The ideas presented in this book cast new light on the best ways of training and exercising the horse in preparation for competition, by focusing on biomechanics and precise anatomical analysis.
Dealing mainly with the movements and exercises most frequently used in equine sports, the book answers the needs of trainers and riders seeking to improve their horses’ performance by maximising the potential of the horse’s entire musculoskeletal apparatus.
Following a brief description of the biomechanics of the muscles underlying equine movement in general, chapters discuss in turn the muscles of the forelimb, the hindlimb and the trunk. These fundamentals have direct bearing on the later chapters: a biomechanical analysis of specific exercises designed to optimise the performance of the sport horse.
Biomechanics and Physical Training of the Horse is illustrated throughout by top-quality photographs, diagrams and the author’s own beautiful anatomical drawings. The book is of lasting value to all professionals dealing with horses: trainers and riders, veterinarians, researchers, physical therapists, educators on equine courses.
The author is a worldwide authority on applied equine anatomy, biomechanics, imaging and the clinical diagnosis of equine lameness. He is a horse rider, a qualified trotting driver, and an informed spectator of everything equestrian. His earlier books Physical Therapy & Massage for the Horse and The Equine Distal Limb are bestsellers, and considered outstanding for the concepts they portray and the excellence of their presentation.
- Describes and explains the fundamentals of equine anatomy and biomechanics
- Applies basic concepts to optimise the performance of competition horses
- Top-quality colour photos, diagrams and anatomical drawings
- Author is a worldwide authority on equine anatomy, biomechanics, imaging, and diagnosis of lameness. He is a rider and trotting driver.
Part 1: Muscular groups and actions: The forelimb; The hindlimb; The neck and trunk.
Part 2: Biomechanical analysis of longitudinal movements: Lowering of the neck, a biomechanical analysis; Biomechanics of rein-back.
Part 3: Biomechanical analysis of lateral movements: The forelimbs; The hindlimbs; The vertebral column and trunk muscles; The biomechanical differences between half pass and shoulder-in; Advantages and disadvantages of lateral movements.
Part 4: Biomechanical analysis of jumping: Take-off and propulsion – biomechanics of the limbs; Take-off and propulsion – biomechanics of the head, neck, trunk and pelvis; Suspension phase – biomechanics of the trunk and vertebral column; Suspension phase – biomechanics of the limbs; Landing phase – biomechanics of the vertebral column; Landing phase – biomechanics of the forelimbs; Biomechanics of the bounce jump.
Professor, Ecole Nationale Vétérinaire, Maisons-Alfort