Injuries are a consequence of demand exceeding the capacity of the tissues and structures of the biological systems. The musculoskeletal system is by far the most commonly injured system.
Musculoskeletal system {{see also|Equine anatomy The musculoskeletal system consists of the bones, cartilage, muscles, ligaments, and tendons. Skeletal fractures account for 87% of fatal injuries. When a horse's leg hits the ground at racing speed on a straightaway, it bears a load that is three times its weight (with the exception of
harness racing). When negotiating a turn, centrifugal force increases the load to between 5 and 10 times body weight. When a horse hits the ground, the repetitive impact produces microscopic cracks and crevices inside bone so tiny they are undetectable by standard X-rays. If the horse is not given enough time for healthy bone tissue to repair the damage with a process called
remodeling, the cumulative stress can progress silently to the point where overload causes bones to break. In a 2009
white paper, the American Association of Equine Practitioners (AAEP) recommended a period of rest of at least 10 days between races for all horses to provide an opportunity to refresh and diminish the volume of persistent cyclic loading. Bucked shins is an inflammatory condition of the cannon bones. Bucked shins is a result of strain and excessive concussion to the cannon bone. The concussion comes from the rigorous training regimen that two-year-olds often face and inability of the bone to adapt fast enough. 70% of young Thoroughbred racehorses in training develop the problem, usually in the first six months. As horses become older, the cannon bone becomes stiffer and thus bucked shins rarely occur again. Approximately 12% of horses that develop bucked shins go on to have stress or saucer fractures later. Bucked shins force 7% of racehorses to retire. In the young horse the interosseous ligament which attaches the splint bones to the cannon can become damaged or torn from the concussive and rotational forces of exercise. This will cause heat, pain and swelling in the area between the splint and the cannon. In an attempt to stabilise this damaged attachment, new bone will be laid down around the ligament resulting in the formation of a bony lump known as a splint. The size and position of this bony lump determine whether a splint is likely to cause long-term lameness. The lump can interfere with the knee joint or the suspensory ligament, which runs down the back of the cannon bone. Splints force 7% of racehorses to retire.
Luxations are joint dislocations and account for 8% of fatal injuries.
Fetlock luxations account for 91% of all fatal luxation injuries. Due to the construction of the fetlock joint, luxation will result in either a complete rupture of the flexor tendons and suspensory ligament or a lateral disarticulation. The joint capsule may also be completely ruptured and the articular portion of the bones exposed to view. An
osselet is inflammation (
arthritis) of the
metacarpophalangeal joint (fetlock) of the equine front leg. Osselets are a result of trauma, such as hard, heavy, or fast use, a slip or fall, or a direct blow to the joint. When the fetlock suffers trauma, enzymes and other agents from the joint lining are released that destroy tissue inside the joint. As the condition worsens, so does the horse's lameness, and the interior structures of the joints become more and more irritated. Knee injuries, the second most common non-fatal career-ending injury, force 16% of racehorses to retire. A totally ruptured superficial digital flexor tendon (SDFT) will cause a visible drop in the angle of the fetlock. Catastrophic ruptured tendons account for as much as 3% of all tendon injuries.
Tendinitis is inflammation of a tendon. Tendons connect muscles to bone and normally have an elastic property so that they can stretch. Tendinitis occurs when the tendon is overstretched or overloaded, which causes straining (tearing) of individual or multiple fibers and the formation of a lesion. A lesion is strained tendon fibers with associated hemorrhage (bleeding) and edema (fluid retention). Often strained tendons go undetected or may be subclinical before the clinical signs of tendonitis are observed. Tendinitis is characterized by heat, swelling, and pain. Racehorses often experience tendinitis when transitioning from sedentary activity to conditioning work; thus, young horses and those returning to exercise from lay-off are those most expected to suffer from tendinitis. The incidence of tendon injuries is approximately 30% among Thoroughbred racehorses in training, mostly in the SDFT of the forelimbs. Horsemen frequently refer to tendonitis as bowed tendon due to the bowed appearance of the SDFT. Bowed tendons force 25% of racehorses to retire and are the most common non-fatal career-ending injury.
Tendinosis is chronic degeneration of a tendon without inflammation. It is caused by repetitive microtrauma and aging. Tendinosis is characterized by painful thickening and structural changes of the tendon. Tendinosis predisposes horses for Tendinitis and catastrophic ruptured tendons. Desmitis is inflammation of a ligament. Ligaments connect bone to bone and, depending on individual function, are either compliant or noncompliant. Ligaments have less elasticity than tendons and can therefore be injured easily. Desmitis occurs most often when a horse overstrides, which causes a sprain (tear). Some occurrences of desmitis may be difficult to detect because the ligament is deep within tissue. An injury to the collateral ligament of the fetlock predisposes the horse to fetlock luxation, the second most common fatal injury.
Respiratory system The
equine respiratory system consists of the nostrils, pharynx (throat), larynx (voice box), trachea (windpipe), diaphragm, and lungs.
Exercise induced pulmonary hemorrhage (EIPH) is bleeding in the lungs. There are many theories regarding the causes of EIPH. The most widely accepted theory is that the high blood pressure from heavy exercise coupled with vacuum-like effects that occur during a deep inhalation causes the capillaries to rupture. The prevalence of EIPH varies with the method used to detect it and the frequency with which horses are examined. Almost all Thoroughbred racehorses in active training have some degree of EIPH, as many as 93% according to
The Merck Veterinary Manual. When examined after each of three races, 87% of
Standardbred racehorses had evidence of EIPH on at least one occasion, suggesting that EIPH is as common in Standardbred racehorses as it is in Thoroughbred racehorses. Higher degrees of EIPH undoubtedly result in poor performance and, on rare occasions, death. Epistaxis is EIPH characterized by blood appearing at the nostrils. Epistaxis is observed in approximately 5% of horses with EIPH. There are slight differences in the definition of a "bleeder" in various racing jurisdictions throughout the world. Some jurisdictions define bleeding as the appearance of blood at both nostrils, while other jurisdictions only require the appearance of blood at one nostril. There are also various regulations for each incident of bleeding throughout the world.
Integumentary system The
integumentary system consists of the skin, hooves, hair, and glands. Hoof cracks are separations or breaks in the wall of a hoof. The most common type of hoof cracks are quarter cracks, which occur at the quarter, the thinnest and most delicate part of the hoof wall. Injury to the site may be the result of common things such as hard racetracks and uneven surfaces. Quarter cracks originate from the coronet and run down the hoof wall, rather than a sand crack that begins at the ground surface and runs up the hoof wall. Hoof cracks force 2% of racehorses to retire. == Risk factors ==