New blood test could help track muscle recovery in racehorses

A new blood test could make it easier for trainers and vets to monitor how well a racehorse recovers after a race, and help prevent muscle injuries that can derail performance or even end a career.

Researchers from Proteomics International and the University of Western Australia, led by Dr. Christopher James, have developed a simple, stable test that uses a dried blood spot - just a small drop of blood on paper - to measure a specific marker of muscle damage and recovery.

 

The patented OxiDx test looks at a substance in the blood called thiol-oxidised albumin, a marker of oxidative stress. Oxidative stress occurs when the body’s natural balance is tipped during intense exercise or illness, and it plays a key role in inflammation and muscle repair.

 

In both humans and animals, higher levels of thiol-oxidised albumin have been linked to muscle damage following hard physical activity. Unlike older tests, such as measuring creatine kinase (CK), this new method is proving to be more sensitive and may detect early or low-level muscle strain that other tests miss.

 

Blood samples were collected from thoroughbred racehorses before and for seven days after racing. Trainers collected the dried blood spot samples at their stables, making the process simple and stress-free. The researchers also took liquid blood samples on Days 2 and 5 after the race to measure standard muscle enzymes (CK and AST).

 

The test results showed that thiol-oxidised albumin peaked 2 days after the race, increasing by an average of nearly 4%. Levels generally returned to normal by Day 5, though some horses recovered more quickly or slowly, highlighting individual differences in recovery.

 

The new test also showed a relationship with AST, another muscle-related blood marker.

 

Muscle injuries are very common in racehorses. Studies show that up to 85% of thoroughbreds will suffer at least one injury during their 2- or 3-year-old seasons. Often, the signs of muscle strain or damage are subtle or go unnoticed, but continuing to train or race with underlying injuries can lead to reduced performance, more serious muscle damage, such as strains or tears. These may lead to longer recovery times or being withdrawn from competition altogether.

 

This new test offers a practical way to monitor recovery after each race, helping trainers and vets make better decisions about when a horse is ready to return to training or racing.

 

This research, published in the journal Veterinary Science and Medicine, suggests that thiol-oxidised albumin could become an important tool for managing recovery and preventing injury in hard-working racehorses.

 

By tracking how muscle stress builds and resolves after racing, trainers and vets may be able to spot horses that need more rest, or identify those who recover quickly and are ready to safely return to work.

 

As the racing industry increasingly focuses on welfare, performance longevity, and injury prevention, this test may offer a way to keep horses healthy and at their best.

 

Proteomics International Managing Director Dr Richard Lipscombe said, “these exciting results mark a significant milestone in applying the OxiDx test to equine veterinary medicine. OxiDx has the potential to empower trainers to monitor muscle recovery with precision, helping their racehorses achieve peak performance while prioritising equine health and well-being.”

The company plan to launch the OxiDx test in Australia later this year

 

For more details, see:

 

The level of thiol-oxidised plasma albumin is elevated following a race in Australian Thoroughbred horses

Christopher James, Erin M. Lloyd, Peter G. Arthur

 Veterinary Medicine and Surgery (2025)

https://doi.org/10.1002/vms3.70487

Does obesity influence inflammatory responses in horses with equine asthma?

(c) Abby Khoriaty Dreamstime.com

 Equine asthma is a chronic respiratory condition that affects many horses, particularly those kept in stabled
environments or exposed to dust and allergens. It is characterised by airway inflammation (primarily driven by neutrophils)  leading to symptoms such as coughing, nasal discharge, and laboured breathing. Inflammatory flare-ups can significantly impair lung function and reduce performance.

 At the same time, equine obesity is becoming increasingly prevalent among domestic horses, largely due to overfeeding, limited exercise, and modern management practices. Obesity is already known to affect metabolic health and immune function in other species, including humans. This raises an important question: Could excess body fat make equine asthma worse by altering how the immune system responds to inflammation?

 A research team led by Alejandro Albornoz at the Universidad Austral de Chile set out to investigate whether obesity influences the inflammatory profile of horses with equine asthma. Their study, published in the open-access journal Animals, focused specifically on neutrophils - the white blood cells central to the airway inflammation seen in asthmatic horses.

 The researchers compared two groups of asthmatic horses that were in clinical remission (i.e. not experiencing active symptoms). The horses were divided into obese and non-obese groups, based on their body condition scores (BCS). Blood samples were taken to assess systemic inflammatory markers and to analyse how the horses’ neutrophils responded to immune challenges in the lab.

The results showed clear differences between the two groups:

• ·       Obese horses had significantly higher blood levels of interleukin-1β (IL-1β), a potent inflammatory cytokine involved in many immune responses.
• ·       They also had increased peripheral neutrophil counts, indicating a more active systemic inflammatory state.

When stimulated in the lab, neutrophils from obese horses:

• ·       Produced more reactive oxygen species, a marker of a strong oxidative response.
• ·       Showed greater expression of IL-1β genes after exposure to inflammatory triggers (such as lipopolysaccharide).

These responses point to a hyperinflammatory neutrophil phenotype - meaning these immune cells were more reactive and potentially more damaging to lung tissue if activated in the horse’s airways.

To better understand these changes, the team also conducted metabolomic profiling of the neutrophils - essentially examining the small molecules and biochemical pathways active within the cells.

They identified 139 different metabolites, and found key differences in:

• ·       Fatty acid biosynthesis
• ·       Branched-chain amino acid metabolism
• ·       Glutathione-related antioxidant pathways
• ·       Tricarboxylic acid (TCA) cycle intermediates

In particular, levels of itaconate, citraconic acid, and citrate were significantly elevated in the obese group. These molecules are known to regulate immune cell activity, and their presence suggests a state of metabolic reprogramming that primes neutrophils for a heightened inflammatory response.

The researchers conclude that obesity alters neutrophil metabolism and function in horses with asthma, making these immune cells more reactive to inflammatory stimuli. This may contribute to more persistent or severe airway inflammation, potentially making the disease harder to control. 

The findings highlight the importance of addressing obesity as part of asthma management. Controlling body condition may reduce systemic inflammation and help prevent disease flare-ups. The study also opens the door to future therapies that target neutrophil metabolism as a way to modulate inflammation in chronic equine diseases.

For more details, see:

Albornoz, Alejandro, Beatriz Morales, Valentina Bernal Fernandez, Claudio Henriquez, John Quiroga, Pablo Alarcón, Gabriel Moran, and Rafael A. Burgos. 

Obesity-associated metabolomic and functional reprogramming in neutrophils from horses with asthma

Animals (2025) 15, no. 13: 1992. 

https://doi.org/10.3390/ani15131992

Stress in young sport horses during breaking-in

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Sport horses are frequently exposed to a variety of stressors throughout their careers—including training, transportation, and competition—all of which can trigger elevated cortisol release, a
well-known marker of stress. While numerous studies have explored the impact of these stressors on adult performance horses, relatively little attention has been paid to the early stages of a horse’s career, particularly the breaking-in period. Yet this is a critical transition that can have lasting effects on welfare, behaviour, and long-term performance. 

A recent study conducted by Julia Krieber and colleagues at the University of Veterinary Medicine, Vienna, sought to fill this gap by investigating the physiological stress response in young horses as they progress from unridden status into ridden work. A full report of the work is published in Animals.

 

The study was carried out on 41 horses from a single stud farm, ranging in age from 1 to 20 years. 

Based on their training status, the horses were categorized into two main groups:

• Unridden horses (n = 28): This group included warmbloods (both mares, stallions, and geldings), Haflingers, and one Noriker. These horses had no experience under saddle but were halter trained and accustomed to regular human interaction since birth. They were kept in open stables with seasonal access to paddocks. Their barns were bedded with straw using a deep litter system, which was typically cleaned every two weeks—a setup intended to reflect a more natural, group-based housing environment.
• Horses in training (n = 13): All were warmblood geldings, housed individually in box stalls. These horses were undergoing various stages of formal ridden training, including the initial breaking-in period.

 

The researchers measured faecal cortisol metabolites (FCMs) from all horses—an established, non-invasive method for assessing chronic stress levels in animals. FCMs provide a longer-term view of physiological stress compared to blood sampling, which can itself be stressful for the animal.

 

The results revealed important insights into how the onset of training impacts stress levels:

Unridden horses had significantly lower FCM concentrations compared to horses in training (Mann-Whitney rank sum test, p < 0.001), suggesting that the training process is a major source of stress.

Among horses in training, those in their first year under saddle showed especially elevated FCM levels when compared to unridden peers (ANOVA with Holm-Sidak post hoc test, p < 0.05). This confirms that the breaking-in phase is particularly stressful, likely due to new physical and psychological demands.

 

FCM levels tended to decrease over time with continued training, indicating some degree of habituation or adaptation to the work, although this varied by individual.

 

Within the training group, there was a wide variability in FCM concentrations, suggesting that horses respond differently to the same training conditions. This variability may reflect individual temperament, previous experiences, or coping styles.

 

This study reinforces the notion that breaking-in represents a critical and potentially stressful milestone in a young horse’s life. The findings carry several important implications:

• Tailored training approaches are essential. Given the observed individual variability in stress responses, trainers should adapt their methods based on the horse's behavior, temperament, and rate of progress.
• Management practices influence stress. Differences in housing conditions—group housing with paddocks versus individual boxes—may contribute to overall stress levels and coping ability, though this variable was not the central focus of the study.
• Gentle and progressive introduction to ridden work is key. Minimising psychological and physical stress during early training can improve welfare and potentially enhance long-term performance and trainability.
• Monitoring welfare through physiological indicators like FCMs can provide valuable insights into how horses experience their environment and training regime.

 

The findings by Krieber and colleagues highlight an often-overlooked aspect of equine welfare: the impact of early training on stress levels in young horses. By demonstrating that horses experience significantly increased stress during the initial stages of being backed and ridden, the study underscores the importance of empathetic, evidence-based approaches to breaking-in.

 

In a field where performance is often the focus, it is essential not to overlook the horse's mental and emotional well-being; especially at the very start of their careers. As this research shows, how we introduce horses to training matters; not only for their welfare but for their future success as sport partners.

 

For more details, see:

 

Krieber, Julia, Aurelia C. Nowak, Jakob Geissberger, Oliver Illichmann, Sabine Macho-Maschler, Rupert Palme, and Franziska Dengler. (2025). 

"Fecal Cortisol Metabolites Indicate Increased Stress Levels in Horses During Breaking-In: A Pilot Study" 

Animals 15, no. 12: 1693. 

https://doi.org/10.3390/ani15121693

Investigating the relationship between headshaking and the hyoid apparatus in horses: A CT-based study

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Headshaking in horses is a frustrating and often debilitating condition that can significantly
impact welfare and performance. Most commonly, it presents as sudden, repetitive, and often violent vertical or horizontal movements of the head, sometimes accompanied by snorting, rubbing the muzzle, or signs of facial pain. In many cases, headshaking is considered idiopathic, but it is frequently associated with trigeminal-mediated neuropathic pain - meaning the horse perceives abnormal, often painful, sensations due to dysfunction of the trigeminal nerve.

Because clinical signs can mimic discomfort arising from other sources, diagnostic work-ups for headshaking often include advanced imaging techniques such as computed tomography (CT) of the skull. These scans aim to identify or rule out structural abnormalities that may be contributing to the signs.

 

One anatomical area of interest is the hyoid apparatus, a complex chain of small bones that supports the tongue and larynx and connects to the base of the skull via the temporo-hyoid joint. The hyoid plays a critical role in swallowing, vocalisation, and possibly in movement coordination between the head and neck. It is anatomically and functionally close to the ear and cranial nerves, including the trigeminal nerve, raising the question: could hyoid apparatus pathology contribute to headshaking?

 

To explore this possibility, Ralph Lloyd-Edwards and colleagues conducted a retrospective study to assess CT changes in the hyoid apparatus of horses. 

 

All horses that were referred to the Diagnostic Imaging Division, Department of Clinical Sciences of the Veterinary Teaching Hospital, in the Faculty of Veterinary Medicine of Utrecht University with reported clinical signs consistent with headshaking between February 2015 and June 2022 were included in the study.

 

The researchers compared a group of horses showing clinical signs of headshaking to a control population with no history of headshaking. Additionally, a subgroup of headshakers with no other identifiable causes (e.g. sinus disease, dental issues, or ear pathology) was compared to controls, to evaluate whether hyoid changes might be more significant in otherwise unexplained cases.

 

Several anatomical changes were documented via CT, including:

 

• Temporohyoid joint sheath ossification – a thickening and bony change in the connective tissue surrounding the joint.

• Mineralisation of the tympanohyoid cartilage – hardening of the cartilage connecting the hyoid to the temporal bone.

• Joint space alterations – either narrowing or widening of the temporohyoid joint space. 

• Structural abnormalities – such as deformation, fracture, or degenerative joint changes within the hyoid bones.

 

These changes were found to correlate significantly with age - older horses were more likely to show ossification and other degenerative features. Additionally, the degree of change in one area of the hyoid often correlated with changes in adjacent structures, suggesting a progressive or systemic pattern of bony adaptation.

 

Interestingly, centres of ossification were also described in smaller hyoid bones, including the epihyoid, thyrohyoid, and the lingual process of the basihyoid, highlighting the complex and variable anatomy of this region.

 

Despite some initial trends - especially in the subgroup of horses with no other obvious cause for headshaking-  no consistent or statistically significant association was found between hyoid apparatus abnormalities and clinical signs of headshaking. While odds ratios for certain changes were elevated in headshakers, they did not reach levels that would support a causal link.

 

CT imaging of the hyoid apparatus reveals a wide range of anatomical variations and age-related changes, but these findings do not appear to be directly or consistently linked to headshaking in horses. While it remains possible that in certain cases hyoid abnormalities could contribute to or exacerbate discomfort, particularly in horses with concurrent trigeminal sensitivity, this study did not establish a clear diagnostic or therapeutic target in the hyoid region for managing headshaking.

 

For horse owners and equine professionals, this study underscores the complexity of diagnosing headshaking and highlights the importance of a comprehensive work-up. While CT can be valuable for ruling out other structural causes, hyoid changes should be interpreted cautiously and within the broader clinical context.

 

 

For more details, see:

 

Lloyd-Edwards, Ralph A., Eva Mulders, Marianne M. Sloet van Oldruitenborgh-Oosterbaan, and Stefanie Veraa. 2025. 

Computed Tomography of the Hyoid Apparatus in Equine Headshaking Syndrome

Veterinary Sciences 12, no. 6: 511. 

https://doi.org/10.3390/vetsci12060511

UF researchers seeking Central Florida horses for arthritis pain study

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 Do you own a horse with osteoarthritis, especially in the fetlock joint? Researchers at the
University of Florida are inviting horse owners to take part in a new study that could lead to better ways of identifying and managing joint pain — both in horses and in humans.

This research effort is a collaboration between UF’s Institute of Food and Agricultural Sciences (UF/IFAS), the UF College of Veterinary Medicine, the UF College of Dentistry, and the UF Department of Biomedical Engineering. Their goal is to improve how veterinarians detect joint pain in horses before it becomes visibly severe — giving your horse a better shot at long-term joint health and comfort.

Osteoarthritis is a leading cause of lameness and discomfort in horses. Like humans, horses develop arthritis from repetitive stress on the joints — often due to performance activities like racing, jumping, or even frequent trail work. While joint pain in horses is common, it's often not diagnosed until the horse shows clear signs of discomfort. By that point, valuable joint function may already be lost.

Dr. Samantha Brooks, associate professor of equine physiology and genetics at UF/IFAS, says this new study uses a non-invasive screening process designed to catch signs of pain earlier and more objectively than traditional evaluations.

“We tend to treat symptomatically when horses show obvious clinical signs of pain, but if we can detect subtle joint pain sooner, we might be able to start pain treatments in time to better preserve joint function, and tailor that treatment for each horse,” Brooks said. “And our horses undergo a lot of the same joint diseases that we have. Any tools that we can build to better understand the discomfort caused by arthritis in horses gives us a better understanding of arthritis pain in people.”

Because horses can’t tell us when or where it hurts, the UF team is aiming to build a more accurate way to assess pain — something that could ultimately improve not only equine care but also the way doctors understand arthritis pain in humans.

For this field study, UF is recruiting horses already diagnosed with osteoarthritis — ideally in the fetlock joint — who live in Central Florida. Horses enrolled in the study will receive a free initial screening, which includes:

• A basic lameness exam (e.g., walk/trot in a straight line)

• Radiographs (X-rays) of the fetlocks

• A simple blood draw

After the initial evaluation, the research team will make follow-up visits a few times a year over a two-year period. These visits are designed to observe the horses in their usual environment — there’s no change expected in your horse’s routine. Researchers will track movement patterns and behaviors using new, non-invasive technologies to better understand the signs of discomfort.

Kaylee Young, research coordinator in UF’s Animal Sciences department, emphasized how important horse owners are to this work.

“Participating in this study could lead to better pain management and care for not only our horse companions but for people,” she said. “This research could be something that could be life changing not only for horses but for humans.”

Interested in participating?
If your horse meets the criteria and you’d like to be part of this important study, email uf-gallop@ufl.edu with the subject line “Study Participation.” Be sure to include your location and a few details about your horse’s health, including whether they’ve been diagnosed with fetlock osteoarthritis.

Morris Animal Foundation offers funding for research projects

 Morris Animal Foundation, one of the largest non-profit animal health research organisations in the world, is now inviting requests for research proposals to improve the health and welfare of domesticated horses, ponies, donkeys and mules. 

This opportunity includes four award categories — Established Investigator, First Award, Pilot Study and Fellowship Training — each designed to support impactful, humane, and scientifically robust equid health research.  

On offer are grants of up to $145,000 over 24 months,  depending on category.

All applicants must clearly describe the health problem their research addresses and its significance, demonstrate their qualifications and outline a sound scientific approach, and assess the environmental and animal welfare impacts of their study. Proposals must also include appropriate sample size calculations, ethical research design considerations, and a fully justified budget using the Foundation’s provided templates.  

Applicants must submit proposals via the Foundation’s online portal by 4:59 p.m. ET, August 6, 2025.Full details and templates are available on the Foundation’s Grants page.  

https://www.morrisanimalfoundation.org/apply

Ongoing work to improve racehorse safety - Free articles

 The Equine Veterinary Journal (EVJ) has highlighted the global commitment to enhancing racehorse welfare by releasing a special open-access collection focused on racehorse safety. This curated selection of peer-reviewed research stems from the 2024 International Federation of Horseracing Authorities (IFHA) Global Summit on Equine Safety and Technology, an event that brought together leading experts to address some of the sport's most pressing health concerns.

The summit assembled a diverse group, including research scientists, equine clinicians, veterinarians, and racing regulators, from around the world. Together, they examined how cutting-edge science and emerging technologies could be applied to reduce the risk of catastrophic injuries such as bone fractures and exercise-associated sudden death in racehorses.

This special EVJ collection includes four editorials inspired by key themes and discussions from the summit, along with 22 additional research articles. Topics range from advances in diagnostic imaging and track surface analysis to genetic and physiological studies aimed at improving risk prediction and management.

In addition to the published research, a related podcast is also available, featuring a discussion with several summit leaders. The podcast offers further insight into the collaborative strategies and innovative tools being developed to make racing safer for horses worldwide.

This initiative underscores a global shift towards evidence-based practices in equine sports and reflects an ongoing dedication to the welfare of racehorses through collaborative scientific advancement.

The special collection, which includes four editorials based on the summit along with 22 additional papers, is available here:

https://beva.onlinelibrary.wiley.com/doi/toc/10.1001/(ISSN)2042-3306.racehorse-safety

A related podcast featuring discussion among several principals of the IFHA summit is available here:  

https://evj.podbean.com/e/evj-in-conversation-podcast-no-87-june-2025-jamie-stier-chris-riggs-celia-marr-rhiannon-morgan/

Correlation between mild changes on back radiographs and performance

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 Mild radiographic abnormalities of the thoracolumbar spinous processes do not necessarily impair performance in warmblood jumping horses.

Back pain is a well-recognised contributor to reduced performance in sport horses. However, the precise relationship between clinical signs of back discomfort and radiographic abnormalities of the spine remains poorly defined.

A recent descriptive observational study, published in the Journal of Equine Veterinary Science, aimed to characterise radiographic findings of the thoracolumbar spinous processes in actively competing Warmblood show jumpers and to assess any associations with performance outcomes.

The study evaluated 100 Warmblood jumping horses, all competing in 2018, with a median fence height of 1.35 m (mean 1.3 m; range 0.90–1.60 m). All horses included were free from observable lameness and neurological deficits. Lateral radiographs of the thoracolumbar spine were obtained and assessed by four independent observers, who graded each image for the presence and severity (absent, mild, moderate-to-severe) of four specific abnormalities: narrowed interspinous spaces, sclerosis, lucency, and enthesopathy.

Inter-observer agreement was assessed using the Intraclass Correlation Coefficient (ICC), revealing moderate to good consistency across observers.

In addition to radiographic evaluation, signalment, years of competition, current level of performance, and highest career performance level were recorded for each horse. These variables were then analysed for correlation with radiographic findings.

Strikingly, no horse in the study population was entirely free from radiographic abnormalities, highlighting the high prevalence of such changes among active sport horses. Narrowed interspinous spaces and sclerosis were the most commonly observed findings, predominantly located between thoracic vertebrae T15 and lumbar vertebra L1. Enthesopathy was most frequently identified at the withers, specifically between T8 and T13.

Despite the high prevalence of abnormalities, the research team found no significant correlations between radiographic changes and the horse's age, current performance level, or total years of competition (p > 0.05). Interestingly, the highest career performance level showed a weak but statistically significant positive correlation with the presence of narrowed interspinous spaces and sclerosis. These findings suggest that some radiographic abnormalities may not only be tolerated by high-performing horses but could also reflect adaptive or age-related changes without clinical relevance.

In conclusion, mild radiographic changes of the thoracolumbar spinous processes—particularly narrowing of interspinous spaces and sclerosis—were commonly observed in this cohort of active Warmblood jumpers. Importantly, these findings were not associated with impaired performance, indicating that such abnormalities, when mild and absent of clinical signs, may not adversely impact athletic function.

 

For more details, see:

 

M.P. Kerbert, S.S. le Jeune, K.L. Philips, K.L. Shaw, C.A. Erickson, P. Espinosa-Mur,

Mild radiographic abnormalities of thoracolumbar spinous processes are not associated with decreased performance in 100 Warmblood jumping horses in active competition,

Journal of Equine Veterinary Science,(2025)

Vol 147, 105366,           

https://doi.org/10.1016/j.jevs.2025.105366