Small wounds leading to synovial infections

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Article by Peter Milner

Most experienced trainers will know from bitter experience that a seemingly tiny wound can have a big impact if a horse is unlucky enough to sustain a penetrating injury right over a critical structure like a joint capsule or tendon sheath. Collectively, joints and tendon sheaths are called synovial structures, and synovial infection is a serious, potentially career-ending and sometimes life-threatening problem. 

A team of veterinary researchers from Liverpool University Veterinary School, published a study in Equine Veterinary Journal that examined factors influencing outcome and survival. This article was first published in European Trainer (issue 50 - summer 2015) but is being republished due to popular demand.

What is synovial infection?

Infection involving a synovial cavity, such as a joint or tendon sheath, is a common and potentially serious injury for the horse. The most prevalent cause is a wound, although a smaller proportion of cases result following an injection into a joint or tendon sheath, or after elective orthopaedic surgery to the area. Additionally, infection can occur via the bloodstream, particularly in foals that have not received enough colostrum.  Left untreated, the horse will remain in pain, and ongoing infection and inflammation can result in permanent damage. This can ultimately result in euthanasia on welfare grounds. 

What factors are important for horse survival?

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When a synovial infection occurs there is a huge inflammatory response, leading to swelling and pain. The horse usually shows severe lameness but following a good clinical examination, the cause is often quickly identified.  Prompt veterinary recognition of involvement of a joint or tendon sheath and aggressive treatment (involving flushing the affected synovial cavity and the correct use of systemic and local antibiotics) will often result in a good outcome for the horse.  Flushing removes inflammatory debris including destructive enzymes and free radicals, and it eliminates contaminating bacteria in most cases. This is performed most effectively by arthroscopic guidance (“keyhole” surgery) under general anaesthesia. Using a “scope” to do this is considered superior to flushing through needles because arthroscopy allows the inside of the problem area to be inspected, foreign material (for example, dirt or splinters of wood) to be removed, and any concurrent damage (such as damage to the cartilage or a cut into a tendon) to be evaluated. In addition, targeted high volume lavage is best achieved via arthroscopy. 

Survival following arthroscopic treatment of synovial sepsis is good – approximately 80-90% of adult horses undergoing a flush are discharged from hospital.  In foals, however, the figure is much lower, at around 55%, and this likely due to complicating factors such as concurrent sepsis involving multiple organs.  Our study, recently published in Equine Veterinary Journal, investigated what factors might be involved in determining survival to hospital discharge in 214 horses undergoing arthroscopic treatment for synovial sepsis. We used statistical modelling to evaluate the interactions with different factors at three key time points during the management of the condition at Liverpool Veterinary School, one of the leading UK referral veterinary hospitals. Information collected on admission to the hospital included when the horse was last seen to be normal, the cause of the infection, the degree of lameness present, and the level of white blood cells and protein in synovial fluid collected from the infected joint or tendon sheath. These lab tests are an important method which veterinarians use to determine how severe the infection is. Additional data collected included whether the surgery was performed out-of-normal working hours, if foreign material was present, the amount of inflammation present in the area, and whether any additional cartilage or tendon damage was found at surgery. Post-operative information gathered included what the levels of white blood cells and protein were in the synovial fluid after surgery and whether the horse needed further surgical treatment.

All horses in this study were greater than six months old and the majority had sustained a wound that communicated with a joint or tendon sheath.  Eighty-six per cent of the 214 horses admitted to the hospital survived to hospital discharge.  Of the 31 horses that did not survive, 27 were euthanised due to persistent infection or lameness.

An angry, protein-soup

A high level of protein in the synovial fluid of the affected joint or tendon sheath on admission and levels that remained high after surgery were strongly associated with a poor outcome and loss of the horse.  Protein concentrations are normally fairly low in a normal joint or tendon sheath, but protein leaks into the synovial cavity from surrounding blood vessels when inflamed. Protein is also produced by cells in the synovial cavity when they are activated in response to a severe insult such as infection. Protein clots trap bacteria in the joint, making it harder to remove infection. The protein soup also includes lots of inflammatory mediators such as enzymes and signalling molecules, and these cause further inflammation, tissue damage, and sensitise pain receptors in the synovial cavity magnifying the inflammatory response and increasing the pain experienced by the horse. Unchecked, this angry, inflamed environment can result in cartilage degeneration, bone damage, and adhesion (scar) formation. This fits well with another observation from this study linking the presence of moderate or severe synovial inflammation at surgery as a negative factor for survival. 

Small wounds can lead to big trouble

Interestingly, horses presenting with an obvious wound (as opposed to a small penetrating injury or no visible wound) were more likely to survive to hospital discharge. This may be due to the injury being noticed earlier and hence prompting earlier veterinary intervention. Alternatively, open wounds may allow drainage of inflammatory synovial fluid and lessen the detrimental effects of increased pressure within the joint as well as reducing ongoing exposure to inflammatory mediators. This finding highlights the fact that trainers should act promptly when faced with a wound – it is easy to underestimate just how much damage may be going on under the surface.

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Horses undergoing surgical treatment of a joint or tendon sheath infection out-of-hours (for example in the middle of the night) were three times less likely to survive to hospital. Often, horses with a synovial infection arrive stressed and painful and not in an ideal state for having an anaesthetic. Early identification of an infection and appropriate management is important but stabilisation of the horse and preparation for surgery appear to outweigh any perceived benefits of undertaking immediate surgery.  This is borne out by the finding that time from initial injury to treatment was not associated with outcome and is in agreement with previous findings from other researchers. It is important to reiterate that prompt recognition and treatment of a horse with an infection in a synovial cavity is essential but that surgical management within 12-24 hours of diagnosis, so that the horse is in the best condition for undergoing anaesthesia, does not affect outcome. 

Do horses return to work after a synovial infection?

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The big question that owners and trainers want to know is whether the horse will regain full function of the joint or tendon sheath after having an infection. Figures for return to function following surgical (arthroscopic) treatment for a synovial infection vary between 54-81%.  Various factors appear to relate to outcome but when looking at a predominately thoroughbred racing population, the statistic for return to training appears to be at the higher end of this range. Factors associated with failure to return to athletic performance include the presence of thickened inflammatory tissue (known as pannus) at the time of surgery and that may relate to the development of fibrous adhesions and scar tissue within joint or tendon sheath longer-term. Some structures are particularly likely to compromise future function, and horses with an infection of the navicular bursa in the foot following a nail penetration generally do worse. 

Take home message

Horses sustaining an infection to a joint or tendon sheath have a good chance of the infection clearing up and surviving the injury, with the likelihood of racing as high as around 80%.  Our key message for trainers from this study is that it is essential that they recognise early when an infection involves one of these structures and have a veterinarian fully evaluate the injury. Aggressive treatment is important and involves flushing the synovial cavity using a “scope” under anaesthesia to remove as much inflammatory and infective debris as possible. 

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Castrating racehorses: A routine procedure not without its pitfalls

A recent study published in the Equine Veterinary Journal assessed the routine procedure of gelding and the complications associated with this procedure. The research was a retrospective study of horses castrated at the Sha Tin training complex in H…

By Tom O’Keeffe

A recent study published in the Equine Veterinary Journal assessed the routine procedure of gelding and the complications associated with this procedure.  The research was a retrospective study of horses castrated at the Sha Tin training complex in Hong Kong, between July 2007 and July 2012.

Hong Kong is a unique training and racing environment, and all horses training and racing there are imported, as there is no breeding in the region. Fillies are rarely imported. The majority of colts are castrated at some stage in their career, and open standing castration (OSC) is the method of choice by the vets of the Hong Kong Jockey Club (HKJC). Until now, nobody has looked at the prevalence of complications following castration of horses at the HKJC. This recently published study aimed to describe the prevalence and severity of complications in the 30 days following castration.

Reasons for gelding a racehorse in training

Most trainers perceive geldings as easier to train than colts, and if the horse has not shown enough ability for a stud career to beckon, there is little to lose by gelding.  In Hong Kong, due to the unique environment the horses live in, there is an added incentive to geld these horses sooner rather than later. Once gelded, their management becomes significantly more straightforward.

Castration Method Options

Three surgical techniques are commonly used for equine castration: 1) open, in which the parietal tunic surrounding the testicle is incised and, usually, retained; 2) closed, where the portion of the parietal tunic surrounding the testis and distal spermatic cord is removed, and 3) half closed, where an incision is made through the exposed parietal tunic at the cranial end of the testis or distal end of the spermatic cord allowing the testis and part of the spermatic vasculature to be prolapsed through the incision prior to removal.

 

In most cases, racehorse castration is done standing via the open technique under local anesthetic, with sedation and pain relief as necessary. The testicles and spermatic cords are first injected with local anesthetic to numb the region. Once the tissues are totally desensitized, a slash incision is made into the scrotum. The testicle is exteriorized, and it is removed with a surgical instrument called an emasculator. The emasculator has a set of interlocking crushing blades with a cutting blade placed at the bottom of the array. Once the testicular cord is clamped in the emasculator the testicle will usually fall off, but the cord is retained within the interlocking crushing blades for approximately one to two minutes. This creates trauma to the tissues, which causes them to swell once the crush is released, reducing blood flow. The second effect of the emasculators is for the blood to be held in position long enough to begin the clotting process, which carries on once the clamp is removed.

An alternative method of castration is to anesthetize the horse and carry out the procedure with the horse on its back, as a completely sterile operation in an operating room. This has the advantage of minimal post-castration swelling as there is no infection in the area, which can be a common problem with standing open castrations.  In horses who are cryptorchids (ridglings), which is when there is only one descended testicle in the scrotum, standard open standing castration is contraindicated. These horses require either castration under general anesthetic or testicle removal under standing surgery via laparoscopy (inserting a camera and instruments into the abdomen to remove testicle via a surgical incision).

Complications of Castration

As with all intrusive surgical procedures, there is the potential for things to go wrong. While the castration procedure is relatively straightforward, post-operative complications including excessive edema of the scrotum and surrounding tissues, infection and fever, hemorrhage, lameness, hydrocele formation, peritonitis, eventration, penile paralysis, scirrhous cord formation, and death have been recognized.

With castrations done under general anesthetic, there are all the attendant risks of putting a 1000lb animal on its back and up again. All anesthesia carries a risk of death in the horse. This has been calculated as approximately 1% in equine practice, and can be as low as 0.5% in the major well-equipped equine hospitals. In addition to this, occasional cases show prolonged bleeding after the surgery, which results in significant swelling that sometimes has to be resolved by opening the scrotal sac.

Intestine is prolapsing through the castration site - this severe castration complication requires immediate veterinary attention.

Intestine is prolapsing through the castration site - this severe castration complication requires immediate veterinary attention.

For standing castrations, some of the problems encountered include prolonged bleeding, which can occur irrespective of the length of time the cord has been clamped for. This can become serious enough to require a further surgery to identify the bleeding vessels and tie them off, but thankfully this is rare. Another rare complication is herniation of intestines through the potential space left in the inguinal canal with removal of the testicle. The intestines can either get trapped under the skin producing severe colic, or worse still, dangle out of the abdomen and become contaminated. This presents a very serious risk to the horse’s survival and requires immediate surgery to attempt to clean the exposed bowel and return it to the abdomen. Fortunately this is extremely rare in the Thoroughbred.

However, the most common complication is infection at the site of the castration. This procedure leaves an open wound and obviously the horse can lie down in bedding full of urine and feces on the same day it has been castrated, therefore potentially contaminating the open surgical site. Unfortunately many racehorses’ ability to be turned out in a paddock is often controlled by the training environment they reside in. Infection post-castration, and the added expense and lost training days associated with it, is a bugbear for trainers and vets, and this study reviews a common problem encountered worldwide.

Hong Kong Study

The Hong Kong training complex provides full-time stabling and training facilities to approximately 1250 horses spread out among 24 licensed trainers. The Department of Veterinary Clinical Services (DVCS) at the HKJC is the sole provider of veterinary care for this population. All clinical records of horses in training at the HKJC are collated within the Veterinary Medical Information System (VMIS). For a horse to be eligible for inclusion in the study, two testicles had to have been removed via an open standing castration. Veterinary records of all the horses that had been castrated were examined and any cases that did not meet the criteria were excluded.

Data on complications that occurred in the 30 days following castration was extracted from the clinical notes in the VMIS. The data was reviewed and the severity of complication was categorized into one of the five groups below:

 

Between July 2007 and July 2012, 280 racehorses in training were castrated. A total of 30 horses were omitted from the study, as they did not meet the inclusion criteria: 24 horses were castrated using general anesthetic, of which six were cryptorchid surgeries.  Horses included in the study were in the care of 24 different trainers, with thirteen different veterinarians performing the castrations.

 

Twenty-four hours after castration, this horse has mild scrotal swelling, which would be classed as Group C1 in the Hong Kong study.

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