December 1, 2021. To learn more about US Equestrian's member benefits and programs, please visit www.usef.org/join-usef.

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Why Do Veterinarians Use Bisphosphonates Off Label?

Veterinarians can legally administer tiludronate to young Thoroughbreds, but should we?

Tiludronate disodium (Tildren) is one of two Food and Drug Administration (FDA)-approved bisphosphonate drugs “For the control of clinical signs associated with navicular syndrome in horses.”

As we know, young Thoroughbred racehorses rarely suffer navicular syndrome, yet tiludronate can be found in the trucks of many racetrack veterinarians. This product is not licensed for anything but navicular syndrome and the safety of this product has not been studied in horses under four years of age. So how and why is tiludronate being used in juvenile racehorses?

How veterinarians use off-label drugs

The FDA grants veterinarians the legal ability to use approved human and animal drugs in an extra-label manner. This means that a drug can be administered to a horse in a way that the product's label does not list.

To prescribe drugs off label, veterinarians need to follow the FDA's requirements for extra-label drug use. For example, the FDA would permit off-label use of a specific medication if:

There is no animal drug approved for the intended use; or
There is an animal drug approved for the intended use, but the approved drug does not contain the required active ingredient.

Furosemide (known commercially as Salix or Lasix) provides a good example of off-label drug use in horses. The product information for Salix—which is FDA approved in horses—states, “Salix® is indicated for the treatment of edema, (pulmonary congestion, ascites) associated with cardiac insufficiency and acute noninflammatory tissue edema.” This label clearly does not indicate that the product may be used for prevention of exercise-induced pulmonary hemorrhage. Yet, as we know, furosemide is widely used in competitive horses, including Thoroughbreds, for this purpose.

Similarly, tiludronate can be used off label (i.e., for more than just navicular syndrome) should the veterinarian deem it necessary.

Why use Tiludronate off label?

Tiludronate has “anti-resorption” effects on bone. By binding to osteoclasts, the cells that break down bone, tiludronate minimizes bone turnover. For conditions like navicular syndrome characterized by bone degeneration, stopping this degeneration by decreasing turnover is deemed helpful.

Osteoarthritis (OA), another musculoskeletal condition frequently seen in horses, is characterized by degenerative changes leading to inflammation, pain, and loss of function/retirement. A study published in 2010 demonstrated a beneficial effect of intravenous (IV) tiludronate in the treatment of bone spavin (tarsal osteoarthritis). Specifically, a significant improvement in lameness was appreciated at 60 and 120 days following treatment. That research team concluded, “Tiludronate in combination with controlled exercise offers an alternate medical treatment for bone spavin.”

A similar study found a beneficial effect of IV tiludronate in horses with OA of the thoracic vertebral column.

Most recently, IV tiludronate was evaluated in racehorses with naturally occurring OA of the fetlock (ankle).

The latest research on Tiludronate for OA

The September 2021 edition of the Journal of the American Veterinary Association includes a study of 567 Standardbreds diagnosed with initial-stage OA treated with one of the following:

A single joint injection of a combination of the anti-inflammatory corticosteroid triamcinolone acetonide and hyaluronic acid (TA-HA).
Intra-articular (within the joint) administration of a polysulfated glycosaminoglycan (PSGAG) once every week for four weeks.
IRAP therapy (interleukin-1 receptor antagonist protein) once every week for four treatments.
A single intravenous dose of tiludronate.

Clinical responses (i.e., lameness scores, joint flexion tests), radiographic and ultrasonographic findings, and biochemical analyses on blood and synovial fluid samples were compared between the four treatment groups at baseline (Day 0 of the study) and again six months later.

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All four treatments resulted in improved lameness scores and flexion test responses. Tiludronate, however, was the only treatment that appeared to inhibit the radiographic progression of OA.

The study also showed that:

Only TA-HA inhibited inflammatory mediators such as interleukin 1-beta and prostaglandin E;
Only TA-HA effectively inhibited the degeneration of articular cartilage that occurs with OA. This was demonstrated by a decrease in serum and synovial fluid CTX-II (carboxy-terminal telopeptides of collagen type II), a molecule that increases with progressive articular cartilage degeneration.
When treated with tiludronate, horses had increased CTX-II (i.e., articular degeneration).
A decrease in CTX-I (carboxy-terminal telopeptides of collagen type I), a marker of bone degeneration, was observed in horses treated with tiludronate.
IRAP and PSGAG both had a “significant effect on the clinical manifestations of osteoarthritis.” They did not, however, control radiographic progression and an increase in CTX-II was noted a the 6-month mark, indicating cartilage degeneration.

These data suggest that tiludronate can effectively decrease the progression of OA, potentially by inhibiting subchondral bone remodeling. However, this treatment protocol did not diminish the inflammatory component of OA and may in fact worsen cartilage degeneration in horses with OA.

So, what's the problem?

While research supports using bisphosphonates for navicular syndrome as well as OA, neither condition is terribly common in young racehorses.

“The goal of using bisphosphonates in young horses is to enhance bone formation and to manipulate bone development to hide skeletal pathologies,” said Dr. Jessica Leatherwood, an associate professor of equine science at Texas A&M University. “This attempt to promote early bone maturation and mask potential radiographic flaws may lead to an accumulation of microdamage. This damage could eventually lead to bone failure due to lack of appropriate remodeling.

“Bisphosphonate use in juvenile, exercising horses could result in greater risk of death for horses and humans, and to the eventual elimination of racing and the jobs surrounding the industry.”

According to Leatherwood, the controversy surrounding the off-label use of bisphosphonates is becoming more widespread in the equine industry, especially following the spike in breakdowns and fatalities on the racetrack. She said that while concerns have been raised, there is currently no scientific knowledge of the effects of bisphosphonate utilization in young exercising horses, leaving a critical gap in the knowledge.

To help learn more about the effects of bisphosphonates in young horses, Leatherwood recently received a $500,000 grant from the U.S. Department of Agriculture's National Institute of Food and Agriculture. Leatherwood's team includes researchers from Texas A&M University, Michigan State University, and Montana State University with expertise in large animal veterinary medicine, pharmacological analysis, bone and cartilage physiology, mechanical testing, and equine endocrinology.

Leatherwood hopes this work “will create new knowledge to improve equine health and welfare and provide meaningful, scientifically-driven recommendations (or warnings) for bisphosphonate use” in juvenile horses.

Dr. Stacey Oke is a seasoned freelance writer, veterinarian, and life-long horse lover. When not researching ways for horses to live longer, healthier lives as athletes and human companions, she practices small animal medicine in New York. A busy mom of three, Stacey also finds time for running, hiking, tap dancing, and dog agility training.

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Bone Bruises In Young Equine Athletes

Horses engaged in athletic pursuits are at risk for skeletal damage. Bucked shins, bone chips, and fractures are commonplace in the world of high-performance horses, but other problems, like bone bruises, are less ordinary.

A bone bruise is an injury to subchondral bone, which is the bone layer that abuts cartilage in weight-bearing joints. Subchondral bone is rife with blood vessels, which not only ferry oxygen and nutrients to the bone but also to the underlying cartilage. Bone bruises are usually brought on by repetitive trauma and subsequent insult during racing or training. Inflammation associated with the injury causes degeneration of healthy subchondral bone, thus compromising its strength and integrity.

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“In response to traumatic insult, the skeleton repairs itself by removing damaged bone and replacing it with more bone. Changes in bone are expected in response to training, but the difficulty lies in the fact that bones can only repair, and thus strengthen, themselves so quickly,” explained Laura Petroski, B.V.M.S., veterinarian at Kentucky Equine Research (KER).

“If insufficient time is afforded for healing, the remodeling process is disturbed, and over time the subchondral bone thickens and becomes less flexible. Repeated overloading of diseased bone results in bone bruises and pain. Damage may also occur to corresponding joint cartilage, which may compound soundness issues. As most horse owners know, destruction of cartilage leads to the development of degenerative joint disease, or arthritis,” she continued.

Bone bruises are most often diagnosed in horses trained at high intensity, such as Thoroughbreds and Standardbreds, and problems manifest primarily in the fetlocks. High-impact work exposes the horse to the traumatic forces needed for a bone to become denser and then subsequently bruise. In Thoroughbreds, bone bruises usually occur in the front fetlocks, while in Standardbreds they affect hind fetlocks more frequently. Bone bruises are observed occasionally in knees. Subchondral bone disease at any site can put horses at risk for fracture.

Horses usually present as unsound, though the lameness might range from mild to severe. “Complaints of poor performance, where the horse is suddenly not performing at the same level, are also typical and alert owners and veterinarians of a problem. The pain is localized to the affected site by using nerve blocks, flexion tests, and palpation. At that point, we recommend radiography or advanced imaging,” said Petroski.

“In the past, veterinarians have diagnosed this disease using radiography; however, we've learned changes noted on radiograph tend to be permanent changes and the disease is quite advanced at that stage,” she remarked.

Today, veterinarians rely on nuclear bone scintigraphy and MRI to reveal early signs of this disease. “This technology has been revolutionary when it comes to diagnosing, treating, and managing these horses properly. The earlier the treatment begins, the better our prognosis for returning the horse to full work.”

Treatment of bone bruises involves primarily rest and recovery. Unlike certain soft tissue injuries, veterinarians often suggest that horses with bone bruises be turned out into a small field for several months and allowed to move.

Blood flow to this area is important for tissue healing, and free-choice exercise in a small paddock is encouraged. Any forced exercise is discouraged. Other treatments include anti-inflammatory drugs, intra-articular injection of steroids, pharmaceuticals to promote bone repair, and surgery. These treatments are not universal to all horses with bone bruises, so treatment plans are devised on a case-by-case basis.

Nutrition of horses with bone bruises begins with a well-fortified diet. Many horses with skeletal damage are involved in intense athletic pursuits, so they are likely fed high-quality forages and concentrates. Calcium is a critical nutrient in any well-fortified diet, but especially those of young athletes.

“While we cannot prevent bones from laying down more calcium, it would be wise to protect other bones from becoming weaker due to insufficient calcium intakes. The body tends to take calcium from other bones if there is not enough calcium available in the blood. The loss of calcium from other bones changes the structure of that bone and weakens it,” said Petroski.

Because young, growing racehorses are often affected by bone bruises, demand for calcium within the body is high. Once a bone bruise is diagnosed and rest instituted, the diet should be adjusted appropriately to reflect the change in workload, though a well-balanced diet is important at all times. Further, targeted nutritional supplementation may help these horses.

“Triacton, a triple-action supplement designed by equine nutritionists, may be useful in these situations,” said Catherine Whitehouse, M.S., a nutritionist for KER. Triacton contains a novel source of highly digestible calcium and other bone-building nutrients to increase bone quality. “In addition to its skeletal benefits, Triacton also provides buffering for gastric and hindgut health,” she continued.

In addition to promoting bone health, young horses in training benefit from receiving Synovate HA, a high-molecular weight sodium hyaluronate that has anti-inflammatory, lubricating, and shock absorbing properties for optimal joint health.

Injuries cause stress in horses, which predisposes them to gastric ulcers and possibly hindgut upset, explained Petroski. This may be further exacerbated by a change in routine as treatment protocols are established. “I believe in preventing problems rather than treating them, if possible. Because we know that changes in routine will often lead to distress and compromise to the gastrointestinal tract, especially in young horses, it is best to be proactive in protecting the stomach and hindgut.”

Article reprinted courtesy of Kentucky Equine Research (KER). Visit equinews.com for the latest in equine nutrition and management, and subscribe to The Weekly Feed to receive these articles directly (equinews.com/newsletters).

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Bone Adaptation In Growing Foals

Mechanical loading strengthens bone during growth, so exercise during childhood and adolescence has been shown to have lifelong benefits on skeletal health in humans. Similarly, exercised foals show greater bone size and strength, and resistance to bending and torsional distortion, compared to pasture-exercised control foals.¹

Because the fetlock joint must withstand incredible forces, high-performance horses, including Thoroughbred and Standardbred racehorses, often sustain injuries at this site. The joint connects the long and short pastern bones, known also as the first and second phalanx.

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A recent study of sound Standardbred foals, all trotting-bred, characterized how the long pastern bone adapts to changing loads during growth through the use of regular computed tomography (CT) scans during the first year of life. In addition to measuring strength and composition changes in the bone, researchers calculated strain energy density, a biomechanical metric of potential bone remodeling.²

Growth-related changes in mineral density and bone area at various bone points (distal epiphysis, mid-diaphysis, and proximal epiphysis) were assessed. These three points were further divided into four functional quadrants (dorsal, medial, lateral, palmar). Mineral density and bone area uniformly increased in the diaphysis and a portion of the proximal epiphysis, the medial quadrant, but not in the fracture-prone lateral quadrant. Strain energy density was constant during growth, indicating bone adaptation to standing quietly, the primary activity of Standardbred foals, according to prior observation by researchers, which revealed that foals between the ages of two and five months spent 80 percent of their time at a standstill.

In sum, “the work provides a baseline longitudinal characterization of normal remodeling of the equine forelimb first phalanx during the first year of life and its effect of strain energy density,” the researchers explained. “This is an essential prerequisite to making evidence-based recommendations for training regimens that may encourage bone growth in areas prone to fracture during development. A properly prepared musculoskeletal system may lead to fewer fractures, thus reducing the unnecessary wastage of equine athletes.”

In addition to exercise, proper nutrition of the mare throughout gestation and of the foal during all growth phases fosters future soundness. “Nutritional management of young horses starts with an appropriate, good-quality forage. Fortified concentrates can then be fed to meet energy, mineral, and vitamin shortfalls,” said Catherine Whitehouse, M.S., a nutrition advisor at Kentucky Equine Research.

“Aside from hay and concentrates, supplements designed to increase bone health can be used to support young athletes. Triacton, a supplemented formulated by Kentucky Equine Research, contains a novel source of calcium and an array of bone-building nutrients designed to increase bone density, with the ultimate goal of promoting long-term soundness,” she explained. “Research in weanlings, for example, showed that Triacton had a positive effect on density of the cannon bone.”

¹Firth, E.C., C.W. Rogers, P.R. van Weeren, A. Barneveld, C.W. McIlwraith, C.E. Kawcak, A.E. Goodship, and R.K.W. Smith. 2011. Mild exercise early in life produces changes in bone size and strength but not density in proximal phalangeal, third metacarpal and third carpal bones of foals. Veterinary Journal 190:383-389.

²Moshage, S.G., A.M. McCoy, J.D. Polk, and M.E. Kersh. 2019. Temporal and spatial changes in bone accrual, density, and strain energy density in growing foals. Journal of the Mechanical Behavior of Biomedical Materials 103.

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