Showing posts with label analysis. Show all posts
Showing posts with label analysis. Show all posts

Saturday, July 28, 2012

Science of the Olympics: Sport Analysis Videos to Inspire Your Thoughts on Horses


Note: NBC Olympics videos have an annoying auto-play function so the videos have been moved off the blog. Please go to "Science of the Summer Olympics: Engineering In Sports", a 10-part video series produced in partnership with NBC Learn to view the videos described in this blog post.

Have you been staring at a television screen, immersed in the Olympics? Are you chewing your nails for the Swiss beach volleyball team or the Luxembourg table tennis team? Do you wonder if they ever really will get back to Greenwich Park and the equestrian events?

We get wrapped up in the competition of sports but the Olympics is a good time to remember that the same sport science that is used to advance horse sports and hoof science is also used on human athletes.

So whether you are Usain Bolt or Zenyatta, there's a professor at MIT who can dissect your stride. And the same terminology is used whether you're measuring the stride of a track star or a Thoroughbred.
   
How can we get BMW interested in horses? In order to maximize his performance in the decathalon, 2008 Olympic gold medalist Bryan Clay teamed up with engineers from BMW to improve measurement of the horizontal and vertical velocities of his long jumps.

Could the same long-jump technique be used to analyze how Kauto Star won the Cheltenham Gold Cup or how a rider like Meredith Michaels-Beerbaum's horse will clear the water jump at Greenwich Park this weekend?

While you're watching the Olympics, think about the fact that the emerging gait analysis and sport science we see used in horse sports is being applied to each and every one of those Olympic sports. In some aspects, horse sports have lead the way. In other aspects, horse sports have a lot of catching up to do.

So don't think for a minute that you're wasting time watching the Olympics. You're doing your homework, albeit on the subconscious level in many instances. Some creative thoughts about how horses move are sure to pop into your head a week or two from now, and you'll wonder where those thoughts originated.

Maybe you'll never see a horse on a balance beam, but when you think about the pressure to always improve the level of performance while not crossing the line to injury, you realize that all athletes have a lot in common, whether they're horse or human.

These two sample videos are part of "Science of the Summer Olympics: Engineering In Sports", a 10-part video series produced in partnership with NBC Learn. (You can watch them all online and if you're really interested or if you know a teacher who might be, there are lesson plans available to use these videos in the classroom. Just pretend the humans are horses.)

It's easy to order this colorful, award-winning image from Michigan State Equine Foot Lab
© Fran Jurga and Hoofcare Publishing; Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. Please, no use without permission. You only need to ask. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page). To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found. Questions or problems with this blog? Send email to blog@hoofcare.com.  
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Disclosure of Material Connection: I have not received any direct compensation for writing this post. I have no material connection to the brands, products, or services that I have mentioned, other than Hoofcare Publishing. I am disclosing this in accordance with the Federal Trade Commission’s 16 CFR, Part 255: Guides Concerning the Use of Endorsements and Testimonials in Advertising.

Wednesday, August 10, 2011

Dogs in Motion: An X-Ray Video With a Cold Nose





Here's some eye candy for a summer's day: video x-rays of a dog...share this with your friends who love Dachshunds! Thanks to New Scientist for this video.

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 © Fran Jurga and Hoofcare Publishing; Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. Please, no use without permission. You only need to ask. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page). To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found. Questions or problems with this blog? Send email to blog@hoofcare.com.  
 
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Disclosure of Material Connection: I have not received any direct compensation for writing this post. I have no material connection to the brands, products, or services that I have mentioned, other than Hoofcare Publishing. I am disclosing this in accordance with the Federal Trade Commission’s 16 CFR, Part 255: Guides Concerning the Use of Endorsements and Testimonials in Advertising.

Wednesday, January 26, 2011

Video: Equine Biomechanics Integrated with an Icelandic Horse's Disco-Rhythm Hoofbeats by Swiss Researchers



Are you awake now?

This video is your wake-up call. It's a fast-cut peek inside the high-tech equine performance testing laboratory at the University of Zurich in Switzerland, where kinematic- and kinetic-research are undergoing an exciting fusion under the direction of biomechanics research professor Michael Weishaupt PhD DMV. Where the disco beat came from is anyone's guess!

Are the researchers trying to turn this Icelandic into an Olympian or a racehorse? No, there are no Frankenhorses in biomechanics labs. "The application of knowledge pertaining to sports medicine does not aim to increase the speed of the horse or allow it to jump higher, but to keep the athlete sound, prepare it optimally for a specific event, and to recognize detrimental influences early in order to avoid an untimely end to an athletic career," wrote Dr Weishaupt along with Zurich's esteemed professor of equine surgery, Dr Jorg Auer, in an explanation of the research at Zurich.

To do that, Weishaupt and his colleagues are combining kinetic and kinematic research in the same evaluation system. Two formerly exclusive branches of biomechanics research are now under the hood of the same laboratory testing matrix.

Kinematics is nothing new to Hoofcare + Lameness readers. Kinematics is simply the study of motion. A student of dressage could be said to be an equine kinematics scholar, on some level.  But in the world of clinical evaluation of horses, we have typically talked about kinematics as the two-dimensional recording of a horse's movement in order to gain insight into a horse's stride's length or velocity or frequency, or to determine lameness. It works very nicely to prove or enhance what we think we see with our naked eyes or what the rider thinks he or she feels from the saddle.

For the past five years or so, kinematics in the laboratory has been moving ahead. Three-dimensional gait analysis has been used in research to delve deeper into the horse's movement so that joints can be analyzed for the complex structures that many of them are. A hinge joint like the fetlock might be analyzed in two dimensions, but what about the hock or the spine? And what about the coffin joint, a complex structure with three types of motion patterns--flexion-extension, abduction-adduction and axial rotation?

And what if a specific location in the limb could be isolated, such as the distal end of the cannon bone, where so many racing injuries occur? If the forces there can be measured over different track surfaces, aren't we light years ahead in preventing breakdowns?

When studying the motion of the horse, it's not just about the legs. The neck and head and back are critical components so gait analysis has expanded to putting markers all over the horse. The angular motion patterns (flexion-extension, lateral bending and lateral excursion) of six vertebrae (T10, T13, T17, L1, L3 and L5) and the axial rotation of the pelvis are calculated by the software used in the research--in the case of our friends in Zurich, that would be the Qualisys system.

In this video, provided by Qualisys, researchers used a similar system at the University of Agricultural Science in Uppsala, Sweden; 12 cameras recorded the horse in three dimensions on a sensitized treadmill so that the movement of the head and neck could be studied with each footfall and with the movement of the rider. Notice that the horse's center of gravity is always clearly marked on the screen.

So now the leading research labs may use three or many more cameras and create almost realistic moving horses on computer screens. Wireless technology has also improved the operations in the equine research laboratory.

If kinematics is the study of motion, kinetics is its alter ego, the study of force. Kinematics might not care if you were a ballerina or a gorilla crossing a Broadway stage--you'd just be a pattern of dots for it to interpret. And kinetics wouldn't care how synchronous or straight your limbs worked as you crossed; kinetics would worry instead about what happened when your feet hit the stage. Did you slide? Did you hit with enough force to break through a board? How long did each foot stay on the floor?

Researchers explore kinetics with force plates and, more recently, the alternative of pressure-sensitive materials such as mats and walkways embedded with sensors. In Zurich's case, it is an instrumented (sensor-embedded) treadmill (photo, above), or "TiF": a "Treadmill-integrated Force" measuring system able to record the vertical ground reaction forces of all four limbs simultaneously and report it instantly.

The buzzwords of kinetics are ground reaction force and center of gravity. A foot in water finds little resistance, but a foot usually lands on somewhat solid ground, depending on the nature of the footing. If the surface was rigid and foot was a wine glass, it would shatter, but it's designed to deform and store energy when it meets the ground. How to measure what happens during that meeting is the goal of kinetic research.

So the scientists at the University of Zurich wanted to analyze how the Icelandic horse on the treadmill in the video is moving (kinematics) while intermittently impacting the ground (kinetics) with his hooves. One of the new advantages of hoof-related research is the integration of the kinetic and kinematic tools. As the video screen draws the dotted horse that the cameras see, the pressure sensors simultaneously are recording the data of the impact of each footfall. The integration of these systems is relatively recent.

But there is a third entity going on here. The addition of a saddle and rider will affect the kinematics of the horse and no doubt the kinetics as well. So the researchers are measuring the pressure and movement of the saddle. Last year the same lab studied dressage horses at the collected walk--a deceptively simple gait that is a challenge to many upper level horses--and measured how much and in what direction at what phase of the stride the saddle moved.

Believe it or not, little research on the walk had been done before, and in particular, no one had tested how the rider and saddle might affect the horse's score at the walk. Since racehorses tend to trot, pace or gallop for a living, you will find a deep history of studies on those gaits over the course of equine biomechanics history. Sport horse kinetics and kinematics is a far less investigated field of study.

In the Zurich tests, all the dressage horses' saddles moved in the same directions at the same phases of the strides, and the rider's movement was the same as well.

And what about the hooves? Labs like Zurich have conducted comparative studies of how a horse moves while unshod, shod normally, and shod with rolled toe or "four point" shoes to study the effects of shoeing changes on kinematics and kinetics--in particular, the timing of the phases of the stride. Does a particular shoe cause a horse to keep its foot on the ground longer than another, and might this be associated with an increased potential for injury? 

So now the dressage horses have gone home and the Icelandic horses are being tested. A research project in progress is Kinetics, kinematics and energetics of the tölt: Effects of rider interaction and shoeing manipulations. The tölt is the amazing fast gait of the Icelandic horse; it is their signature show gait, and possibly unique to the breed. Will changing the shoes on an Icelandic horse change its ability to perform the tölt?

Since no one has studied an Icelandic horse with the resources that are available today, no one really knows.

But someone will. And, by extension, the world will know soon after that.

Thanks to BartMedia Designs for this video.


Here's a little video about using similar but more simplified equipment for testing humans. I hope this helps you understand biomechanics research a little better! The concepts mentioned in this blog post are vastly over-simplified but once you understand the basic concepts, it will all start to make sense.


To learn more: BYSTRÖM, A., RHODIN, M., Von PEINEN, K., WEISHAUPT, M. A. and ROEPSTORFF, L. (2010), Kinematics of saddle and rider in high-level dressage horses performing collected walk on a treadmill. Equine Veterinary Journal, 42: 340–345. doi: 10.1111/j.2042-3306.2010.00063.x

Anyone interested in learning more about equine biomechanics would be well-served by attending the Equinology biomechanics course with Dr. Hilary Clayton at the McPhail Equine Performance Center at Michigan State University's College of Veterinary Medicine in the fall of 2012. A combined course in biomechanics and lameness evaluation with Dr. Clayton will be offered in England in March 2011 at Writtle College.

 © Fran Jurga and Hoofcare Publishing; Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. Please, no use without permission. You only need to ask. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page). To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found. Questions or problems with this blog? Send email to blog@hoofcare.com.
 
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Thursday, June 17, 2010

Lameness Detection: Symmetrical Accelerometer Alignment Means Your Horse Is Sound

A sensor developed by scientists from the University of Copenhagen in Denmark may soon be able to help detect the earliest and most subtle signs of equine lameness; use of the device is hoped to enable veterinarians and trainers to intervene and remove a horse from training or competition before an injury can become worse, and to treat an injury while it is still in its early stages.

"An objective measure is needed because it's not always obvious visually, and even trained observers of horses can disagree when a horse is going lame," explains Maj Halling Thomsen of the Faculty of Life Sciences in Copenhagen, who has been involved with the research.

Thomsen and her colleagues use miniature accelerometers calculated in three dimensions. The accelerometers were originally developed for use in cellphones, where they are used to orient information displayed on the screen.

Thomsen's accelerometer devices are, according to New Scientist magazine, three piezoelectric cantilevers set at right angles to each other. Each one produces a voltage when it is compressed by forces due to acceleration or gravity, so the three together can detect forces in three dimensions.

"Just like humans, the gait of a horse changes when it starts to hurt. Unlike humans though, a horse's four legs make it hard to detect with the human eye. But when horses are about to go lame they start to move asymmetrically left-right as they trot. An accelerometer, mounted on the animal's back should be able to detect this," Maj Halling Thomsen explained in an article in the University Post.

She and her team have studied healthy horses, and now plan to conduct further tests on lame horses to see if deviations from the "symmetry indices" they have drawn up can help predict the onset of lameness. With the device attached to a surcingle on the horse's back, they will be expecting a change in vertical motion of the horse's body as it moves from left to right.

Sensoring technology is in demand from race and show jump trainers in Europe, with some studies for example trying to optimise the link between stride length and speed. In the United States, accelerometer-based gait technology has been centered at the University of Missouri College of Veterinary Medicine.

"But there where I see the most value for this sensor is as a support for practicing vets in diagnosing lameness," says Thomsen.

For more information, see "Symmetry indices based on accelerometric data in trotting horses" in
Journal of Biomechanics, by Maj Halling Thomsen, Anders Tolver Jensen, Helle Sørensen, Casper Lindegaard, and Pia Haubro Andersen


18 June 2010 | Fran Jurga's Hoof Blog at Hoofcare.com
 © Fran Jurga and Hoofcare Publishing 

Please, no use without permission. You only need to ask. Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page). To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found. Questions or problems with this blog? Send email to blog@hoofcare.com.

Saturday, April 03, 2010

Dr Hilary Clayton's 2010 Equinology Biomechanics and Gait Analysis Class: April 5 Deadline!

3 April 2010 | Fran Jurga's Hoof Blog at Hoofcare.com

The McPhail Center at Michigan State is one of the world's few research centers dedicated to researching the science of equine performance--from the ground up. Any number of research projects on aspects of equine movement, conformation or sport performance may be simultaneously underway under the direction of Dr. Hilary Clayton.

It's 30 days and counting until it is time to join us at Michigan State University for the special four-day course in equine biomechanics and lameness at Michigan State University’s College of Veterinary Medicine’s Mary Anne McPhail Equine Performance Center, presented by Dr. Hilary Clayton. The course is offered through the Equinology study program.

But the deadline to let Equinology know you want to attend is NOW.

“This is a rare opportunity to see the McPhail Center from the inside,” Dr. Clayton told me last week. “One of the things people might not expect is that we’ll be working on neck and back dissections, and looking at some pathologies.

For 3-D motion analysis, horses' joints must be palpated and markers applied to the centers of joint rotation. A marker out of place can ruin a lengthy evaluation session.

“For the most part," she continued, "the students will have the chance to perfect their palpation skills, and to learn how to place markers in the centers of joint rotation. Using our equipment, a student will be able to see the effects of placing the marker in the wrong place, versus the right place, and the effect it can have on evaluating a horse.”

In addition to covering biomechanics, conformation, and gait analysis in a classroom format, students will be privy to summaries of current research from around the world, as well as from the McPhail lab.

Built-in force plates in the McPhail Center's arena can be used to determine loading and landing patterns and the location of the center of pressure on horses standing in place (or piaffing in place) or worked on a circle.
Of special interest is the Center’s new coordinated system of six force plates. They are positioned for working horses within an arena, under the footing, in a circle or for standing the horse, so that one foot is on each force plate. “We use this system in research; a recent study tested posture and balance in foals,” Dr Clayton remarked.

Another research project in progress at the McPhail Center is evaluating the use of side reins on horses: how do they affect the horse’s center of mass, particularly in different sizes and types of horses?

Students will also learn about a special saddle developed and tested through the McPhail Center for use in therapeutic riding.

Many hoof blog readers will be interested in Dr Clayton’s research on what is called simply “barefoot trimming” at Michigan State. Dr. Clayton’s recent study tracked the changes in feet maintained using a simply set of parameters; her documentation found that as the heels were consistently lowered, they did migrate caudally and that the palmar (or plantar) angle of the coffin bone increased proportionately.

One of Equinology's superb "illustrated horses", courtesy of Debranne Pattillo

Dr. Clayton's research center equipment includes a motion analysis system, AMTI force plate, Noraxon EMG system, Pliance saddle pressure pad and other custom equipment for making measurements of horses and riders. This course will help sharpen your eye for irregularities, asymmetries and gait abnormalities through a variety of formats utilized in today’s industry. Your own visual appreciation of horse movement and your acumen for sensing abnormalities will be supported--and tested--by equipment used in the lab.

For more information on research projects at the McPhail Center, please click here.

Class Outline: Gait analysis and evaluation guideline, utilizing the data from the research equipment in the real world, conformation evaluation, locating palpation points for segment and angle measurements, analysis of conformation, anatomy and terminology, history of biomechanics, biomechanical techniques, equipometry discussion.

About Dr Clayton: Hilary Clayton BVMS, PhD, MRCVS has been the Mary Anne McPhail Dressage Chair in Equine Sports Medicine at Michigan State University's College of Veterinary Medicine since July, 1997. As a veterinarian and researcher, Dr. Clayton's studies on the biomechanics of equine gait have focused on sport horses, including dressage and jumping horses. Some recent work has included videographic studies of Olympic dressage and jumping events and kinematic and kinetic research with some of the world's top dressage riders and horses in the Netherlands. She is also the author of The Dynamic Horse and Conditioning Sport Horses and co-author of Activate Your Horse’s Core, Equine Locomotion and Clinical Anatomy of the Horse. Dr. Clayton needs no introduction when “biomechanics” is mentioned; she is one of the leading international specialists in the subject, particularly in the anatomy and function of the equine hoof and limb.

Fees: The cost of the course is $995 (about $250 per day) and that fee includes course handouts and supplies. A $200 deposit is required to enroll.

An additional weekend course in equine lameness with Dr Barb Crabbe is being offered for the days immediately preceding the four-day course.

For full course details, please visit the Equinology website and click onto EQ300 or cut and paste this address: http://www.equinology.com/info/course.asp?courseid=12 (Dr. Clayton) and the EQ600 details can be found at: http://www.equinology.com/info/course.asp?courseid=78 (Dr. Crabbe).

Join your Hoofcare & Lameness/Hoof Blog editor in this very special class. It could be the most important thing you do to jump-start your career in the direction of the future of equine lameness and hoof science. Get a head start: find out where this world of ours is going. See you there!

© Fran Jurga and Hoofcare Publishing. Please, no use without permission. You only need to ask.

Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page).

To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found.

Questions or problems with this blog? Send email to blog@hoofcare.com.

Monday, November 30, 2009

Equine Gait Analysis Has a Secondary Benefit: Upgrading Video Game Quality

by Fran Jurga | 30 November 2009 | Fran Jurga's Hoof Blog

Sometimes I see people shake their heads after a lecture on the wonders of video-based gait analysis of horses. They just don't get it. And admittedly, the lectures can be boring, although Mark Aikens certainly showed how interesting and practical it can be when he spoke at Cornell University's farrier conference two weeks ago. (More information is coming on that presentation!)

But did you know that roughly the same process used to identify gait abnormalities in a clinical setting is used to collect data points of horses for animation? Today's video takes you to a makeshift video studio on a riding arena in England, where a video crew is "filming" a white horse that will later star in a video game.



Here's a rough cut of what the animators were able to re-create from the data points. So the next time you waste an hour playing Oblivion, just ask yourself where that horse got his moves. His moves might just be data points, plucked out of a riding arena by a geeky animation crew that could moonlight at an equine hospital, if they were so inclined.



© Fran Jurga and Hoofcare Publishing. No use without permission. You only need to ask. Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page). To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found. Questions or problems with this blog? Send email to blog@hoofcare.com.

Wednesday, October 28, 2009

From Sim to Mo-Cap to Slo-Mo: Have Another Look at the Horse in Motion

by Fran Jurga | 28 October 2009 | Fran Jurga's Hoof Blog

Today I hurt my eye and it made the world a different place. Depth perception was different, some things don't quite line up, and this computer screen is a little blurry so this post will be a media-rich one. I'll let the videos tell the story.

And the story is exactly what I have been experiencing: how do we look at things? You read research reports and case studies and observations on this blog all the time, but they are from the viewpoints of different original sources. Here are some examples of the sources the Hoof Blog uses.


This is a computer-generated leg model from the University of California at Davis. The model lives in a perfect world. Someone designed a limb with arbitrary (or perhaps intentional) conformation and measured the resulting tendon, ligament and muscle forces if this ideal limb was moving over a perfectly smooth, non-deforming surface.


This is what we now call "traditional" two-dimensional video analysis, often used for before-and-after shoeing and trimming evaluation.


This very brief clip is 3-D analysis. You might want to use the play button to start and stop it and see more detail.


Finally, here's high-speed video, or what you might call high-quality slow motion. This polo pony is exhibiting the same stride characteristic as the computer model at the top but wow! he is influenced by the weight and lean of his rider and the variable deformability of the field as well as, no doubt, probably some conformational traits that offset his limb alignment. This is the real world.

There are plenty of other ways to capture horses and model their movement to study and analyze them; the idea here is that when you read an article, the authors may be extrapolating data from a computer model or from subjective observation with no data collection. You have to read the fine print and always take into consideration how a study was conducted and how many horses were in a study.

Does the moving horse interest you? Cornell University will host a veritable festival of motion capture, slo-mo and gait analysis at the 26th Farriers Conference November 14-15 in Ithaca, New York at the College of Veterinary Medicine. The early registration deadline is Friday so get organized and save $50 over the on-site fees.

Speakers at Cornell include farriers Scott Lampert of OnTrack Equine in Minnesota and Mark Aikens from Anglia Equine in England, both of whom are leaders in using videography in analyzing how shoeing and trimming effect horses' movement. Dr. Jeremy Rawlinson of Cornell will demonstrate the use of Cornell's force plate system and de-mystify the concept of ground reaction forces.

Hoofcare & Lameness is thrilled to be a part of this event. For a full schedule and list of speakers, and to register online, click here or go directly to http://www.vet.cornell.edu/education/conferences/farriers/


© Fran Jurga and Hoofcare Publishing. No use without permission. You only need to ask.

Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page).

To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found.

Questions or problems with this blog? Send email to blog@hoofcare.com.

Monday, April 13, 2009

Mo-Cap Video Treat: Horse and Rider in Motion, Video-Captured and Computer-Recreated

by Fran Jurga | 13 April 2009 | Fran Jurga's Hoof Blog



This little clip is titled A Biomechanical Analysis of Relationship Between the Head and Neck Position, Vertebral Column and Limbs in the Horse at Walk and Trot and is from the Department of Veterinary Medicine and Animal Science, at the Swedish University of Agricultural Science in Uppsala, Sweden. Thanks to researcher Marie Rhodin for sharing this little snapshot of what goes on at Uppsala.

Dr. Rhodin writes: "Reflective markers were glued onto the skin above anatomical structures defined through palpation. A high speed 3D infrared camera system (ProReflex) was used to capture data. Twelve cameras were used and a treadmill instrumented with a force measuring system was used for simultaneous, synchronized force measurements. Qualisys software was used for the motion analysis."

Dr. Rhodin's name is one that is seen quite often lately on the rosters of world-class equine biomechanics research. She was involved with two presentations at last year's International Conference on Equine Locomotion (ICEL6) in France. Working with our friend at Uppsala, Dr. Christopher Johnston, and Lars Roepstorff and Anna Byström, and collaborating with researcher Dr. Michael Weishaupt at the University of Zurich and Dr. René van Weeren at the University of Utrecht in Holland, Dr. Rhodin's team collected data on the motion of horses when the rider is in the sitting vs rising (posting) trot, and also compared the motion of the horse on each lead.

What you are seeing in this little video clip is the new generation of motion capture gait analysis--the rider gets analyzed along with the horse! The clip begins with the "real" video of the markered horse and rider; you then see the dots that the infrared cameras would "see" and translate into data. The data is then crunched and re-configured into an accurate animation of the horse and rider in skeletal form so that the movement of the bones and joints can be analyzed. This is a huge advance, since the horse is an asymmetric form and needs to be seen from all angles to get a true picture of movement. (And this is a vast over-simplification of the process.)

Through this type of motion capture, researchers can compare the effects of different equipment (Uppsala recently studied the effect of weighted boots on the movement of the back), different riders, and (one day), different surfaces. Being able to accurately record both the rider and the horse are rocketing equestrian sport science ahead. These are exciting times.

Many thanks to Dr. Rhodin and her research team at Uppsala and beyond for making the video clip available to Hoof Blog readers.

© Fran Jurga and Hoofcare Publishing. No use without permission. You only need to ask. Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page). To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found. Questions or problems with this blog? Send email to blog@hoofcare.com.

Friday, February 27, 2009

Got Gait? Slo-mo Video Reveals the Peruvian Paso's Termino Gait

Their legs look like eggbeaters and move so fast you can't tell how they do it. But thanks to a little YouTube clip, you can see the famous signature termino gait of the Peruvian Paso breed slowed down. Note that the horse's action is now just below the knee and is not the same as what we would call "winging out" or "paddling" in an ungaited horses. Enjoy--and don't stand too close when one goes by!

© Fran Jurga and Hoofcare Publishing. No use without permission. You only need to ask.

Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page).

To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found.

Questions or problems with this blog? Send email to blog@hoofcare.com.

Tuesday, December 30, 2008

Best of 2008: A Class Act at the McPhail Center's Equinology Gait Seminar

by Fran Jurga | 29 December 2008 | Fran Jurga's Hoof Blog

I had a wild plan and approached Dr. Hilary Clayton of Michigan State University's McPhail Center for Equine Performance with my proposal: a camp for professional at her research center, where we could learn about high-tech gait analysis and help her with a research project.

With her usual British chipper nonchalance, she replied. "Ok, come in October then. It's already in the works." The Equinology group had a course planned at the McPhail Center and it was to be open to equine professionals in search of a deeper exposure to the high-tech side of equine biomechanics.

As it turned out, I wasn't able to be there, but Sarah Miles provided a wonderful report, from which these comments are taken:

The McPhail Center, located at the College of Veterinary Medicine at Michigan State University in East Lansing, is one of the few university labs designed expressly for studying equine biomechanics. It is a fantastic facility — our classroom looked into the covered riding arena where research staff and students collect data with the horses.

When Dr. Clayton dramatically lifted the curtains on the riding arena the first day, a collective gasp of awe went up from the group. She told us that the building's vaulted ceiling design actually is borrowed from church architecture, so we really were having a religious experience, of sorts! But perhaps that explains the sense of “entering the inner sanctum” that one gets from learning from this world-renowned equine biomechanics expert and her staff and students in the lab designed just for their research.

Of course, what is really interesting about the arena is primarily along one side, where eight infrared video cameras collect data from horses lit like Christmas trees (Dr. Clayton’s words), as their anatomical markers move through the cameras’ shimmering red field of vision. It is one thing to hear Dr. Clayton describe the process of research and data collection, and another to experience it for yourself.
Horses' joints are marked with photosensitive styrofoam balls that will light up under infrared camera exposure. (McPhail Center photo courtesy of Dr Hilary Clayton)

The end result of the gait analysis is a stick-horse animation showing the horse in motion on the computer screen. A further sophistication of this system creates a 3D rendering. (McPhail Center photo courtesy of Dr Hilary Clayton)

Dr. Narelle Stubbs, the equine physiotherapist who co-wrote Activate Your Horse’s Core with Dr. Clayton and lab manager LeeAnn Kaiser helped us to tape all the markers on the horse in the right spots. LeeAnn showed us how they calibrate the cameras, create a template, collect the data, connect the dots, and generate three-dimensional computer animation of the horse in motion. The data is also logged into spreadsheets and analyzed for the results of any given project. Dr. Clayton explained that this technology is very similar to how they created “Golem” in Lord of the Rings.

A lecture by Dr. Clayton on the function of the stifle offered her untested hypothesis (stemming from the fact that the torque on the stifle joint is in the back of the joint) that the horse’s hamstring muscles are more important in the action of the stifle than the quads. Her thinking on this was that dressage horses are asked to work as though they are “sitting.” A student with experience in ballet volunteered the ballerina's plie support system of standing on the toes while engaging the hamstrings and adductors so that the quads are more relaxed and not the sole source of support. He even demonstrated the plie for the class!

In this research project, a rider's rein tension in measured. Rein tension can be compared between riders or to understand how different bits or the components of a bridle and reins are working. (McPhail Center photo courtesy of Dr Hilary Clayton)

Other highlights of the course included how the force plates work, and a riding demonstration of an electronic pad placed beneath the saddle to measure the pressure it puts on the horse’s back as he performs different activities, and an afternoon spent practicing core mobilization and strengthening exercises for horses with Dr. Stubbs.

The winter edition of this Equinology course is held at Writtle College in England in January and is sold out. Equinology’s next USA course, Biomechanics and Gait Analysis (EQ300MSU), with Dr. Clayton at The McPhail Center will be held October 12-15, 2009. An understanding of basic anatomic and veterinary vocabulary is a prerequisite for this class. Visit www.equinology.com for more information.

© Fran Jurga and Hoofcare Publishing. No use without permission. You only need to ask. Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. This blog may be read online at the blog page, checked via RSS feed, or received via a digest-type email (requires signup in box at top right of blog page). To subscribe to Hoofcare and Lameness (the journal), please visit the main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found. Questions or problems with this blog? Send email to blog@hoofcare.com.

Friday, September 19, 2008

Lame Brains Unite: Hilary Clayton Gait Study Course Opened to Public

This horse is outfitted for a session of gait analysis in the McPhail Center's world-class video gait analysis laboratory. Equipment at the Center includes a Motion Analysis system, AMTI force plate, Noraxon EMG system, Pliance saddle pressure pad and other custom equipment for making measurements of horses and riders.

Every September, we get the feeling we should be learning something new. Starting back to school. Taking a new interest in our profession. Moving forward with the times.

But we've never had an opportunity like this before.

A private course in equine lameness has been scheduled for next month at Michigan State University's McPhail Center for Equine Performance. The decision was made yesterday to open the course to the public, so this is the first and perhaps only announcement that interested professionals and horse owners may register for a hands-on course in equine gaits and lameness identification with world expert Dr. Hilary Clayton.

The course is offered by the innovative international program Equinology, which offers courses on biomechanics with Dr Clayton and other experts all over the world. The program is designed as a professional development track for those seeking a career in equine body work, rehabilitation, etc. but sometimes courses are open to non-program participants.

Here's a brief description:

Course Title: Biomechanics, Applied Anatomy and Gait Abnormalities (Course # EQ 300)
Course Dates: 10/20/2008 to 10/23/2008

This 4-day course offers both classroom and hands-on approaches. This is an actual course, not a workshop. The goal is for you to learn to recognize irregularities and gait abnormalities. Live and filmed horses, some with diagnosed problems, will be presented for inspection.

Understanding gait diagramming and where the limbs are placed throughout individual gaits enables you to visualize which joints, ligaments, tendons and muscles are utilized for the movements. This course does not attempt to replace veterinary expertise; however it will teach you better assessment skills. Surface anatomy and palpation of joints, tendons and ligaments are also included.

Course topics include:
Gait analysis and evaluation guidelines
Conformation evaluation
Locating palpation points
Causes and symptoms of the lame horse
Subjective analysis of conformation: Limb deviations, rotations and determination of symmetry
Basic anatomy and terminology
Preventing lameness
Defining and diagramming the basic gaits
History of biomechanics
Biomechanical techniques
High Speed Cinematography
Equipometry discussion
Measuring horses
Stay Apparatus: structure, function and palpation of the forelimb
Reciprocal and Stay Apparatus: structure, function and palpation of the hindlimb
Structure and function of the head and neck
Sports analysis/video presentations & problem solving for various disciplines

Prerequisites: A good knowledge of veterinary vocabulary, equine anatomy and horse handling skills; you will be expected to have read Dr Clayton's book, The Dynamic Horse.

Tuition: $995 for four days.

Note: Equinology and Dr Clayton will also offer this course at Writtle College in Essex, England in January 2009.

About the center: The Mary Anne McPhail Equine Performance Center is a state-of-the art equine sports and lameness facility housed in its own mini-campus with dedicated indoor arena, stabling and laboratories at the Michigan State University College of Veterinary Medicine in East Lansing, Michigan. Since the center opened in the year 2000, some of the world's leading research in equine sports medicine and biomechanics, culminating in world-renowned research to benefit performance and soundness of equine athletes, has been conducted at the center. Veterinarians and researchers from all over the world travel to the McPhail Center for consultation and collaboration.

About Dr Clayton: Dr. Clayton has been the first incumbent of the Mary Anne McPhail Dressage Chair in Equine Sports Medicine at Michigan State University's College of Veterinary Medicine since July, 1997. As a veterinarian and researcher, Dr. Clayton's studies on the biomechanics of equine gait have focused on sport horses, including dressage and jumping horses. Her work has included videographic analytic studies of Olympic dressage and jumping events and kinematic and kinetic research with some of the world's top dressage riders and horses in the Netherlands. She has a special interest in the foot and has contributed greatly to the body of knowledge on the role of the foot in locomotion and its functional anatomy. A lifelong rider, Dr. Clayton is a USDF Bronze, Silver and Gold Medalist, and is a certified equestrian coach in the UK and Canada. She is the author of several books including Conditioning Sport Horses, The Dynamic Horse, Clinical Anatomy of the Horse, and Activate Your Horse's Core. She is co-author of the textbook, Equine Locomotion, and is a longstanding consulting editor with Hoofcare and Lameness Journal, which also sells her publications.

To learn more, visit equinology.com or to register, use the online system. If you have questions, contact Debranne Pattillo, President of Equinology, in Gualala, California: tel 707 884-9963 or email office@equinology.com. Please mention that you read about the course on this blog and that you are inquiring about course EQ300.

© Fran Jurga and Hoofcare Publishing. No use without permission. All images and text property of the McPhail Center and/or Hoofcare Publishing and protected to full extent of law.

Fran Jurga's Hoof Blog is a between-issues news service for subscribers to Hoofcare and Lameness Journal. This blog may be read online or received via a daily email through an automated delivery service.
To subscribe to or learn more about Hoofcare and Lameness, please visit our main site, www.hoofcare.com, where many educational products and media related to equine lameness and hoof science can be found.