The association of 2‐year‐old training milestones with career length and racing success in a sample of Thoroughbred horses in New Zealand

Reasons for performing study: There is increasing evidence that exercise early in life has a positive effect on musculoskeletal health. At present, there is little whole population research investigating the effect of racing as 2‐year‐olds on future racing career. Objectives: To investigate the association between attaining training milestones as 2‐year‐olds with length of career and racing success in Thoroughbred horses in New Zealand. Methods: Retrospective data were obtained of the 2001/02‐born Thoroughbred foal crop. The 3 training milestones were: registered with a trainer, trialled and raced. The association of the training milestones with career length was measured using the outcomes: number of race starts and number of years raced, in a Cox regression model. Logistic regression models analysed the association of the training milestones with the outcomes: won or placed in a race. Linear regression was performed to assess the association of training milestones with total career earnings. Results: Of 4683 horses in the population; 3152 horses were registered with a trainer, 2661 horses trialled and 2109 horses raced. Horses that raced as 2‐year‐olds had significantly (P<0.001) more race starts than those first raced as 3‐year‐olds or older, this was also true when the 2‐year‐old year data were omitted. Horses that raced as 2‐year‐olds had significantly (P<0.001) more years racing. Horses registered with a trainer, trialled or raced as 2‐year‐olds were more likely to have won or been placed in a race than those that achieved the milestones as 3‐year‐olds or older. Horses that first trialled and raced as 2‐year‐olds had greater total earnings than those that first trialled or raced at a later age. Conclusions and potential relevance: Two‐year‐old training milestones had a strong association with positive racing career outcomes. Horses in training or racing as 2‐year‐olds may have better musculoskeletal health throughout life than horses that are first in training or racing at a later age.     

Incidence rate of musculoskeletal injuries and determinants of time to recovery in young Australian Thoroughbred racehorses

Objective To describe the incidence rate of musculoskeletal (MS) injuries and investigate the factors that influence recovery from MS injury in young Thoroughbred horses in Australia. Methods Training and injury data were collected at fortnightly intervals from 14 trainers in New South Wales. Incidence rates were calculated for initial injuries stratified by age‐class and sex. Survival analysis methods were used to investigate the time to recovery after the first MS injury (measured as a start in a race or barrier trial). Results For the 248 racehorses enrolled, there were 428 injuries recorded; 2‐year‐olds were 2.99‐fold more likely than 3‐year‐olds to sustain an MS injury. The cumulative percentage of horses that had recovered within 6 months was 55%. The time to recovery was longest in horses whose fast gallop speed prior to injury was < 890 m/min. Conclusion This study supports the finding that shin soreness is the most common MS injury in young Australian Thoroughbreds. There was an increased rate of MS injury in 2‐year‐olds compared with 3‐year‐olds. However, it was impossible to determine if the increased risk in 2‐year‐olds was related to age, the start of training or a combination of both. The study also found that horses performing at higher exercise speeds prior to injury were more likely to recover. There was a significant effect of trainer, suggesting that other factors related to trainer may influence the time to the recovery. Additional research is required to understand the determinants of time to recovery.     

Days lost from training by two‐ and three‐year‐old Thoroughbred horses: A survey of seven UK training yards

Reasons for performing study: The first major epidemiological study of injury incidence in the UK flat racing Thoroughbred (TB), published in 1985, found lameness to be the single largest reason for days when horses failed to train. It was considered advisable to ascertain if progress has been made in reducing the problem of musculoskeletal injuries in the intervening period. Objective: To quantify injury incidence and days lost from training by 2‐ and 3‐year‐old TBs in UK training yards during 2002 and 2003. Methods: One‐hundred‐and‐eighty‐two yearling TBs were recruited at the end of 2001 and daily training and injury records maintained over the following 2 training and racing seasons. Days were defined as lost from training when a horse failed to train at a slow canter speed or faster, and could be assigned to one of 4 categories: lameness, medical, traumatic and unknown. The incidence and number of days lost due to specific injuries and medical conditions was determined by further subdividing the lameness and medical categories. Results: The study period provided a total of 52,601 2‐year‐old and 29,369 3‐year‐old days available for training, with 2‐year‐olds failing to train on a significantly greater proportion of days available than 3‐year‐olds. Lameness was the most important condition causing horses to miss training, with stress fractures being the most important cause of lameness. Medical conditions were a relatively minor cause of days lost from training, accounting for approximately 5% of untrained days in the 2 age groups. Conclusions: In UK flat racehorses there has been little change in the proportion of days lost from training due to lameness over the last 20 years. Potential relevance: This study highlights the need for further efforts to reduce the problem of lameness in the racing TB.     

Roles of learning theory and ethology in equitation

By definition, ethology is primarily the scientific study of animal behavior, especially as it occurs in a natural environment; applied ethology being the study of animal behavior in the human domain. The terms equine ethology and ethological training are becoming commonplace in the equestrian domain, yet they seem to be used with a conspicuous lack of clarity and with no mention of learning theory. Most of what we do to train horses runs counter to their innate preferences. This article summarizes the ethological challenges encountered by working horses and considers the merits and limitations of ethological solutions. It also questions the use of terms such as “alpha” and “leader” and examines aspects of learning theory, equine cognition, and ethology as applied to horse training and clinical behavior modification. We propose 7 training principles that optimally account for the horse’s ethological and learning abilities and maintain maximal responsivity in the trained horse. These principles can be summarized as: (1) use learning theory appropriately; (2) train easy-to-discriminate signals; (3) train and subsequently elicit responses singularly; (4) train only one response per signal; (5) train all responses to be initiated and subsequently completed within a consistent structure; (6) train persistence of current operantly conditioned responses; and (7) avoid and disassociate flight responses. Adherence to these principles and incorporating them into all horse training methodologies should accelerate training success, reduce behavioral wastage of horses, and improve safety for both humans and horses.     

Intrathoracic esophageal perforation of unknown cause in four horses

Three horses (age 17 - 23 years) were referred to the equine clinic of the University of Berne due to colic, fever, tachycardia and tachypnea. All horses showed pleural effusion. Clinical findings in 2 of the horses were highly suggestive of an intra-thoracic esophageal perforation. Severe septic pleuropneumonia without suspicion of an esophageal lesion was diagnosed in the 3rd horse. In addition, an 11 year old stallion was referred to the equine clinic for treatment of a presumptive large colon impaction. The horse was given laxatives after nasogastric intubation. Subsequent dramatic clinical deterioration and signs consistent with severe pleuropneumonia suggest that esophageal perforation had occurred when passing the nasogastric tube. All 4?horses were euthanized due to a poor prognosis. Esophageal perforation was diagnosed or confirmed post mortem in all cases. A hypertrophy of the tunica muscularis of the intra-thoracic esophagus was found in 3 of 4?horses.     

Haematological changes in two thoroughbred horses in training with confirmed equine herpesvirus 1 infections

An outbreak of respiratory disease among thoroughbred horses in training in Hong Kong was caused by equine herpesvirus 1 (EHV-1) subtype 1 (abortion strain). Two of the horses affected by EHV-1 were serially blood sampled over a period of several weeks and their haematological values measured. There was an increase in monocyte count in the first few days which steadily decreased in one horse, but the other had a second monocyte peak after a period of exercise, thus demonstrating the importance of not working animals in the early stages of the disease.     

Physiological responses of young thoroughbred horses to intermittent high-intensity treadmill training

Background

Training of young Thoroughbred horses must balance development of cardiopulmonary function and aerobic capacity with loading of the musculoskeletal system that can potentially cause structural damage and/or lameness. High-speed equine treadmills are sometimes used to supplement exercise on a track in the training of young Thoroughbreds because the horse can run at high speeds but without the added weight of a rider. We tested the hypothesis that intermittent high-intensity exercise on a treadmill of young Thoroughbred horses entering training can enhance development of aerobic capacity (Vo₂max) and running performance more than conventional training under saddle, and do so without causing lameness.

Results

Twelve yearling Thoroughbreds trained for 8 months with conventional riding (C) only, conventional riding plus a short (2 month, S) interval of once-per-week high-intensity treadmill exercise, or a long (8 month, L) interval of once-per-week high-intensity treadmill exercise. Three treadmill exercise tests evaluated Vo₂max, oxygen transport and running performance variables in June of the yearling year (only for L), October of the yearling year and April of the 2-year-old year. No horses experienced lameness during the study. Aerobic capacity increased in all groups after training. In both October and April, Vo₂max in L was higher than in C, but did not differ between L and S or S and C. Running speeds eliciting Vo₂max also increased in all groups after training, with S (809 ± 3 m/s) and L (804 ± 9 m/s) higher than C (764 ± 27 m/s). Maximum heart rate decreased for all groups after training. Hematocrit and hemoglobin concentration increased for L throughout training.

Conclusions

Young Thoroughbred horses can increase aerobic capacity and running performance more than by strictly using track training under saddle with the addition of intermittent high-intensity treadmill exercise, and they can do so without experiencing lameness. This finding suggests that young racehorses might be able to achieve higher aerobic fitness during training without subjecting their musculoskeletal systems to increased loading and risk of developing lameness. The findings of this preliminary study do not indicate a specific protocol to best achieve this goal.     

Risk factors for the hazard of lameness in Danish Standardbred trotters

A follow-up study focusing on health problems interfering with optimal training of Danish Standardbred trotters was conducted with the participation of seven professional trainers. Our aim was to estimate the incidence of health problems that cause interruptions of optimal training, and to identify associations between the hazard of lameness and selected risk factors.The study population was dynamic and contained data of 265 Standardbred trotters monitored during 5 months in 1997 and 1998. The horses were >or=2 years old. Optimal training was defined as when the horse followed scheduled training including fast-speed trotting. Interruption of optimal training could only be caused by health problems and castration.A total of 123 new events of interruption of optimal training caused by health problems were reported. Lameness (injury located to joints and tendons) was the most-frequent cause of interruption of optimal training: 84 events in 69 horses (0.09 events per horse-month). Respiratory diseases (16 events) and muscular problems (seven events) were the second and third most-frequent causes of interrupted training.The effects of trainer, gender, age-group, time with a trainer, participation in races and current month on the hazard of lameness were estimated in a multivariable Cox proportional-hazard model. The effects of trainer, gender and age-group were modelled as time-independent. The effects of time with a trainer, participation in races and the current month were modelled as time-dependent variables.Trainer affected the hazard of lameness. Geldings had higher hazard than mares, as did 3-year olds (compared to >4-year olds). Compared to the period where horses had been trained by the same trainer for >3 months, horses in the period 1.5-2.5 months after they had entered the training regime had higher risk of lameness (hazard ratio: 3.2; 95% CI: 1.1-9.9). Participation in races increased the hazard of lameness significantly in the 5 days after a races.     

An application of temperature mapping of horse's back for leisure horse‐rider‐matching

Leisure riding is a popular way of using horses however, unlike sport or racing horses, those are mostly not associated with one rider with high skills. Constant overload of equine musculoskeletal system causes pathologies, which are affecting horse mobility and decreases the horse‐rider communication. The aim was to propose the new scoring system of thermograph analysis as an aspect of differences in heat distributions on horseback before and after leisure ridings. The study was conducted on sixteen Polish warmblood horses, scanned with a non‐contact thermographic camera. Heat pattern of the thoracolumbar area was evaluated on thermograms taken before and after exercise. The criteria with point values for horse‐rider‐matching were created: heat points on the dorsal midline of saddle‐back contact area and degree of muscle unit overload. The results of thermograph analysis were compared with the results of a questionnaire on horse‐rider communication during riding in order to estimate the relevance of matching. The maximum score was obtained in 38.3% and 39.8% of combinations based on the thermograph analysis and questionnaire, respectively. Results of both scoring systems were strongly positive correlated (r = .937), demonstrating high sensitivity (61.72%) and specificity (90.23%) of the matching. The horse‐rider matching may improve horse comfort during leisure type of work.     

Training Program Intensity Induces an Acute Phase Response in Clinically Healthy Horses

Physiological and hematochemical changes associated with exercise have been extensively investigated in equine species. It is known that stress elevates circulating levels of acute phase proteins (APPs). This survey evaluated whether horses trained with different training programs exhibit changes in APP levels after exercise event. Twenty Saddle Italian horses (11 geldings and 9 females, 9 ± 1 years old, body weight of 425 ± 35 kg) were divided into two equal groups according to the intensity of training programs they were subjected: group A was subjected to an intense training program, group B was subjected to a moderate training program. At the end of the training period, horses were subjected to a simulated exercise event (show jumping course of 400 m length with 12 obstacles). From horses, blood samples were collected at rest conditions (T_REST) and after 12 and 24 hour from the end of exercise (T_{12 h} and T_{24 h}); the concentration of serum amyloid A (SAA), haptoglobin, albumin, total proteins, iron, and fibrinogen was assessed. The circulating levels of SAA, fibrinogen, and iron were influenced by simulated exercise event (P < .01), starting from 12 hour after the end of exercise, suggesting the onset of an acute phase–like response, and it would seem that training program intensity the horses underwent also affected the degree of response, although only SAA values were significantly different between groups (P < .001). The findings obtained suggest that jumping exercise induces an acute phase response; however, further studies are advocated to better evaluate mechanisms by which exercise activates this response in the athletic horse.     

Ethical equitation: Capping the price horses pay for human glory

Ethical equitation is nowadays coming into sharp focus in equestrian culture. Concerns surround the ethics of sports based on controlling an animal's locomotory responses and in using animals such as horses in sport in general. Anthropomorphically labeled misinterpretations of the responses of trained horses, such as the use of terms like “mad,” “lazy,” “keen,” and “stubborn,” may be detrimental to optimal equine welfare. Similarly, the concept of the “equine athlete” may imply an ill-informed teleological explanation of the motives of the horse in sport. Despite problems in identifying the happy horse, rewarding optimal welfare and the absence of critical stress responses in performance horses is an important step forward.Horse racing is the source of many welfare concerns because of the use of the whip and the physical dangers to horses involved in hurdle racing and steeplechasing. The use of the whip in racing is controversial and, because it does not always lead to acceleration, problematic. There is a pressing need for learning theory to be adopted in all equestrian pursuits, because such an approach would obviate the need for whips, punishment, and the use of fear in escape learning. In other disciplines, practices such as hyperflexion and soring have a significant potential to compromise the welfare of the horse in sport.The future of horse sports should involve abandoning the mandatory use of primitive control devices, such as curb bits, that have a real potential to cause harm. International governing bodies and national equestrian federations ought to proceed with removing any requirements to use curb bits and judges should reward riders who use the most humane control devices at the higher levels of competition.Finally, horse breeding should also be scrutinized under an ethical spotlight. Selecting horses on the basis of temperament has inherent risks, including lowered motivation of riders and trainers to refine their training skill set, which may also lead to significant wastage. Pure breeding risks the health and welfare of horses owing to increases in homozygous deleterious genes expressing themselves.     

Retrospective trainer-reported incidence and predictors of health and training-related problems in standardbred racehorses

Information on the incidence of injury, illness, and unexplained loss of athletic performance of 2345 Standardbred racehorses was gathered from a telephone survey of 177 trainers during the 1996-1997 season. Trainer-reported incidence of infection and illness (18%) was higher than the incidence of musculoskeletal problems (10%) or unexplained athletic performance loss (6%). Older horses (>5 years) were more likely to develop musculoskeletal problems (odds ratio [OR] = 3.9; confidence interval [CI] = 1.8-8.2) and performance loss OR = 2.3, CI = 1.1-5.2) than 2-year-old horses. Horses were more likely to suffer musculoskeletal problems if fast-worked on tracks or surfaces with no banking compared with those fast-worked on tracks with banking similar to commercial racetracks OR = 4.6, CI = 2.0-9.9). Horses given no warm-up before high-intensity exercise were more likely to suffer a musculoskeletal problem than horses given a light warm-up of 1 to 9 minutes OR = 2.5, CI = 1.5-4.4). Horses trained for more than 164 min·wk⁻¹ were more likely to suffer musculoskeletal problems OR = 1.7, CI = 1.1-2.8) and athletic performance loss OR = 2.5, CI = 1.4-4.4) than horses trained for shorter periods. Horses given a moderate weekly exercise duration (132-148 min·wk⁻¹) had the lowest rates of infection and illness, but short (114-131 min·wk⁻¹) or very long (>164 min·wk⁻¹) weekly exercise duration increased the risk of horses suffering infection and illness OR = 1.6, CI = 1.1-2.2 and OR = 1.3, CI = 1.0-1.9, respectively). We conclude that Standardbred trainers could avoid many training and health problems by using well-banked tracks, providing a proper warm-up, and avoiding excessive training.

Introduction

Racehorses suffer from a variety of health and training problems that may result in poor performance. Musculoskeletal injury is a major problem in Thoroughbred racehorses, accounting for as much as 53% of the lost training and racing days.[1 and 2] Thoroughbreds that race too often, [2 and 3] have insufficient training before racing, [4] or perform too much high-speed work [5] have a greater risk of musculoskeletal problems. Performance may also be affected by respiratory infection, which is responsible for 12% of lost training or racing days. [1]Poor performance can also develop in an otherwise apparently healthy horse. Such unexplained loss of athletic performance may arise from undiagnosed health problems or from too much training.[6] Overtraining described as a state of prolonged fatigue caused by too much training or insufficient recovery [7] has been demonstrated in horses in both cross-sectional and longitudinal studies, [8 and 9] but the incidence of athletic performance loss because of overtraining in the population is unknown. Recently reported prospective studies that used the same group of horses has found that overtraining appeared to be difficult to induce in horses, [10, 11, 12 and 13] which may indicate that overtraining accounts for little of the loss in athletic performance suffered by Standardbred racehorses.It is thought that lameness is the most important cause of poor racing performance in Standardbreds[14]; however, the incidence of musculoskeletal problems causing lameness in Standardbreds is lacking. There is also little information on the incidence of respiratory disease or athletic performance loss in Standardbreds. The purpose of this study was to determine the trainer-reported incidence of these problems in Standardbred racehorses and to reveal any association with factors such as sex, age, ability, training, track surface, and track design.

Materials and methods

A survey was administered by telephone to 177 Standardbred racehorse trainers randomly selected from a list of 300 trainers compiled by Harness Racing New Zealand. The survey was administered at the end of the 1996-1997 racing season, which lasts from about September through June, and questions asked during the survey related to the 1996-1997 racing season. Trainers were asked to recall the total number of horses that experienced an unexplained and consistent loss of athletic performance (“performance decrease that lasted for at least two weeks, which was not obviously as a result of tying up, infection, illness, or musculoskeletal problems”). Trainers were also asked for the total number of horses that suffered infection or illness (viral and bacterial infections and respiratory diseases but not bleeding from the lungs), and musculoskeletal problems (lameness caused by muscle, tendon, bone, or back injuries that resulted in lost training days). Pilot work involved testing the questionnaire on 10 local horse trainers; from their feedback and that of other colleagues and horse trainers, more than 11 revisions were made. The interview consisted of 65 questions and lasted approximately 20 minutes. The incidences of performance loss and health problems detailed in this study are trainer-diagnosed; however, in the majority of cases (80%), the horses were also examined by a veterinarian and their diagnosis was consistent with the trainer's. Unfortunately, full details of the veterinary examination were not obtained during this study.To examine the influence of track design and banking, trainers were asked to compare the banking of their training tracks to the banking of a commercial racetrack (Forbury Park Raceway, Dunedin, New Zealand, which had a banking angle of approximately 2.3 degrees). Trainers had to decide whether the banking of their track was more, less, or about the same as the banking of the commercial track. Because of the need to keep the questionnaire to a reasonable size, in-depth training data was collected on only one particular group of horses—qualified maidens. Qualified maiden racehorses (previously raced but unplaced) represent the largest group of racehorses in training in New Zealand. Trainers were also asked whether they trained their other horses (faster, slower, unqualified, 1-7, or >7 wins) any differently from the qualified maidens. Information on training type, duration, and intensity were gathered for each day of a typical training week. Exercise duration and total training workload was divided into quintiles (5 equal sections) and contrasts between the quintiles were then examined. Trainers were specifically asked about the duration of the warm-up, which was not included in the total training time. Warm-up was defined as the initial preparatory phase of a training session in which the horse is slowly accustomed to low-intensity exercise and prepared for further high-intensity exercise.Although it is acknowledged that career wins is a crude method of assessing racing ability, it was the most appropriate method available to the researchers during a phone interview that gave some indication of horses' ability. Trainers were therefore asked about the number of wins for each horse and horses were grouped according to the total number of career wins. The Human Ethics Committee of the University of Otago reviewed and approved this project (reference number 97/049).The survey data were analyzed using a repeated-measures general modeling procedure (Proc Genmod, SAS Institute, Cary, NC), which estimated the effect of age, sex, gait, number of wins, warm-up, track design, training duration, and workload as odds ratios ORs). The OR is a way of comparing whether the probability of a certain event is the same for two groups. An OR of 1 implies that the event is equally likely in both groups, whereas an OR of more than one implies that the event is more likely in the first group compared with the second. For example, the odds of a horse suffering a musculoskeletal injury if fast-worked on tracks with no banking is 0.52 (cases/noncases = 12 injured/23 noninjured), whereas the odds of a horse suffering a musculoskeletal injury on well-banked tracks is 0.11 (37 injured/329 noninjured). Therefore, the OR is 4.6 and is interpreted as: 4.6 horses suffer a musculoskeletal injury if fast-worked on an unbanked track compared with every 1 horse that suffers the same injury when fast-worked on well-banked tracks. Proc Genmod (SAS Institute) analyzed the total number of horses in a particular subgroup and the total number of problems in the same subgroup for each trainer. A type I error of 5% was chosen for declaration of statistical significance; precision of estimates was represented by the 95% confidence interval (CI), the likely range of the true value.To estimate the reliability of the trainer's responses, a second questionnaire identical to the first was administered to 17 randomly selected trainers from the same sample 8 months after the original survey. The trainers' responses to the same questions from separate surveys given 8 months apart were used to gauge reliability of the survey. Questions on the sex, gait, and number of race wins of the horses under the trainers' care that suffered health and training-related problems were analyzed. These variables represented population characteristics of the horses that could change with time as horses entered or left the trainers stables, and therefore affect the reliability of the reported data. Survey reliability was found by comparing the empirical standard error of the odds ratio from the initial (Main) and second (Rely) surveys after adjustment for sample size. When the empirical standard error was similar (within one decimal place) between studies, then reliability was considered low, but when the empirical standard error was smaller in the Rely survey compared with the Main survey, then the reliability of the survey was acceptable.

Results

Overall training and health problems

Horses were 2.1 times more likely to suffer from infections and illness than from musculoskeletal problems (CI = 1.4-2.8, P < .001) and musculoskeletal problems were 1.7 times more likely to occur than athletic performance loss (CI = 1.2-2.3, P < .001). Horses that had no recognized problems raced 12 ± 6 times (mean ± SD) over the main racing season (September 1996-June 1997).

Athletic performance loss

Sixty-eight trainers reported that a total of 146 horses developed a decrease in athletic performance not readily associated with musculoskeletal injury, illness, or tying-up during the season (6% of the 2345 horses sampled). Most horses (78%) that suffered athletic performance loss required at least 6 weeks to recover to normal form; the remaining 22% recovered within 4 weeks. In general, the decrease in athletic performance occurred towards the middle and end of the racing season. The incidence of athletic performance loss in the various subgroups of horses is shown in Table 1, and the ORs and confidence limits for statistically significant differences in incidence within each subgroup are shown in Table 2.     

Musculoskeletal injuries in Thoroughbred racehorses: A study of three large training yards in Newmarket, UK (2005–2007)

Musculoskeletal injury is the most common cause of lost training days in the young Thoroughbred horse in flat race training. To date, there has been little investigation of the regional patterns of injury frequently observed by clinicians in racehorse practice. The present study was conducted to determine incidence of musculoskeletal injuries in Thoroughbreds in training in Newmarket, United Kingdom. Veterinary records for all horses resident in three large (>100 horse) training yards were assessed for occurrence of significant musculoskeletal injury.A total of 248 injuries were recorded in 217 individual horses, from a total population of 616 individual horses; fractures of the tibia (20.7%) and proximal phalanx (14.5%) were the most common. Overall injury rates were similar between yards (23–26%/year), with seasonal patterns noted for some injury types. Incidence of certain injuries (P1, metacarpal/metatarsal condylar, pelvic fractures, and superficial digital flexor tendonitis) varied between yards. The majority of carpal, P1 fracture and SDF tendonitis cases were right-sided.     

Long term intensive exercise training leads to a higher plasma malate/lactate dehydrogenase (M/L) ratio and increased level of lipid mobilization in horses

Continuous high intensity training may induce alterations to enzyme activities related to glucose and lipid metabolism in horses. In our study, five Thoroughbred race horses (3 male and 2 female, avg age=5 yrs old) were compared against five riding horses (1 male, 1 female, 3 gelding, avg age=13 yrs old) in terms of energy metabolism, by examining plasma malate (MDH) and lactate (LDH) dehydrogenase activities and M/L ratio. MDH is involved in NADH and ATP generation, whereas LDH can convert NADH back into NAD(+) for ATP generation. An increase in plasma M/L ratio can reflect heightened energy metabolism in the liver and skeletal muscle of horses adapted to continuous intensive exercise. Moreover, plasma lipid metabolism analytes (adiponectin, NEFA, total cholesterol (T-Cho), and triglycerides (TG)) can reflect changes to lipolysis rate, which can also indicate a change in energy metabolism. Overall, race horses demonstrated increased MDH and LDH activity in plasma (4x and 2x greater, respectively), in addition to a plasma M/L ratio twice as high as that of riding horses (2.0 vs 1.0). In addition, race horses also demonstrated significantly higher levels of plasma NEFA (50% greater), TG (2x greater), and T-Cho (20% greater) as compared to riding horses. Therefore, race horse muscles may have adapted to prolonged high intensity endurance exercise by gaining a higher oxidative capacity and an increased capacity for fat utilization as an energy source, resulting in heightened energy metabolism and increased rate of lipid mobilization.     

Cumulative racing-speed exercise distance cluster as a risk factor for fatal musculoskeletal injury in Thoroughbred racehorses in California

Thoroughbred racehorses which suffered a fatal musculoskeletal injury (FMI) while racing or race training at a California racetrack during 9 months of 1991 were studied to determine the importance of intensive, high-speed exercise schedules prior to injury. Seventy-seven horses which sustained an FMI while racing and 45 horses which sustained an FMI while race training were successfully matched by race or timed workout session with one control horse and included in the analyses. Race and timed workout (racing-speed exercise) histories were obtained for the case and control horses. Two-month cumulative, racing-speed cutoff distances were calculated from the control horse sample by two methods. Median racing-speed exercise frequencies and distances of the control horses were used to estimate age-specific (2, 3, 4 and ≥ 5 years), 2-month cumulative, racing-speed distances (Method 1). For the second method, the last race or timed workout for each control horse occurring just prior to, or on the date of injury for the matched case horse was identified. Cumulative racing-speed distances 2 months prior to these exercise events were determined for each control horse and used to estimate median age-specific (2, 3, 4 and ≥ 5 years), 2-month cumulative racing-speed distances (Method 2). The cumulative cutoff distances estimated from both methods were used to classify each matched pair according to the presence or absence of a 2-month cumulative, racing-speed distance which exceeded the age-appropriate cutoff distance (exercise distance cluster) within 6 months prior to injury. Manlel-Haenszel matched-pair odds ratios and 95% confidence limits were calculated separately for the racing and race-training fatal injuries. The relative risk for racing FMI was significantly greater for those horses which ran 2-month, cumulative racing and timed workout distances in excess of the cutoff values determined with Method 1 (relative risk (RR) = 3.0, 95% confidence interval (CI) = 1.2, 7.6) and Method 2 (RR = 7.2, 95% CI = 2.6, 20.6). The relative risk for race-training FMI was significantly greater for those horses which ran 2-month, cumulative racing and timed workout distances in excess of the cutoff values determined with Method 2 (RR = 3.4, 95% CI =1.0, 13.2).     

Effects of two training protocols on Angiotensin I-converting enzyme (ACE) activity in horses

Reasons for performing study: Studies in man have shown a correlation between Angiotensin I‐converting enzyme (ACE) genetic polymorphisms, ACE activity in the blood and superior athletic performance in sports requiring endurance. It has been hypothesised that the same correlation occurs in horses. There is no information in the literature concerning the effects of training on ACE activity in equine plasma. Hypothesis: Exercise training influences the activity of circulating ACE and the response observed is dependent on the exercise protocol. Methods: Thirteen horses of mixed breeds were randomly allocated 2 different training protocols to be carried out for a period of 15 weeks. Blood samples were collected from each horse before the beginning of training to determine baseline values. Subsequent sampling took place every 15 days throughout the training phase and for 8 weeks of paddock rest. Angiotensin I‐converting enzyme activity was determined by automated spectrophotometry. Results: Training for 15 weeks significantly increased plasma ACE activity, irrespective of training protocol. Differences observed in ACE activity pattern between the 2 training protocols were not statistically significant. Increase in ACE activity peaked with maximum workload. As soon as training was interrupted, ACE levels significantly decreased. Conclusions and discussion: Exercise training affects levels of ACE activity in equine plasma. The mechanism for this is not yet elucidated, but cardiovascular adaptation to exercise and blood pressure changes might be involved in this regulation. Potential relevance: Exercise training produced a gradual increase in enzymatic activity and might warrant the use of ACE as a tool for fitness monitoring. Angiotensin I‐converting enzyme enzymatic activity in the plasma might be directly correlated to a change in genetic expression and that variability must be taken into account when evaluating results from horses undergoing a physical training programme.     

Australian veterinarians who work with horses: views of the future

OBJECTIVE: To give an account of the views held by Australian veterinarians who work with horses on the future of their professional field. METHOD: Questionnaires were mailed to 866 veterinarians who had been identified as working with horses, and 87% were completed and returned. Data were entered onto an Excel spreadsheet, and analysed using the SAS System for Windows. RESULTS: Their future prospects were believed to be very good or excellent by >60% of equine veterinarians but by only 30% of mixed practitioners seeing < 10% horses. The main factors believed likely to affect these prospects were the strength of the equine industries and the economic climate affecting horse owners, followed by the encroachment of cities into areas used for horses, competition from other veterinarians including specialist centres and from non-veterinary operators, and their ability to recruit and retain veterinarians with interest, experience and skill with horses. Urban encroachment, competition and recruitment were especially important for those seeing few horses. Concerns were also expressed about the competence and ethical behaviour of other veterinarians, the physical demands and dangers of horse work, the costs of providing equine veterinary services and of being paid for them, the regulatory restrictions imposed by governments and statutory bodies, the potential effects of litigation, and insurance issues. For many veterinarians in mixed practice these factors have reduced and are likely to reduce further the number of horses seen, to the extent that they have scant optimism about the future of horse work in their practices. CONCLUSION: Economic and local factors will result in an increasing proportion of equine veterinary work being done in specialised equine centres, and the future of horse work in many mixed practices is, at best, precarious. A key factor influencing future prospects will be the availability of competent veterinarians committed to working with horses.     

Cross-sectional survey of owner knowledge and husbandry practices, tack and health issues affecting working horses in Lesotho

Reasons for performing study: To establish baseline parameters of equine health, owner knowledge and husbandry practices and tack against which benefits to local horses arising from an equine charity's training programme in Lesotho could be measured. Objectives: To describe and investigate associations between owner knowledge and equine husbandry practices, horse health and tack‐related parameters prior to the start of the training programme. Methods: A cross‐sectional survey was undertaken in the catchment area of students attending the first training course. Owners from randomly selected villages were interviewed about horse care using a standardised, structured questionnaire, administered face to face in local language. Horses were clinically examined and tack assessed according to standardised protocols. Results: Clinical examinations were performed on 312 horses and 287 owners were interviewed. Owners had variable knowledge of equine husbandry and limited understanding of appropriate primary and preventive healthcare. Equine health problems identified included ecto‐ and endoparasite infestation, mouth lesions, overgrown and unbalanced feet and tack‐associated wounds. The majority of tack was in poor condition, dirty and ill‐fitting. With the exception of below‐average body condition score, no associations were found between key adverse horse‐related clinical findings and owners reporting their horse as being ‘unhealthy’. Conclusions: Working horses in Lesotho have a range of physical problems, many of which could be ameliorated through targeted owner education. With limited access to veterinary advice and scarce resources, improved availability of affordable local equine trade skills is key to improving equine health. Potential relevance: Findings could be used to inform and direct training programmes to maximise benefits to equine health and to serve as a baseline against which to monitor effects of educational and other interventions.     

Effects of exercise on tenocyte cellularity and tenocyte nuclear morphology in immature and mature equine digital tendons

REASON FOR PERFORMING STUDY: The injury-prone, energy-storing equine superficial digital flexor tendon (SDFT) of the mature performance horse has a limited ability to respond to exercise in contrast with the noninjury-prone, anatomically opposing common digital extensor tendon (CDET). Previous studies have indicated low levels of cellular activity in the mature SDFT, but in foal tendons the tenocytes may still have the ability to adapt positively to increased exercise. OBJECTIVES: To measure tenocyte densities and types in histological sections from the SDFT and CDET of horses from controlled long-term, short-term and foal exercise studies. METHODS: Specimens were collected from mid-metacarpal segments of the CDET and SDFT for each horse and processed for histology; central and peripheral regions of the SDFT cross-section were analysed separately (SDFTc, SDFTp). Tenocyte nuclei were counted in a total area of 1.59 mm(2) for each tendon region in each horse. Each nucleus was classified as type 1 (elongate and thin), type 2 (ovoid and plump) or type 3 (chondrocyte-like); type 1 cells are proposed to be less synthetically active than type 2 cells. RESULTS: No significant differences were noted between exercise and control groups in any of the studies, with the exception of an exercise-related reduction in the proportion of type 1 tenocytes for all tendons combined in the long-term study. There were tendon- and site-specific differences in tenocyte densities and proportions of type 1 and 2 cells in all 3 studies. CONCLUSIONS AND POTENTIAL RELEVANCE: There was no indication that exercise increased tenocyte density or proportions of the (theoretically) more active type 2 cells in immature horses (short-term and foal studies), perhaps because the training regimens did not achieve certain threshold strain levels. In the foal study these findings can still be interpreted positively as evidence that the training regimen did not induce subclinical damage.     

Serological markers of Bornavirus infection found in horses in Iceland

Background

In a stable of eight horses in Northern Iceland, six horses presented with clinical signs, such as ataxia and reduced appetite, leading to euthanasia of one severely affected horse. Serological investigations revealed no evidence of active equine herpes virus type 1 infection, a common source of central nervous system disease in horses, nor equine arteritis virus and West Nile virus. Another neurotropic virus, Borna disease virus, was therefore included in the differential diagnosis list.

Findings

Serological investigations revealed antibodies against Borna disease virus in four of five horses with neurological signs in the affected stable. One horse without clinical signs was seronegative. Four clinically healthy horses in the stable that arrived and were sampled one year after the outbreak were found seronegative, whereas one of four investigated healthy horses in an unaffected stable was seropositive.

Conclusions

This report contains the first evidence of antibodies to Borna disease virus in Iceland. Whether Borna disease virus was the cause of the neurological signs could however not be confirmed by pathology or molecular detection of the virus. As Iceland has very restricted legislation regarding animal imports, the questions of how this virus has entered the country and to what extent markers of Bornavirus infection can be found in humans and animals in Iceland remain to be answered.