Exercise-induced pulmonary haemorrhage (EIPH) in horses results from locomotory impact induced trauma–a novel, unifying concept.
Abstract: Exercise-induced pulmonary haemorrhage (EIPH) in horses, although of major welfare and economic importance worldwide, is of uncertain cause. It is accepted that the dorsocaudal region of the lung is particularly prone to the condition, but present theories of causation cannot satisfactorily explain the mechanism or pattern of occurrence. We propose that EIPH results from locomotory impact induced trauma; the mechanism being similar to that producing lung tissue damage following thoracic impact injury. In impact injury, the localised impulsive load on the chest wall is transmitted by pressure waves through the lung at a slower speed than in the chest wall. The waves are subsequently reflected from the distal chest wall and other structures, producing a complex pattern of wave motion; waves travelling from regions of large cross-section to narrower ones are amplified in magnitude, consequently these regions can experience very high local stresses. Compression/dilation and shear waves are produced within the parenchyma and the latter particularly have been implicated as the cause of parenchymal damage and rupture with oedema and haemorrhage. This form of soft tissue damage has been shown to occur at remarkably low loads with an impact velocity greater than about 11 m/s and pressure exceeding approximately 14 kPa. In the horse, the lung is subjected to comparable levels of locomotory derived impulsive force during moderate to high speed exercise and this is the basis of the mechanism causing EIPH. During locomotion, the force following ground-strike of the front legs is transmitted, with some attenuation, through the forelimbs to the scapulae. The anatomical arrangement of the scapula, coupled with the direction of the force at the shoulder (scapulo humeral joint) produces an impulsive force on the rib cage, approximately just below mid height of the frontal aspect of the chest approximately over the fourth rib. As a result, pressure waves are transmitted through the lung parenchyma towards the dorsal and caudal regions; these waves are subsequently reflected at the distal chest wall, spine and diaphragm causing a complex pattern of wave interaction. The observed locations of EIPH are at the sites where wave intensity is expected to be greatest due to changes in cross section and reflection. Based on available information, it is estimated that impulsive forces of more than 100 kPa, lasting approximately 10 ms, would be applied to the chest wall by each scapula in a 500 kg horse when galloping; this level of force would be sufficient to cause oedema and haemorrhage as observed in impact induced injury.
Publication Date: 1998-06-11 PubMed ID: 9622318DOI: 10.1111/j.2042-3306.1998.tb04486.xGoogle Scholar: Lookup
The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
- Journal Article
- Review
Summary
This research summary has been generated with artificial intelligence and may contain errors and omissions. Refer to the original study to confirm details provided. Submit correction.
The research paper proposes a new theory on the cause of exercise-induced pulmonary hemorrhage in horses, suggesting that it results from trauma induced by locomotion impacts, akin to lung tissue damage following thoracic impact injury.
Understanding Exercise-Induced Pulmonary Haemorrhage (EIPH) in Horses
- Exercise-induced pulmonary haemorrhage (EIPH) is a condition of uncertain cause that affects the welfare and economy of horse-rearing globally.
- The condition is known to affect the dorsocaudal region of the horse’s lung, but current theories fail to provide a satisfactory explanation for its mechanism or pattern of occurrence.
A New Theory: Locomotory Impact Induced Trauma
- The research paper puts forward a new theory that EIPH results from trauma induced by the impact of locomotion, similar to lung tissue damage following thoracic impact injury.
- In thoracic impact injury, the load on the chest wall is transmitted via pressure waves through the lung. These waves are then reflected from other structures including the distal chest wall, resulting in a complex pattern of wave motion.
- These waves can cause high local stresses especially as they travel across regions of differing cross-sections. They produce compression/dilation and shear waves within the lung tissue, causing tissue damage, rupture, edema, and haemorrhage.
The Horse’s Physiological Response to Locomotion
- The authors propose that during moderate to high-speed exercise, a horse’s lung experiences levels of impulsive force comparable to those described for impact injury.
- This force is transmitted through the forelimbs to the scapulae upon ground-strike and then to the rib cage, creating pressure waves that travel through the lung and cause damage in a similar way to thoracic impact injury.
Empirical Estimations and Future Research
- The authors estimate that forces exceeding 100 kPa, lasting about 10 ms, would be applied to a galloping horse’s chest wall, which would be sufficient to cause the symptoms noted in EIPH.
- Future research could seek to validate these theories with empirical data, potentially leading to new prevention and treatment approaches for EIPH.
Cite This Article
APA
Schroter RC, Marlin DJ, Denny E.
(1998).
Exercise-induced pulmonary haemorrhage (EIPH) in horses results from locomotory impact induced trauma–a novel, unifying concept.
Equine Vet J, 30(3), 186-192.
https://doi.org/10.1111/j.2042-3306.1998.tb04486.x Publication
Researcher Affiliations
- Department of Biological and Medical Systems, Imperial College of Science, Technology and Medicine, London, UK.
MeSH Terms
- Animals
- Hemorrhage / etiology
- Hemorrhage / physiopathology
- Hemorrhage / veterinary
- Horse Diseases / etiology
- Horse Diseases / physiopathology
- Horses / injuries
- Horses / physiology
- Locomotion / physiology
- Lung / physiopathology
- Lung Diseases / etiology
- Lung Diseases / physiopathology
- Lung Diseases / veterinary
- Lung Injury
- Physical Conditioning, Animal / adverse effects
- Physical Conditioning, Animal / physiology
- Pulmonary Circulation / physiology
- Pulmonary Edema / etiology
- Pulmonary Edema / physiopathology
- Pulmonary Edema / veterinary
- Rabbits
- Thoracic Injuries / complications
- Thoracic Injuries / physiopathology
- Thoracic Injuries / veterinary
Citations
This article has been cited 5 times.- Sugiyama F, Takahashi Y, Nomura M, Ebisuda Y, Mukai K, Yoshida T. Risk Factors for Epistaxis in Thoroughbred Flat Races in Japan (2001-2020). Animals (Basel) 2023 Apr 14;13(8).
- Lo Feudo CM, Stucchi L, Stancari G, Alberti E, Conturba B, Zucca E, Ferrucci F. Associations between Exercise-Induced Pulmonary Hemorrhage (EIPH) and Fitness Parameters Measured by Incremental Treadmill Test in Standardbred Racehorses. Animals (Basel) 2022 Feb 12;12(4).
- Poole DC, Erickson HH. Exercise-induced pulmonary hemorrhage: where are we now?. Vet Med (Auckl) 2016;7:133-148.
- Hsia CC, Schmitz A, Lambertz M, Perry SF, Maina JN. Evolution of air breathing: oxygen homeostasis and the transitions from water to land and sky. Compr Physiol 2013 Apr;3(2):849-915.
- Bayly WM, Leguillette R, Sides RH, Massie S, Guigand C, Jones KB, Warlick LM, Thueson EL, Troudt TA, Slocombe RF, Jones JH. Equine exercise-induced pulmonary hemorrhage: the role of high left-heart pressures secondary to exercise-induced hypervolemia, and high inspiratory pressures. J Appl Physiol (1985) 2024 Nov 1;137(5):1359-1373.
Use Nutrition Calculator
Check if your horse's diet meets their nutrition requirements with our easy-to-use tool Check your horse's diet with our easy-to-use tool
Talk to a Nutritionist
Discuss your horse's feeding plan with our experts over a free phone consultation Discuss your horse's diet over a phone consultation
Submit Diet Evaluation
Get a customized feeding plan for your horse formulated by our equine nutritionists Get a custom feeding plan formulated by our nutritionists
