How breastplates and breast girths can inhibit performance

By Dr Russell Mackechnie-Guire

Using pressure mapping and gait analysis technology, scientists have now measured how breastplates and breast-girths can compromise the horse’s jump and stride at gallop.

Breast-girths and breastplates are routinely used to prevent the saddle moving backwards at home on the gallops, and on the track. Post-race bruising to the pectoral muscles, sternal abrasions, soreness and even lacerations caused by a breastplate a…

Breast girths and breastplates are routinely used to prevent the saddle moving backwards at home on the gallops, and on the track. Post-race bruising to the pectoral muscles, sternal abrasions, soreness and even lacerations caused by a breastplate are often accepted consequences of keeping the saddle in place. But evidence is mounting that, in addition to the physical factors, a poorly designed breastplate or badly fitted breast-girth could also be restricting the horse’s gallop and compromising its jump during a race, therefore impacting the horse’s locomotor efficiency, performance and athletic potential. 

Recent research in the sports horse has demonstrated that breastplates have a significant negative effect on the horse’s action over a fence. A further pilot study looking at how breast girths and breastplates affect the racehorse indicates that they influence the movement of the shoulder and forelimbs whilst galloping, potentially comprising gallop efficiency. 

Jumping short

PIC 1– Pliance pressure mapping revealed the point of peak pressure common to all breastplates in the test occurred at the point of take-off.

PIC 1– Pliance pressure mapping revealed the point of peak pressure common to all breastplates in the test occurred at the point of take-off.

In the sports horse jumping study, scientists used Pliance pressure mapping (pic 1) to identify areas of peak pressure beneath traditionally fitted breastplates. A sensor mat placed between the breastplate and the horse’s skin recorded levels of pressure throughout the jump cycle. Regardless of breastplate design, the highest pressures were consistently seen in the centre of the chest (located on the midline over the sternal region), at the moment of take-off as the horse’s shoulder, elbow and knee were flexed and the shoulder was in its most forward position (point P, pic 2).

PIC 2 - Without a breastplate (top), the horse’s jump forms a smooth parabolic trajectory over the fence from take-off to landing (A).

PIC 2 - Without a breastplate (top), the horse’s jump forms a smooth parabolic trajectory over the fence from take-off to landing (A).

Alongside pressure mapping, two-dimensional gait analysis was utilised to determine how pressures created by breastplates affected jumping technique. Markers were placed on the horse’s joints, and the horse’s jump was analysed at a rate of 300 frames a second—approximately 25 times faster than the human eye. The data quantified any changes in joint and limb angles. The findings demonstrated that the whole jump is adversely affected by the breastplate design and resultant pressures from the point of take-off to, and including, the stride immediately after landing.

Without a breastplate, the horse’s natural jump is a parabolic (symmetrical) curve, with the highest point an equal distance between take-off and landing. In the study, a breastplate was shown to shorten the horse’s landing position by 0.5m compared to landing with no breastplate. 

With a breastplate (bottom), the horse’s lead foot makes contact with the ground much closer to the fence (B), and the landing phase of the jump is steeper.]

This pattern of an altered trajectory was scientifically recorded under experimental conditions over one single oxer fence (1.2m) on a level surface. Applying the same principles to the racehorse, the negative impact that this would have when galloping would be magnified. If the horse’s trajectory over a brush fence is shortened by the same distance as it is over a 1.2m jump, this is likely to have a significant effect on gallop efficiency—in particular stride rate, length and frequency. Over a course of 12 National Hunt fences, if half a metre of ground is lost (as a function of the altered landing trajectory) at every jump, this would require six metres to be made up over ground—potentially the length of a winning stride.


Crash landing….

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The Biome of the lung

Dr Emmanuelle van Erck – Westergren, DVM, PhD, ECEIM

Equine Sports Medicine Practice (www.esmp.be)

Published in European Trainer October - December 2017, issue 59.

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Of bugs and horses

A couple of weeks ago, I was on an emergency call to a training yard. Half of the horses had started coughing overnight, some had fever and, as you’d expect when bad karma decides to make a point, the two stars of the premises due to face their greatest challenge to date the following  week, were dull and depressed. A thick and yellow discharge was oozing from their noses. It was not long before the yard became the typical scene of a bad strangles nightmare. The bacteria involved in strangles outbreaks are Streptococcus equi equi, highly aggressive and contagious germs, that spread fast and cause disruption in days of training and mayhem in tight racing schedules.

So what inevitably comes to mind when you hear the words germs or bacteria? No nice and friendly terms. As veterinarians, we have been taught that microorganisms are responsible for an endless list of gruesome diseases and conditions: abscesses, pneumonia, septicaemia ... you name it. They need to be identified and eradicated. Thank heavens; we still have an arsenal of antibiotics to get rid of the damn bugs. But recent research in human “microbiome” is making us think twice, especially as we aim to hit hard and large with antibiotics.

Never alone

Your healthy and thriving self, likewise your horse, host millions and trillions of bacteria. The “microbiota” is that incredibly large collection of microorganisms that have elected you and your horse as their permanent home. The microbiota is constituted not only by an extremely diverse variety of resident bacteria, but also by viruses, fungi and yeasts that multiply in every part of your external and internal anatomy. The discovery of this prosperous microbial community has triggered fascinating new research. It has unveiled the unsuspected links that exist between health, disease and the microbiota. In simple words, these microorganisms are vital to your strength and healthiness.

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Nasal Strips – what is stopping them being used in European racing?

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(European Trainer - issue 32 - Winter 2010)

 

 

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Nasal Strips - increasing performance, reducing EIPH

Nasal strips’ future in Thoroughbred racing seemed limitless in the fall of 1999. Just two weeks after longshot Burrito won a race at Keeneland wearing one, 29 of the 101 horses competing in the 1999 Breeders’ Cup at Gulfstream Park November 6th had the 4-by-6-inch strip affixed 1.5 inches above their nostrils. 

Bill Heller (European Trainer - issue 18 - Summer 2007)

 

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Inhalation therapy - treating airway problems in the racehorse

Physiologically speaking, one of the major limiting factors to racehorse performance is how efficiently the lungs can exchange gasses. Clearly any threat to the efficiency of the lungs will result in poor performance.

Paul Peacock (European Trainer - issue 14 - Summer 2006)

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