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Are Probiotics Worth The Hype?

Probiotics have their fair share of both devotees and naysayers. Why do the devotees keep probiotics in their medicine cabinet? For diarrhea, primarily. Approximately 80 percent of foals develop diarrhea sufficiently severe to threaten growth and, depending on its severity, survival. Adult horses develop diarrhea for several reasons, including physical and mental stress, disease, and certain medications.

Treating diarrhea medicinally may resolve the condition, but some medications have unwelcome side effects: inappetence, skin reactions (wheals, swelling), and kidney toxicity. The benefits of administering probiotics for treating or preventing diarrhea remain largely theoretical despite the widespread availability of the products.

To shed light on the actual, rather than perceived, benefits of probiotics in horses, Australian researchers conducted a thorough review of the available scientific literature. After combing through many relevant research papers, they selected 18 that examined the safety, tolerability, and efficacy of probiotics in horses and foals. Some of the key findings of this study were:

Probiotics appeared well tolerated in adult horses with few safety concerns;
Substantial concerns were noted in foals. High doses of multistrain probiotics appeared to aggravate diarrhea, particularly when products similar to those designed for humans were used. When the probiotic contained organisms more closely related to the microbes normally found in the equine microbiome, the incidence of foal diarrhea nearly halved; and
Single probiotic interventions appear less effective than multispecies probiotics.

In addition to managing diarrhea, owners sometimes give probiotics to horses whose diets contain large grain meals.

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“High-grain diets can disturb intestinal function, leading to hindgut acidosis, a condition characterized by unusually low pH in the cecum and colon. This drop in pH can change the microbiome, reducing digestibility of feed. Hindgut acidosis may result in loose manure, decreased appetite, behavior changes, colic, and laminitis,” explained Peter Huntington, B.V.Sc., M.A.C.V.Sc., director of nutrition at Kentucky Equine Research.

To combat plummeting pH in the hindgut, researchers looked at offering a probiotic to improve the microbiome and increase digestive function. However, two separate studies failed to identify any benefit in feeding a probiotic to horses given high-grain diets.

“This finding leaves room for more research and alternate approaches to controlling pH in the hindgut. Using hindgut buffers such as the research-proven hindgut supplements created by Kentucky Equine Research are potentially better than using probiotics for this purpose,” Huntington recommended.

While the role of probiotics for intestinal conditions remains unclear, researchers found beneficial effects of probiotics in exercising Standardbred horses. Specifically, those researchers stated that “administration of multistrain bacterial formulations to increase stamina in exercising horses shows promise.”

Huntington added, “Supplemented horses had lower blood lactate levels, which may delay fatigue in exercising horses. At this time, though, researchers are unclear as to how probiotics lower blood lactate levels.”

Also noteworthy, the number of studies examining probiotics in horses was extremely small compared to those for humans. As such, much of the information used to support probiotics intended for horses is actually extrapolated from human studies.

“The anatomy and physiology of the equine digestive tract are very different from that of the human, which makes data extrapolation inappropriate. Using human data for horses may at least partly explain the lack of reported efficacy of probiotics in horses,” Huntington said.

Instead of extrapolating from human medicine, scientists should consider equine-specific research, as many questions remain unanswered. For example, what species of bacteria and yeast should be included in probiotic supplements, and what multistrain products will have the most benefit? How much should be given? How long should horses be given the supplements?

Quality concerns also persist. Do commercial over-the-counter probiotics contain the type or amount of ingredient they claim? The live bacteria that went into the package or syringe may not be viable when actually fed, which negates its usefulness.

“While probiotics may exert positive gastrointestinal and extraintestinal effects, using poor-quality products or administering probiotics incorrectly may delay more appropriate treatments or interventions and are economically draining for horse owners,” summarized Huntington.

*Cooke, C.G., Z. Gibb, and J.E. Harnett. The safety, tolerability and efficacy of probiotic bacteria for equine use. Journal of Equine Veterinary Science 99:103407.

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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Human Cardiac Procedure Saves Foal’s Life

A ten-day-old foal born in Switzerland became the first equine to undergo a successful balloon valvuloplasty to correct a malfunctioning valve. The Dales pony was born with a congenital heart defect that caused the leaflets of the pulmonary artery to stick together and block blood flow to the lungs, reports The Horse.

Veterinarians were able to pass a balloon through the jugular vein and inflate it across her pulmonary valve. This procedure is used in human medicine and with dogs, says Dr. Katharyn Mitchell, who treated the filly.

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The foal was weak and feverish when she was referred to the University of Zurich Equine Hospital. Veterinarians determined she had a strong heart murmur and further testing showed that she had pulmonary stenosis in addition to an infection.

As the filly had no other heart defects and because of her size, the veterinarians opted to try the valvuloplasty. Because the surgery is based on human medicine, there is an upper-end size limit for an animal that can be treated; the foal was at the upper threshold of this limit. The filly was placed under general anesthesia for the procedure, which involved both small animal cardiologists and large animal internal medicine specialists.

Though somewhat lethargic in the first year of her life, the now 2-year-old is showing normal behavior and stamina. The veterinarians advised her owners to refrain from breeding her, though there is no evidence that the heart defect is hereditary.

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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Joint Care: Provide Support After Wounds, Infection

Viscous and transparent, synovial fluid acts as a biological lubricant within musculoskeletal mechanisms. Penetrating wounds to joints and tendon sheaths cause most infections, though pathogens carried in the bloodstream, as with foals diagnosed with joint ill, have been implicated, as has contamination at the time of intraarticular injection or surgery. Veterinarians refer to infection that sets up in any structure containing synovial fluid, namely joints, tendons, and bursas, as synovial sepsis.

Prompt diagnosis and aggressive treatment minimize damage to septic structures and often prevent career- and life-threatening consequences. To determine if infection is present, bacterial isolation through culture is the best diagnostic tool, yet low sensitivity and long laboratory turnaround time often preclude a definite diagnosis in the face of emergency situations and treatment decisions, which may include joint irrigation and surgery. Because of these limitations, researchers have sought alternative ways to quickly identify the presence of infection.

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Austrian researchers recently evaluated the presence of specific biomarkers, called antimicrobial proteins, in synovial fluid as a way to confirm infection.^* These proteins are activated by the immune system in response to a pathogenic challenge, so their existence in the fluid indicates sepsis. According to the researchers, “using enzyme activity as a biomarker of synovial sepsis enables the development of a point-of-care diagnostic test, which would allow veterinarians to perform, analyze, and act on test results stall-side, in a matter of minutes.”

In the study, researchers collected synovial fluid samples from three groups of horses: healthy controls, horses with aseptic synovitis (inflammation without infection), and horses with septic synovitis. Enzyme activity assays were compared with standard synovial fluid parameters and broad-range bacterial DNA extraction.

The researchers found enzyme activities were significantly different between septic synovial samples and aseptic and control samples, leading them to believe that measurement of enzyme activities would allow for reliable, rapid diagnosis of synovial sepsis and immediate therapeutic interventions.

Joint health depends largely on conscientious management of exercise, including frequency and intensity of athletic bouts, and the provision of high-quality nutritional supplements formulated specifically for joint support. While synovial sepsis typically develops from injuries that compromise the joint capsule, it can occur following routine intraarticular injection of hyaluronic acid and corticosteroids, though the incidence of infection is uncommon.^° The prophylactic use of joint supplements in high-performance horses and prospects can delay the need for joint injections, thus postponing any risk associated with invasive procedures.

^*Haralambus, R., A. Florczyk, E. Sigl, S. Gultekin, C. Vogl, S. Brandt, M. Schierer, C. Gamerith, and F. Jenner. 2021. Detection of synovial sepsis in horses using enzymes as biomarker. Equine Veterinary Journal. In press.

^°Steel, C.M., R.R. Pannirselvam, and G.A. Anderson. 2013. Risk of septic arthritis after intra-articular medication: A study of 16,624 injections in Thoroughbred racehorses. Australian Veterinary Journal 91(7):268-273.