Hallmarq Standing MRI: Hoof Conformation from the Inside Out

 

This sponsored blog post is the latest in a series produced in partnership with Hallmarq Veterinary Imaging. Thanks to Hallmarq for their support of The Hoof Blog. This video explains the process known as "Standing MRI" of the equine foot using a Hallmarq system. The units are in use around the world.

Which came first: the chicken or the egg? 

Forget everything you “know” or think you know, about the relationship between foot shape and lameness. What matters in this age of evidence-based veterinary medicine is 1) what can be demonstrated and measured; 2) reliably repeating what was demonstrated; and 3) documenting the data of the measures.

If some hoof research makes you yawn and seems to be proving what is already obvious to you, remember that building a better tower of knowledge means that we know we can count on the blocks at the bottom of the tower. They must be proven before we can move on.

Hoof science is shy a few blocks. The tower is still on the drawing board. In order to document what you "know"via the scientific process, it is necessary to approach it from different angles so that it can be measured.

The deep digital flexor tendon (DDFT) is the most common site of damage in the foot identified by standing MRI scanning of sport horses. As you know, this tendon runs down the leg and attaches to the bottom of the coffin bone (P3). The three arrows added to this scan are directing the eye to the portion of the DDFT which, in this Irish horse, has a lesion that looks like a split. Normally tendon would be solid black. The recent study in England looked at a group of horses with similar injuries of the DDFT and measured for similarities in the conformation of foot structures. (Photo courtesy of Troytown Equine Hospital, Co. Kildare, Ireland.)

When researchers at Great Britain’s Royal Veterinary College wanted to get to the bottom of this age-old conformation to lameness relativity issue, they used Hallmarq standing MRI images to collect data that could be measured. The group of investigators worked under the direction of Renate Weller Dr Med.Vet, PhD, MRCVS, FHEA, senior lecturer in diagnostic imaging and locomotor biomechanics, at the RVC's Structure and Motion Laboratory.

Tim Mair, BVSc, PhD, DEIM, DESTS, DipECEIM, MRVCS is an author of the paper and a partner in England's Bell Equine Veterinary Clinic, where Hallmarq Standing MRI scans were sourced by Hallmarq's Nick Bolas. Also from the private sector, and a recent RVC graduate, Jonathon Dixon BVetMed MRCVS of Rainbow Equine Clinic was involved with the study.

The premise of the study is an inside-out refinement of hoof confomration. Instead of measuring the circumference of the hoof capsule and the contour of the coronet, they measured or calculated characteristics of the structures inside the foot. The availability of real-world lameness cases' standing MRI scans meant that the researchers had the luxury of a library of almost 200 images of injured or lame feet that met the study's criteria.

The MRI would have been originally made to assist in a definitive diagnosis on a lame horse. The clinician noted that the MRI showed a lesion in the deep digital flexor tendon or injury to the navicular bone, etc.

The researchers from the Royal Veterinary College undertook the project of evaluating these standing MRI scans not in the context of a single lame horse, but in the hopes that they would find other similarities in the feet of horses that had received the same diagnosis.

Once again: don’t assume anything, but see what the MRIs had to say.

If you overlaid a dozen images of the same type of injury from a dozen horses’ hooves, would the hoof capsules line up and show similar characteristics?

The researchers found that there indeed was similarity in the measurements of feet with the same diagnosed injuries.

What type of horses and lameness?

The mean age of horses in the study was between ten and eleven years; the average grade of lameness was approximately a “3” on a scale of 1 to 10. Breeds included 37 Warmbloods, 51 Thoroughbreds and Thoroughbred crosses, 22 Irish sport horses, 15 Irish draft horses and Irish draft crosses, 11 Cobs and 43 horses of other various breeds.

The horses had been diagnosed with many types of injuries, including lesions of their deep digital flexor tendon (DDFT), navicular bone (NB), collateral ligaments of the distal interphalangeal joints and

25 other structures.

What was measured? C, sole angle; D, toe angle; H, heel angle; N, deep digital flexor tendon angle; PL1, plumb line 1;  PL2, plumb line 2;  MA1, proximal moment arm; MA2, distal moment arm; SI, distal phalanx length; LC, toe length.

Sole angle

Sole angle is a relatively new term in the lexicon of foot anatomy. It is not the angle formed where the sole meets the wall, as documented in some studies. Its number is not describing the sole at all, in fact, rather the concavity of the coffin bone.

Dr. Weller took the time to explain it for Hoof Blog readers as the concave sole surface of the coffin bone to horizontal angle. Check the diagram to see the point on the mid-sagittal MRI scan where this angle is measured.

Dr Weller explained: "The issue we have in practice is that the sole angle we measure on radiographs does not correspond to the angle at which the DDFT actually attaches, but (rather we measure) the lateral and medial coffin bone borders.

"This (angle of the coffin bone) can be taken as an approximation at best, since the concavity of the coffin bone differs between horses. So some may have little concavity and in those horses the radiographic measurement will correspond quite well to the insertion angle of the DDFT, (however) some horses may have (a) very concave coffin bone and in these the radiographic measurements will not represent the DDFT insertion angle.

"The reason we care about this angle is that it is strongly related to the strain the DDFT experiences and hence the pressure this tendon exerts on the navicular bone," she concluded.

Measurement results

• A larger sole angle was associated with combined deep digital flexor tendon (DDFT) and navicular bone (NB) lesions, but not with NB lesions alone.
• A more acute angle of the DDFT around the NB was associated with DDFT and NB lesions.
• A lower heel height index was linked with DDFT injury.
• The larger the sole angle, the smaller the likelihood of a DDFT or NB lesion.
• Measurements of the feet in the study contradicted findings of other studies.

Why is this study important?

Taking measurements from diagnostic images is not a new idea, so why is this study newsworthy? 

Previous studies have shown that certain conformational traits--sole angle in particular--increase forces acting on the DDFT and NB in sound horses. This study supports these findings by showing that conformational parameters are associated with DDFT and NB lesions in lame horses.

Standing MRI is done with the horse
bearing weight on the injured limb

The researchers noted that while this study shows an association between certain conformation parameters and foot lesions, foot conformation cannot be identified as causative factor of lameness. "Foot conformation may change as a consequence of lameness," they concluded.

Which brings us back to the chicken and the egg.

Future studies at the RVC will focus on dynamic conformation by investigating foot-surface interaction in lame versus sound horses, which may eventually open a preventative and/or therapeutic window for horses in the process of developing specific lesions within the foot.

Relevance of this study

The study's findings emphasize the deep digital flexor tendon's influence on the conformation of the foot and that it plays a leading role in many foot lameness problems. The DDFT's angle within the foot and the relative concavity of the distal phalanx (P3) (as measured by sole angle) may become routinely documented in the future.

Studies like this one are changing the way that foot structures are evaluated and measured. Standing MRI scanning provided three-dimensional evaluation of the foot, expanding the diagnostic field for the most precise possible examination of foot tissues and for the most accurate measurement protocols for scientific relevance. 

But Weller’s team’s emerging protocols for evidence-based hoof evaluation provide the sport horse and racing worlds with a basic building block that could one day be used on important studies to answer questions on equine welfare, prevent pain and increase a horse’s useful years. The hoof is one of the last frontiers of equine science, and the Royal Veterinary College is dedicated to learning more about it.

Research can’t be any more relevant than that.

To read the full paper: Kate Holroyd, Jonathan J. Dixon, Tim Mair, Nick Bolas, David M. Bolt, Frederic David and Renate Weller; Foot conformation in lame horses with different foot lesions diagnosed, published online in The Veterinary Journal, September 2012.

 To learn more about Hallmarq Veterinary Imaging and standing MRI technology for horses:

• "Like" Hallmarq Equine MRI Facebook page;
• Follow @HallmarqMRI on Twitter;
• Subscribe to the hallmarqvetimaging channel on YouTube.com;
• Watch for a growing equine distal limb Hallmarq MRI image gallery on Flickr.com.
• Visit the Hallmarq.net web site. (Plan to spend some time there!) 

© 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.  

Follow Hoofcare + Lameness on Twitter: @HoofcareJournal

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Disclosure of Material Connection: Hoofcare Publishing contracted to receive compensation for compiling this post but the veterinary expertise and opinions in the article were provided by John Peloso DVM and Hallmarq Veterinary Imaging.  The information contained in this article is for informational purposes only, and should not be used to replace professional veterinary advice for your horse. Visitors to the website are responsible for how they choose to utilize this content. 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.

Bodo Hertsch: German Veterinarian, Researcher and Educator's Accidental Death Leaves an Empty Podium and an Empty Saddle

Professor Doctor Bodo-Wolfhard Hertsch, 68, a noted international researcher and educator on laminitis and navicular disease in horses, has died at Eichenhof Tremsdorf, the equestrian center he ran with his wife outside Berlin in Germany.

The cause of death being reported by German web sites is that he died of injuries after he fell from a horse.

"His death for us as humans, horses, expert riders and organizers rips a deep hole," said Peter Fröhlich, director of Landesverband Pferdesport Berlin-Brandenburg e. V. (LPBB).

As early as 1993, Dr. Hertsch was studying the microcirculation of the foot at different stages of laminitis and creating angiograms that would eventually yield to the venograms used today. His study "Microangiographic investigations in acute and chronic laminitis in the horse" examined the distal limbs of 27 horses of different breeds as well as of one donkey who were suffering from acute or chronic laminitis.

Most of us in America first met Bodo Hertsch when he spoke at the 1991 Bluegrass Laminitis Symposium, hosted by Dr. Ric Redden in Louisville, Kentucky. "Navicular Bone Microcirculation, Coffin Joint Effusion and Navicular Pathology: The Diagnosis  and Therapy of Chronic Disorders of the Distal Sesamoid Bone in Sport Horses" was the title of his first lecture. We certainly learned the word "podotrochlea" that day.

Even more prophetic, Bodo Hertsch's second lecture: "The Principle of Heel Elevation as a Possible Treatment for Acute and Chronic Laminitis in Horses". He explained to us that laminitis therapy in Germany was based on the Bolz shoe, adopted in 1939. Hertsch reviewed laminitis cases at the vet school and the rate of success of the shoe, which called for lowering the heels. He proposed instead that the heels be raised. His paper is worth reading; it was the early days of raising heels but his explanation of the Bolz shoe and the historic study of laminitis in Germany up until the outbreak of World War II is fantastic.

Dr. Hertsch has a paper on laminitis research in the current edition of Tierärztliche Praxis, the German veterinary journal that challenges the observation that laminitic horses have accelerated heel growth, or retarded toe growth; according to Dr. Hertsch, growth is uniform, but the disease causes the tubules to growth in a different direction, kink, and fold rather than growing downward.

"Growth of the hoof horn in horses with chronic laminitis" examines the correlation between rotation and/or sinking of the third phalanx (P3) and changes of horn growth on the hoof wall. Dr. Hertsch painstakingly reviewed radiographs or performed radiographs on 117 slaughtered or euthanized horses with chronic laminitis. He documented that in the chronic stage the vascularization changed according to the degree of rotation, the duration of the disease and its development.

To quote from an English version of the abstract of the paper: "A rotation angle of approximately 8° was found to predict a change in the direction of the growth of the hoof horn at the dorsal and the lateral hoof wall. In addition, a correlation between the rotation angle of P3 and the length of growth of the hoof could be highlighted. A greater angle could lead to a larger interruption of the dorsal horn growth; meanwhile the palmar/plantar horn growth appeared to be independent. A correlation between a medial/lateral rotation of the pedal bone and the length of the horn was not observed."

Dr. Hertsch's conclusion: "The direction change of the horn tubes might cause a decrease of the visible length growth of a chronic laminitic hoof. Therefore, it appears to be important to differentiate between the externally visible length of the hoof and the real growth of the horn. Apparently, the amount of horn produced is the same on the dorsal hoof wall and in the heel. In horses with moderate laminitis the horn tubes on the dorsal wall were lying in folds, with the consequence of a decreased visible length growth. Only the formation of wrinkles of the horn tubes on the dorsal hoof wall reduced the visible wall length. Formation of wrinkles of the horn tubes in the heel could not be observed.

"Interestingly, the results of this study show that the lateral rotation of P3 does not promote the formation of wrinkles of the horn tubes along the lateral or medial hoof wall. According to our results, a resection of the dorsal hoof wall might be a sensible therapeutic approach in horses with chronic laminitis showing a rotation of P3 of at least 8°."

For many years, Dr. Hertsch was with the veterinary school at the University of Hanover, but had in recent years been Director of the Department of Veterinary Medicine at the Clinic for Horses at the Free University of Berlin. After his retirement, Dr. Hertsch had a private clinic at the equestrian center, Eichenhof Tremsdorf GbR, which he ran with his wife, Ingrid.

Dr Hertsch was the organizer of many meetings in Germany and had most recently, in 2008, organized and chaired the International Symposium on Laminitis  in Berlin. In 1995, he hosted the international symposium on navicular disease. He also authored many books including The Horse's Hoof and How to Shoe It Without Nails, with Hellmuth Dallmer, and Anatomy des Pferdes, as well as many others.

"Horses are his passion: he rides them, he breeds them, he heals them," was a quote from a recent article about Dr. Hertsch.

Recently, Dr. Hertsch had been in Great Britain at Hickstead to represent Germany in a special FEI senior Nations Cup international team competition in show jumping among 38 riders who are also veterinarians. Bodo Hertsch was the champion, and he did it on Lucinda, a 15-year-old mare that he bred and raised himself.

In addition, he led the four-member German "A" Team to win.

That was just his style.

I'll miss Professor Doctor Hertsch. His research contributions are important but his vision for the future and his obvious love for and involvement with horses set him apart and above so many others.

Did any of his horses ever have laminitis? I don't know what drove him to delve so deeply into the disease, but I'm glad he did. He could have chosen any specialty but like so many of the people I know and respect, he chose the most difficult and challenging problem in the horse world and looked it in the eye.

Assistance with this article was provided in Germany by Susanna Forrest, author of the forthcoming book If Wishes Were Horses (and the blog by the same name), in Berlin, and by anatomist Christoph von Horst PhD DVM of HC Biovision in Munich. 

Photo of Professor Doctor Hertsch via Eichenhof Tremsdorf.

 TO LEARN MORE

© 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.  

Follow Hoofcare + Lameness on Twitter: @HoofcareJournal

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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.

Hoof Pathologist and Educator Dr. Roy Pool Honored by American College of Veterinary Pathologists

Today the American College of Veterinary Pathologists (ACVP) will bestow an honorary membership to Roy R. Pool Jr., PhD DVM, director of the Surgical Pathology Service and director of the Osteopathology Specialty Service at the Texas A&M College of Veterinary Medicine & Biomedical Sciences (CVM).

This award -- only given to a select few individuals -- will be presented to Dr. Pool for his many important contributions to his professional discipline over his more than 40-year career as a veterinary musculoskeletal pathologist at the ACVP's annual meeting.

Honorary membership is bestowed upon a nonmember by a majority vote of the Council, and confirmed by a majority vote of the membership of the College.

Over the years Pool has contributed a great deal to the understanding of the causes and pathological diagnosis of musculoskeletal diseases of domestic animals. A list of his research topics includes research on many species and especially the pathogenesis of biomechanical lesions of bone, joints, tendons, and ligaments of athletic horses.

Pool is the last of the original five veterinary musculoskeletal pathologists still active today in academic practice in this country. He has taught numerous courses, in several veterinary institutions across the United States and Europe including the University of California at Davis, Cornell University, and Mississippi State University.

Dr. Pool was recruited by the Texas A&M seven years ago where, in addition to his diagnostic duties, he teaches lectures in his specialty to professional students in the veterinary curriculum.

"Although I am a clinical professor of pathology with primary diagnostic and teaching responsibilities, I continue to be involved in orthopedic research (e.g. healing of defects in articular cartilage and in tendons facilitated by stem cells)," said Pool.

I will never forget meeting Dr. Pool. He was so interested in Hoofcare and Lameness, and I was so interested in a project he was working on, related to navicular disease. One of the first sentences out of his mouth was, "I just love the navicular bone!" and I could tell he meant it. He went on to tell me that he had collected hundreds of them, and that he never tired of looking at them. Over the years, he also has never seemed to tire of answering my questions, and offering advice for deeper reading or where to find someone who might know the answer to my question.

Dr. Pool opened his lecture at the AAEP convention in San Francisco with one of the best lines ever: "Some people collect stamps. I collect navicular bones!"

Hoofcare and Lameness has tried to keep up with Dr. Pool's research. In 1996, Hoofcare published a summary of 15 years of his equine research, Equine Joint Mechanics: An AAEP/H&L Report, after his presentation at the AAEP convention in Lexington, Kentucky.

In the 1980s, Dr. Pool was the first to notice the incidence of what was then called degenerative suspensory ligament desmitis (DSLD) when he was at the University of California at Davis. What may have been an observation on his part helped veterinarian Jan Young DVM formulate the first articles on the conditon, which were published in Hoofcare and Lameness. In 2002, he was the co-author with Dr Jeanette Mero of the paper, Twenty Cases of Degenerative Suspensory Ligament Desmitis in Peruvian Paso Horses, presented at that year's AAEP Convention in Orlando, Florida.

Not only students and the research community have benefited from Dr. Pool's research, his studies and his affection for the navicular bone--we all have benefited from his generosity and his curiosity. We should all give him an award for helping us understand what happens when something goes wrong with the musculoskeletal systems of athletic horses.

Thanks to Texas A&M University for assistance with this article.

© 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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