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Equine Vet www.modernequinevet.com
qPCR good tool for EHV-1 management
Vol 5 Issue 4 2015
Managing keratopathy Colic, Lameness, New NSAID and More
Table of Contents
Cover story:
4 qPCR useful tool for managing EHV-1 Cover Photo Courtesy of Dr. Pusterla
OPHTHALMOLOGY
Goals for treating equine keratopathies..........................................................................8 Technician Update
Colic associated with Salmonella.....................................................................................13 orthopedics
Subjective methods for identifying lameness.....................................................16 Rater agreement in visual lameness assessment during the lunge.........17 News
New strain of canine influenza...........................................................................3 Aspen Veterinary Resources launches new equine NSAID paste...15 Zoetis extends its immunization support guarantee.........................15 Comparative efficacy of intra-articular medications..............................17 advertisers Shanks Veterinary Equipment.................................. 3 Avalon Medical............................................................. 6
AAEVT............................................................................12
The Modern
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News FYI for those in a mixed animal practice
Midwest canine influenza outbreak caused by new virus strain
Cynthia Goldsmith, CDC
The canine influenza outbreak afflicting more than 1,000 dogs in Chicago and other parts of the Midwest is caused by a different strain of the virus than was earlier assumed, according to laboratory scientists at Cornell University and the University of Wisconsin. Researchers at Cornell said results from additional testing indicate that the outbreak is being caused by a virus closely related to Asian strains of influenza A H3N2 viruses, which have been in wide circulation in southern Chinese and South Korean dog populations since being identified in 2006. There is no evidence that it can be transmitted to humans. The outbreak in the Midwest had been attributed to the H3N8 strain of virus, which has been circulating in US dog populations since it was identified in 2004. Because the H3N2 virus had not been previously detected in North America, this outbreak suggests a recent introduction of the H3N2 virus from Asia. After testing clinical samples from the outbreak, the New York State Animal Diagnostic Laboratory at Cornell indicated that the virus was a new strain of influenza A. Subsequent testing, carried out with the assistance of the Wisconsin Veterinary Diagnostic Laboratory, identified the new subtype as H3N2. The National Veterinary Services Laboratories in Ames, Iowa, is sequencing two isolates from this outbreak, which were isolated at Cornell, to facilitate rapid complete characterization of the viruses. Both Influenza strains can cause high fever, loss of appetite, coughing, nasal discharge and lethargy. Symptoms may be more severe in cases caused by the H3N2 virus. Some infected dogs may not show symptoms at all. The H3N2 also has caused infection and respiratory illness in cats.
Influenza A: This digitally colorized negative-stained transmission electron micograph (TEM) depicted a number of influenza A virions.
The canine-specific influenza A H3N8 reverse transciptase polymerase chain reaction (Rt-PCR) in use in several laboratories will not detect this virus. Serology is also currently not available as the H3N2 virus is different enough from H3N8 that antibodies may not cross react. Veterinarians are advised that diagnostic testing of samples from sick pets can be done using a broadly targeted Influenza A matrix Rt-PCR assay. An H3N2-specific serologic assay is under development and will be available soon. It is unknown if the current vaccine will provide any protection from this new virus. It does protect against H3N8, which is in circulation in some areas. Other preventive advice remains the same: Tell owners that in areas where the viruses are active, avoid places where dogs congregate, such as dog parks and grooming salons. MeV
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Adult QH mare with hindlimb weakness and incoordination kept in a homemade sling.
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cover story
qPCR Useful Tool
for Managing EHV-1
Better diagnostics for equine herpesvirus 1 are needed to determine the stage of the virus and to help practitioners make good biosecurity decisions.
Photo courtesy of Dr. Pusterla
Quantitative testing with
polymerase chain reaction (qPCR) might provide better information for a veterinarian trying to decide how to manage a particular outbreak of equine herpes virus 1 (EHV-1), according to Nicola Pusterla, DrMedVet, PhD, professor of equine medicine at the University of California at Davis College of Veterinary Medicine. “There is a need to refine EHV-1 diagnostics to better determine and better assess the stage of the virus and disease form, but also to help the practitioner better interpret the results when making biosecurity decisions,” Dr. Pusterla said. Although every diagnostic laboratory does not offer qPCR, it can be useful for characterizing the stage and viral load of the virus and for monitoring the response to treatment, he explained. And
B y
the results would not only apply to clinically infected animals, but also the asymptomatic shedder, which is a real cause for concern, he said at the 60th annual meeting of the American Association of Equine Practitioners in Salt Lake City, Utah. In studies done by Dr. Pusterla and his colleagues, they found that the viral load in the nasal secretions of asymptomatic horses could range from very low to very high, meaning that some of them could shed virus at the same level of a clinically affected animal. “Truly these are the horses that make me nervous,” Dr. Pusterla said. “This is the everyday horse that comes into the clinic; the one that looks healthy. It is very difficult to determine how much virus these horses shed, and these are the horses that will contaminate the environment and get other
M a r i e
horses infected.” During outbreaks, veterinarians and horse owners take biosecurity precautions for the sick animals, but the healthy-looking asymptomatic shedders often slip under the radar. “We recognize the sick horses, we isolate them and take all the necessary precautions to prevent disease spread. But when it comes to asymptomatic horses, other than washing our hands between horses, we don’t do much. But these horses can actually shed very high virus in the nasal secretion. And definitely a contaminated environment can be a source of infection to other horses,” he said. There was a brief discussion after his presentation at the meeting about the asymptomatic shedders after one veterinarian asked if they should be swabbing every horse during an EHV-1 outbreak. Dr.
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cover story
Pusterla acknowledged that might not be financially feasible, but it was probably a good idea to quarantine everyone in the barn until you were sure what was going on. “I don’t think there is a right or wrong answer,” he said. “It is dependent on finances. There have been many instances where we have been able to clear a quarantine situation based on qPCR testing only.” The laboratory at Davis receives many clinical samples of not only clinically infected horses, but also from owners of horses that were in the same barn and might have been exposed, he explained. “It is mind-boggling how many asymptomatic horses are shedding very high numbers of virus. Quarantining both is a good idea. “We need to alter the percep-
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Issue 4/2015 | ModernEquineVet.com
Many asymptomatic horses are actually shedding very high numbers of EHV-1. tion that if the horse is not displaying clinical signs, there is probably nothing wrong with this horse. The reality is that we rarely sample these horses, but there are horses that represent the same risk of disease transmission as clinically infected animals,” Dr. Pusterla said.
Right now, qPCR is primarily used in the research setting instead of viral culture, but it can be a useful tool for the clinician, he said. “EHV-1 comes in different shapes and colors, which means the virus can be present in various stages. It can be lytic or replicative, which is a stage of virus that is assumed to be infectious. The virus can also be non-lytic or nonreplicating. It can also be present in a latent form, although that is usually restricted to specific anatomical sites, such as lymph nodes and trigeminal ganglia.” The virus generates transcript messenger RNA that uses the host cell machinery to produce its own protein. Quantitation can take advantage of this cell action by detecting the messenger RNA tran-
Adult Thoroughbred with hindlimb weakness and incoordination (horse is in the sling for support).
Photo courtesy of Dr. Pusterla
scripts to determine the presence of a replicating lytic virus. This was the approach Dr. Pusterla took with 130 naturally infected animals. Using blood and nasal secretions, the researchers determined the presence or absence of the RNA transcripts and then correlated the absolute quantitation with the presence or absence of these transcripts. They found a significant difference among the samples from blood and nasal secretions and from symptomatic and asymptomatic horses. There was a 170-fold higher viral load in the nasal secretions than in the blood. “The more virus there is, the more likely that one of these will be actively replicating,” he said. Quantitation can also be used to look at viral signature for different disease forms. He looked at samples from 27 horses with EHV-1 myeloencephalopathy (EHM) and 27 horses with active EHV-1 infection, fever and nasal discharge— but without neurological deficits, and 52 asymptomatic horses. Sixty-four percent of the of EHM horses tested positive in blood, with what Dr. Pusterla termed a low viral load, but he found a very high viral load in nasal secretions. The viral loads were so high in several horses, he called them Typhoid Marys. “They are not good for your practice and they are not good for your neighboring horse. These are highly contagious horses,” he said, adding that the results ended the event the horses were attending. The horses with EHV-1 infection but without neurological deficit had similar viral loads in blood and nasal secretions. Genotyping can allow veterinarians to characterize the viruses as either neuropathogenic or nonneuropathogenic. Horses infected with a neuropathogenic EHV-1 strain often have higher viral loads in the blood compared with
horses infected with a non-neuropathogenic EHV-1 strains, while the viral load in nasal secretions is often similar between horses infected with the two different EHV-1 genotypes, he said. Finally, PCR can help veterinarians monitor treatment and quarantine. They followed 12 horses with EHM from the time they presented at the hospital in the acute stage, collected daily blood and nasal secretions for the entire hospital stay and saw a steady decline in the amount of virus detected in nasal secretions and blood. The virus declined steadily with the total number of positive days in nasal secretions ranging from five to nine with a median of 6.5 days. When the blood samples were reviewed, only 10 out of 12 horses with EHM tested PCR positive. There was a steady decline over time with days of detection ranging from 2-5 with a median of five days. They also looked at overall survival based on qPCR load in blood
and nasal secretions of horses with EHM. Among 22 horses that presented because of acute onset of neurological signs, 14 of them were hospitalized and discharged. Eight died or were humanely destroyed because they were not responsive to treatment. Looking at the viral load in nasal secretions between survivor and non survivor, there is an average of 300-fold higher viral load in non-survivors versus survivors. The difference in blood was 10-fold higher between the two horse groups. The quantitation of viruses can help determine disease form, its viral stage, whether virus is actively replicating, as well as the response to treatment, making it a valuable tool for the clinician, according to Dr. Pusterla. At the present time, EHV-1 viral quantitation is only offered at the UC Davis Real-time PCR Research and Diagnostics Core Facility at Davis for diagnostic purposes (www.vetmed.ucdavis. MeV edu/vme/taqmanservice). ModernEquineVet.com | Issue 4/2015
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ophthalmology
Goals for treating
Equine Keratopathies B y
Shutterstock/Anastasija Popova
Corneal disease is common in
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equine practice, and the standards of care keep changing, which can make it challenging for field veterinarians, explained Dennis E. Brooks, DVM, PhD, DACVO, at the 60th Annual American Association of Equine Practitioners convention in Salt Lake City. The current medical standards of care for treating ulcers in horses consists of three things, according to Dr. Brooks of the University of Florida College of Veterinary Medicine. “You have to sterilize the ulcer, suppress the uveitis and reduce the enzyme activity in the tear film,” he explained. “At some point soon, we’re going to have a fourth component of the medical standard of care for corneal ulcers, which is to use available drugs to minimize scarring.” Epithelial cells of the cornea migrate at a rate of
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P a u l
B a s i l i o
approximately 1 mm daily, so clinicians should expect treatment for a 5-mm ulcer to last about 5 days in the horse. Healing is fast in the beginning and then slows down, so the response is not linear. If an ulcer does not respond within this general time frame, then culture or cytology are indicated to document the reason. “The growth of blood vessels in the eye can be effected by systemic flunixin,” Dr. Brooks explained. “If you use too high of a dose of flunixin, or use it too often, that can slow vascularization in the cornea. The horse will feel better with a lot of flunixin, but you’re delaying the corneal healing.” Most clinicians were taught that if a horse has a bad corneal ulcer, then
marked uveitis will also be present. However, Dr. Brooks said that this is not necessarily true. “They will have some degree of uveitis,” he explained. “The horse eye is good at compartmentalizing the inflammation inside the eye. If the eye has some corneal ulceration, you will see uveitis in the front of the eye. You may see flare, a small pupil and maybe hypopyon or hyphema, but you can’t see what’s going on behind the iris. The vast majority of the time when the horse has a bad corneal ulcer, the vitreous and retina will be fine. The uveitis should resolve as the ulcer heals.”
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Image courtesy o Dr. Brooks
ophthalmology
A stromal abscess (above) can be difficult to treat.
Stromal abscesses
Stromal abscesses are a little more difficult to treat, Dr. Brooks noted. The deeper the abscess, the more likely it is to be fungal; the trick lies in the choice of antifungal. “In Florida, we’re using a lot
of voriconazole, but it’s not working as well as it used to,” he said. “I’m terrified. I don’t know when we’re going to see a new antifungal drug.” For deep stromal abscesses, standard of care consists of topical therapy with antimicrobials,
In Defense of Atropine
Shutterstock/molekuul.be
Atropine does three things, but most people can only name two, according to Dr. Brooks. The common uses are for dilation of the pupil to reduce the chance of synechiae and to help with eye pain. In humans, atropine can have a profound effect on pain associated with corneal ulcers and uveitis, because the drug relieves spasm of the ciliary muscle. In horses, that muscle is smaller, so the effect is muted, yet still useful. The third “little known” use of atropine is that atropine makes the blood vessels in the iris stronger. “It minimizes aqueous flare,” Dr. Brooks explained. “Flare can cause a lot of damage in uveitis. If you don’t control flare, then that can encourage synechiae formation and can potentially encourage development of glaucoma. The first clinical sign is flare, and the last sign to resolve is flare. If they have flare, then the disease is still active. They need atropine, but at a reduced dose.” If Dr. Brooks places a horse on atropine, he will warn the owner to call him if the horse stops eating or if it has symptoms of colic. “Atropine is not that dangerous, “he said. "But we should be careful. We have no choice but to use it." 10
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atropine, flunixin and a systemic antimicrobial. “Some of the medical treatments go on for weeks to months,” he said. “Over the years, I have learned that when I think that things are okay, they’re not. The horses can be slow to vascularize an abscess. I may reduce the therapy, but it’s difficult to tell when to stop the therapy. Part of me is relieved when a client comes in and says that they ran out of voriconazole, but the eye looks good. It can be helpful when they run out of medication.” Dr. Brooks no longer recommends using the gynecologic or dermatologic formulations for miconazole due to the number of irritation issues associated with them. If the horse can be referred, he believes surgery may be more beneficial for more severe stromal abscesses.
Corneal squamous cell carcinoma
For horses with squamous cell carcinoma around the eye, Dr. Brooks said that treatment results are drastically better if you debulk the tumor and do some other type of therapy. “If client finances are an issue regarding keratectomy, then I think corneal squamous cell is the best kind of squamous cell carcinoma,” he said. “It’s the only one where you have a chance of curing it. If the tumor spreads into the conjunctivae or the eyelid, then there are blood vessels there. In the cornea, there are none—at least initially.” If the clients do not elect a keratectomy for the horse, then chemotherapy or radiation can be initiated. Dr. Brooks recommends 5-fluorouracil 1%. It is relatively inexpensive and can be used two or three times daily. He has recently noticed a decline in effectiveness, however, and is eager to start using mitomycin-C.
Images courtesy of Dr. Brooks
Examples of several equine corneal diseases (from left): Squamous cell carcinoma; eosinophilic keratitis; subepithelial keratomycosis.
Eosinophilic keratitis
Eosinophilic keratitis mass lesions look remarkably like squamous cell carcinoma, but they can be distinguished by the presence of small yellow sulfur granules on the surface of the mass.
Gynocologic or dermatologic formulations of miconazole can irritate the equine eye. “There is a big difference, though,” he said. “Cancer is bad. Eosinophilic keratitis is immune-mediated.” Cytology is invaluable in these cases, and Dr. Brooks recommended keeping the slide examination in-house. Allow the slide to air dry, and examine it for eosinophils. If the area is ulcerated, then topical steroids should be avoided. “We didn’t see eosinophilic
keratitis for a long time,” he said. “Habronema spp was known for having a role in this, and we had the idea that ivermectin was getting rid of the parasite and eosinophilic keratitis was disappearing. Now that it is coming back, we’re seeing Habronema spp in the skin as well.”
Subepithelial keratomycosis
“Subepithelial keratomycosis is a disease that scared me,” Dr. Brooks said. “I didn’t know where it came from and I had never seen it before. I had a horse with a painful eye, and I found faint retention of fluorescein that I couldn’t explain.” Cytologic examination of a scraping showed Aspergillus spp. “I no longer believe that fungal ulcers just 'happen’ in horses,” he said. “There is a whole series of events. First, the tear film gets screwed up, and then they get abrasions, and then they get an ulcer.” The problem is that this condition initially looks like immunemediated keratitis. Dr. Brooks typically uses response to antifungal treatment to help with the differential. If the horse does not respond to a three-week course of antifungals, then a fungus can likely be ruled out. MeV
Four steps should be taken for corneal ulcers (above): sterilize, suppress uveitis, reduce enzyme activity and minimize scarring. ModernEquineVet.com | Issue 4/2015
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AAEV T M E M b E r s h i p Membership in the AAEVT is open to all veterinary technicians, assistants, support staff and those employed in the veterinary health care industry worldwide. Student membership is open to those currently enrolled in an AVMA/CVMA accredited veterinary technology program.
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• A three course, 10 module, equine-only online program offered through ACT • Geared toward Credentialed Veterinary Technicians, Assistants, Support staff, & Students • Areas of study include: equine medical terminology, anatomy and physiology, parasitology, laboratory, diagnostics, equine basics (breeds, wellness, husbandry,) diagnostic procedures, emergency medicine, restraint, pharmacology, surgical assistance and anesthesia, equine office procedures • A certificate of completion is awarded to those who: Successfully complete required courses Complete the list of required skills (per a supervising DVM who is an AAEP member) Attend an AAEVT regional CE symposium and participate in the we labs • Those individuals who successfully complete the programs will be recognized as AAEVT Certified Equine Veterinary Technicians / AAEVT Certified Equine Veterinary Assistants depending on their current designation. The certificate is recognized by the AAEVT and the AAEP but does not grant the credentialed status by the AVMA • For more information go to www.aaevt.4act.com or call 800-357-3182
AAEVT Mission Statement: To promote the health and welfare of the horse through the education and professional enrichment of the equine veterinary technician and assistant.
Fo r m o re i n f o r m a t ion v ist w w w.a ae vt.or g
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technician update
Kristina Perry, CVT A 17-year-old Quarter Horse mare presented to CSU for colic of 24 hours duration. She was anorexic and lying down frequently and was examined by the referring veterinarian that evening. She had a temperature of 102°F, reduced borborgymi in all four quadrants and a heart rate of 50 beats/ min. We administered 1.1 mg/kg of IV flunixin meglumine and passed a nasogastric tube and obtained 6L of reflux. She was comfortable throughout the evening following initial treatment, but became mildly painful again the following morning.
Presentation
On hospital admission she had a heart rate of 54 beats/min, reduced gut sounds, a temperature of 102°F and hyperemic mucous membranes. A nasogastric tube was passed and 10L of reflux was obtained. An ultrasound showed a small intestine with
6–8 mm wall thickness and normal peritoneal fluid. The complete blood count (CDC) results showed leucopenia (leukocyte count 4.6 x 10^3/uL, RI: 5.5 – 10.5 x 10^3/uL), neutropenia with a left shift (segmented neutrophil count = 2.6 x 10^3/uL, RI: 3.0 – 7.0 x 10^3/uL; band neutrophil count = 0.2 x 10^3/ uL, RI: 0.0-0.1 x 10^3/uL) and had hyperfibrinogenemia (700.0 mg/dL, RI: 100.0 – 400.0 mg/dL). Neutrophils were described as slightly toxic. Chemistry values showed low hypophosphatemia (1.1 mg/dL, RI: 1.7 – 4.5 mg/dL), hypocalcemia (10.9 mg/dL, RI: 11.5 – 14.0 mg/dL), and hypomagnesiumemia (1.4 mg/dL, RI: 1.6 -2.2 mg/dL), an elevated total protein (8.0 GM/DL, RI: 5.8 – 7.4 GM/DL), hyperglobulinemia (5.1 GM/DL, RI: 2.5 – 4.5 GM/DL), elevated CK (660 IU/L, RI: 100 – 470 IU/L), AST (397 IU/L, RI: 185 – 375 IU/L) and GGT (28 IU/L, RI: 10 – 25 IU/L). An IV catheter was placed and a bolus of 10 L polyionic crystalloid fluids were administered and then a maintenance rate of 3L/hr was given with calcium gluconate and magnesium added. A lidocaine CRI was started as well and polymixin B was administered ev-
National Institute of Allergy and Infectious Diseases (NIAID)
Colic secondary to enteritis and nasogastric reflux associated with Salmonella hadar infection
Produced by the National Institute of Allergy and Infectious Diseases (NIAID), this digitally-colorized scanning electron micrograph (SEM) depicts a number of red-colored Salmonella sp. bacteria, as they were in the process of invading a mustard-colored, ruffled immune cell. Salmonella sp. bacteria are a common cause of foodborne disease. ModernEquineVet.com | Issue 4/2015
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technician update ery 12 hours. Ranitidine was administered every eight hours, as well as a flunixin meglumine IV every 12 hours. Net volume of reflux obtained was 4L/hr which continued to be obtained over the course of 48 hours of hospitalization. The following morning her temperature was 102.5°F, she had decreased gut sounds, and she remained hemiconcentrated despite fluid treatment with a PCV and TP of 45 and 7.5 gm/dL, respectively.
No signs of improvement
Throughout the day she continued to display signs of colic, was pacing and had muscle fasciculations. Subsequent abdominal ultrasounds throughout the day showed a dilated fluid-filled stomach, 5–6 cm dilated hypomotile loops of small intestine with 3 mm wall thickness. An abdominal tap was performed, and serosanguinous fluid was removed and submitted for chemistry and cytology. Protein was 3.8 g/dL, nucleated cells were 1470/µL. Cell type was 40% neutrophils, 40% large mononuclear cells and 20% lymphocytes. It was described as a modified transudate. A venous blood gas showed a low PH of 7.3 and a mildly low ionized calcium (1.2 mm/L, RI: 1.3 - 1.9 mm/L). Her condition continued to deteriorate over the 48 hours she was hospitalized and endotoxemia persisted. Based on her poor response to an aggressive medical therapy plan, she was humanely euthanized. Necropsy was performed and jejunum and Ileum had edema, thickening, and a dull reddish mucosal coloration from the end of the duodenum to
the cecum. Ileal mesenteric lymph nodes had acute hemorrhage and histopathology reflected Paneth cell metaplasia in the jejunum. Aerobic culture on feces grew Salmonella, group C2, serotype Hadar. Cultures of the small intestinal contents within the affected bowel were positive for Salmonella enteric, serovar Hadar, as well. This case description outlines a clinically typical presentation of Duodenitis-Proximal Jejunitis (DPJ) with uncharacteristic lesions of DPJ seen on necropsy that were later associated with Salmonella cultured from the affected intestine. Salmonella typically presents clinically as enterocolitis with acute severe diarrhea and a protein-losing enteropathy. This horse was protein-conserving and did not have diarrhea. Atypical presentations of salmonellosis can include gastric reflux and ileus without diarrhea, and horses can be carriers shedding Salmonella without any clinical signs of disease. Since nosocomial infections are common in equine hospitals, precautions should be taken to limit exposure to other hospitalized patients. Salmonella has been cultured from gastric reflux and feces of horses post-operatively in colic patients, as well as in horses being treated medically for DPJ indicating a need for biosecurity measures and the use of PCR and/or culture in sick horses presenting for DJP with or without diarrhea. MeV
About the author
Kristina Perry, CVT, is an equine critical care nurse at Colorado State University.
For more information: Sellon, D., 2014, Equine Infectious Diseases, 2nd Edition, Saunders Elsevier, St. Louis, 615 p. Reed, S. et al, 2009, Equine Internal Medicine, 3rd Edition, Saunders Elsevier, St. Louis,1469 p.
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news notes
Aspen Veterinary Resources launches Vetameg Equine Paste, new equine NSAID Aspen Veterinary Resources Ltd. recently introduced Vetameg Equine Paste (flunixin meglumine), indicated for the alleviation of inflammation and pain associated with musculoskeletal disorders in the horse. Each Aspen Veterinary Resources’ Vetameg Paste (flunixin meglumine) 30 mg syringe contains flunixin meglumine equivalent to 1,500 mg flunixin, which is therapeutically equivalent to the branded Banamine Paste (Merck). Vetameg Equine Paste adds to the ever-growing
line of effective equine products offered by Aspen Veterinary Resources, including Vetameg Injectable, Mineral Max, Equi-Bute Paste and Equi-Bute Injectable, among others. MeV
Comparative efficacy of intra-articular medications The combination treatment of triamcinolone acetonide and hyaluronate administered intra-articularly was less effective in the short term than intra-articular triamcinolone alone for the treatment of noninfectious synovitis or osteoarthritis, according to a recent study by researchers from The Netherlands. The use of intra-articular corticosteroids in combination with hyaluronate was thought to be superior to intra-articular corticosteroids alone, although no study has supported this opinion. In this multicenter, prospective, open-labeled, randomized clinical trial, horses with lameness localized to a single joint received either triamcinolone acetonide or triamcinolone acetonide in combination with hyaluronate, via the intra-articular route. Eighty horses from 13 clinics were recruited; 39 received triamcinolone alone and 41 horses received the combined treatment. Lameness was assessed prior to treatment and three weeks afterward. A successful outcome was defined by a reduction in lameness by two or more grades. The proportion of horses returning to their previous level of performance at three months was also assessed. After three weeks, 87.8% of horses receiving just triamcinolone had a successful outcome, compared with 64.1% receiving the combined treatment (P=0.01). Both treatments were associated with a significant reduction in lameness and joint effusion. Approximately
For more information: de Grauw JC, Visser-Meijer MC, Lashley F, et al. Intra-articular treatment with triamcinolone compared with triamcinolone with hyaluronate: A randomised open-label multicentre clinical trial in 80 lame horses. Equine Vet J. 2015 [Epublished ahead of print February).
half the horses in each group had returned to their previous level of performance at three months. Older horses—those older than 13 years—had reduced success rate of the combination treatment. MeV
Zoetis Expands Equine Immunization Support Guarantee to Include EHV-1 and -4 Zoetis has expanded the Equine Immunization Support Guarantee (ISG) to include the respiratory forms of equine herpesvirus type 1 (EHV-1) and type 4 (EHV-4) viruses. These respiratory viruses cause disease that varies in severity from subclinical to severe and are characterized by fever, lethargy, anorexia, nasal discharge and cough. Through the Equine ISG, Zoetis stands behind its line of vaccines, a program that provides horse owners up to $5,000 for reasonable diagnostic and treatment costs if a properly vaccinated horse contracts a corresponding equine disease. “The program was expanded to offer the most comprehensive health care for horses,” said Robert Holland, DVM, PhD, director of Outcomes Research, Zoetis. “It showcases our confidence in the safety and efficacy of our equine Fluvac Innovator line of vaccines with the MetaStim adjuvant.” The average cost for diagnosis and treatment of EHV-4 ranges from $1,600 to $2,700 per horse, according to Dr. Holland. To be eligible for the Equine ISG, vaccinations must be obtained and administered by a licensed veterinarian. The ISG provides veterinarians an opportunity to discuss vaccination with horse owners and help them provide the best possible health care for their animals, explained Kevin Hankins, DVM, Equine Veterinary Services, Zoetis. “The Equine Immunization Support Guarantee offers additional peace-of-mind to horse owners looking to help provide the best possible disease protection for their horses.” Other disease protection backed by the Equine ISG includes infection from West Nile, equine influenza, tetanus, Eastern equine encephalomyelitis, Western equine encephalomyelitis and Venezuelan equine encephalomyelitis. For full eligibility requirements and details on the Equine ISG visit MeV www.zoetisus.com/isg. ModernEquineVet.com | Issue 4/2015
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Orthopedics
Horses benefit from a combination of objective and subjective methods for evaluating lameness Identifying subtle lameness is difficult because the evaluation is often subjective, so more objective measures to identify lameness are always being sought. There is often disagreement among clinicians, especially when mild lameness exists, said Josh Donnell, DVM, of Colorado State University, at the 60th annual meeting of the American Association of Equine Practitioners held in Salt Lake City, Utah. Dr. Donnell and his colleagues compared subjective clinical evaluations, unblinded and blinded, with two objective methods: the force plate, which measures ground reaction forces, and a body-mounted inertial sensor system, with accelerometers and gyroscopes attached to the horse. The sensors quantify movement asymmetry of the torso resulting from significant differences in limb loading between the left and right halves of the stride.
system and trotted across the force plate. A single strike on the force plate by a forelimb and 25 continuous strikes measured by the inertial sensor system constituted a trial. For each time point there were five valid trials performed. Additionally, unblinded subjective evaluation was performed at each point by a single experienced clinician who also performed musculoskeletal exams on the horses. The horses were graded using the AAEP lameness scale while they were trotting over the force plate on the same runway. Finally, the trails were videotaped, and four experienced clinicians viewed the videos and made an evaluation. This was considered the blinded subjective evaluation. The clinicians, using the AAEP lameness scale, reached a consensus as to which limb was lame. Blinded subjective evaluations were performed without the benefit of full musculoskeletal examinations.
Subjective evaluations
The unblinded evaluations identified half the horses lame at baseline. After the induction of osteoarthritis all the horses were identified as lame within the OA limb, with the number of horses deemed lame slowly decreasing to about half the horses at the end of the study, Dr. Donnell reported. The blind evaluators, who reviewed videos of the horses trotting, identified five horses as being lame at baseline with the number of horses deemed lame increasing to 13 at day 15 and then slowly declined declining to 10 at day 71. “There was a significant difference between the AAEP lameness scores of the blinded and unblinded subjective evaluations with the blinded scores being 27% lower,� Dr. Donnell said.
Objective measures
Checking for lameness in a circle. Photo courtesy of Dr. Josh Donnell.
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His study included 16 horses that underwent a baseline evaluation to determine lameness. Each horse had surgically induced osteoarthritis (OA) in one carpal joint and sham surgery in the contralateral joint as a control. Subsequent lameness evaluations were performed at days 15, 42 and 71. First the investigators studied each method for its ability to identify lameness within the limb that had induced disease. Then the investigators looked for agreement in lameness detection among the methods. The horses were outfitted with the inertial sensor
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Both the force plate (the mean peak vertical force decreased 3.6% from baseline to post-disease induction) and the inertial sensor system showed an increase in the number of horses determined to be lame from baseline to the end of the study. Of the objective measures, the inertial sensor system’s results were most similar to the blinded subjective evaluation, and the force plate identified the limb with induce OA the least often, Dr. Donnell reported. The inertial sensor system identified the most number of horses as being lame throughout the study starting at 12 at baseline and that increased to all horses at the end of the study. The force plate identified about half the horses as being lame at baseline. That number
news notes
Rater agreement of visual lameness assessment in horses during lunging
increased to about 10 at day 15, and then decreased to seven horses at the end of the study. In comparing methods for identifying lameness independent on OA induction, Dr. Donnell found that the blinded subjective and the unblinded subjective evaluations, which agreed 66% of the time. The next two methods in agreement were the unblinded subjective evaluation and the inertial sensor system, which were in agreement 53% of the time. The inertial sensor system and the force plate were in agreement 36% of the time. There was a large difference between the unblinded and blinded subjective evaluation at identifying the disease-induced limb on day 15: the unblinded evaluators identified the disease-induced limb 87% of the time compared with 38% for the blinded evaluators. “The difference between the subjective evaluations was potentially due to the blinded evaluator being biased and having an expectation that the horses were going to be lame post-disease induction, and that unblinded evaluator was able to perform musculoskeletal exams,” Dr. Donnell explained, adding that lameness has been shown to be less recognizable on video exams, which would have been a clear disadvantage to the blinded evaluators. Inertial sensors don’t have an opinion; they only record the horse’s actual motion—but accurately and repeatably, explained Kevin Keegan, DVM, MS, DACVS, a professor at the University of Missouri College of Veterinary Medicine and co-inventor of the Lameness Locator (Equinosis), an inertial sensor system to detect lameness. Dr. Keegan was not involved in the study. “As long as the inertial sensors are used correctly, the sensors record what is happening. They record to a precision of less than 1 mm, and the system is designed to indicate differential loading between the limbs. Preferentially loading of one limb over the one on the other side is the primary means a horse uses to reduce pain in an affected limb, and this is reflected as asymmetric movement of the head and torso,” he explained. Because of the difficulty in identifying pain causing mild lameness, Dr. Donnell, said currently there is not a gold standard to identify mild lameness but combination of subjective and objective methods might be the best solution. “Horses can’t talk [and tell us about their pain]. A combination of subjective and objective methods could be helpful especially when identifying subtle lameness,” he said. MeV
For more information: Shutterstock/Lilac Mountain
Dr. Donnell’s study was funded by the Orthopaedic Research Center Foundation at Colorado State University, Fort Collins, Colo. Instrumentation for use in the study was provided by Equinosis LLC, St. Louis, MO.
When assessing lame horses on the lunge, the agreement among raters was poor for hindlimb lameness and poor-to-moderate for forelimb lameness, according to a recent study in the Equine Veterinary Journal. Consistent identification of lameness is important for diagnosis and reassessment of lame horses. Lunging during the lameness examination may accentuate low-grade lameness, European researchers said. However, visual assessment of lameness is inherently subjective. In this cross-sectional, observational study, rater agreement during lunging exercise was assessed in 23 horses. Videos of these horses trotting on a straight line and during the lunge on hard and soft surfaces were evaluated by 86 equine veterinarians of variable experience, with some videos reviewed more than once to assess intra-rater agreement. Raters were asked to identify the lamest limb on each video. Less experienced equine practitioners (<5 years equine experience or doing <100% equine work) showed poor agreement in terms of selection of the lamest limb during trotting on a circle, agreement was moderate for experienced practitioners and found to be higher for forelimb lameness across all levels of experience. Intra-rater repeatability was moderate but varied between raters. MeV
Hammarberg M, Egenvall A, Pfau T, Rhodin M. Rater agreement of visual lameness assessment in horses during lunging. Equine Vet J. 2015. [E pub ahead of print February 2015]. http://onlinelibrary.wiley.com/doi/10.1111/evj.12385/abstract ModernEquineVet.com | Issue 4/2015
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