Abingdon Equine Vet Services

11/26/2025

This is a video put out by the EDCC and AAEP discussing EHV and the current outbreak. It’s a fairly long webinar of 90 minutes but an important one to watch as a horse owner. It goes over EHV the clinical signs, the current outbreak and proper biosecurity at home and when going to events. I highly recommend you watching it. I learned a lot myself. Hope it helps.

This is the recording of a webinar held November 25, 2025. Please note that the current EHV-1 situation is changing rapidly. To get the most updated informat...

11/22/2025

Just wanting to give another update on the whole EHV/EHM outbreak to hopefully easy everyone’s minds a bit more.
After speaking with the Virginia Department of Agriculture’s area state veterinarian yesterday there are still no positive cases of EHV in Virginia with all horses tested coming back negative with only a few test pending on very low risk horses so they most likely will be negative as well.
He also said if we can get through to the end of next week with no cases in Virginia we will most likely not have to worry about an outbreak occuring in our region or the risk will drop significantly.
Other things he stated is that the lab is being overwhelmed with test being submitted for EHV and it slows the lab down and that most horses they are receiving test on do not need to be tested. Reason being not exhibiting the clinical signs of EHV, or no real exposure. He understands everyone’s concerns and fears about this disease but wants to stress only horses with clinical signs or those horses with direct exposure from being in Texas/Oklahoma and or exposed to those horses here in Virginia with clinical signs need to be tested. This helps the lab focus on the high risk horses and to get the test results back more quickly.
So we as veterinarians need to use good judgement on which horses we think need to be tested from those that do not.
So for now continue to monitor your horses especially those that would be at a higher risk of exposure for clinical signs and be cautious with any travel for the next couple of weeks. Always have a good overall biosecurity plan for when you do travel as well.
Anyway after that long update there is very good news that there is still no confirmed cases of EHV in our area. So hoping and praying that continues and as each day that passes without a case the closer we are to an end to this worry.

11/21/2025

There have been some people reporting there has been a positive case of EHV in Southwest Virginia and I wanted to let everyone know that as of now there are no confirmed positive cases in Virginia. One horse has been tested and that’s all we know for now. Currently there is no need to panic and everyone just needs to take the necessary precautions and monitor any horses that may have travel recently or been around horses that may have been exposed in Texas and Oklahoma. So again currently there is no confirmed case of EHV in Virginia or East Tennessee. Just trying to prevent any misinformation from being spread when the facts are currently not know at this point.
If a positive case does occur or happens it will be posted to the EDCC link below and I will make a post as well.

Updates on current disease outbreaks are listed here as they occur and will include the date listed, disease name, location and current status. Specific premises will not be named but the general location by town, county and state will be listed. When locations, events or horses are at risk they wil...

08/12/2025

For a small part of the body, it plays a very big role in health!

Anatomy of the Equine Foot
Brian S. Burks, DVM
Diplomate, ABVP
Board Certified in Equine Practice

Horses have evolved over the last 55 million years. The first horse was the size of a cat- only 10 inches tall, and walked on padded feet, much like a dog. This was when the world was quite tropical, and before the Ice Age when horses had to adapt to a different environment. The pad of the third digit eventually became the frog of the modern horse’s foot. The modern horse (Equus caballus) first appeared about 5 million years ago.

Horses were first domesticated about five thousand years ago in what is today southern Russia. Their domestication influenced human history, mainly due to their extensive use in warfare.

The hoof, or hoof wall, is the three layered outer surface of the foot. The foot includes the hoof, bones, blood vessels, ligaments, tendons, and nerves. The horse stands on what is the human middle finger and the middle bone in the hand is the cannon bone. The wrist is the human carpus, corresponding to the ‘knee’ of the horse.

The hoof plays a very large role in weight-bearing in the horse, and protects the structures within the hoof capsule. For the foot to work properly, it must be healthy, and the equine owner plays a role here. Horses have been removed from their natural environment and the natural selection process has been disturbed. Horses with poor feet in the wild do not survive, but domesticated horse receives special care and may be bred, passing along undesired traits.

The external surface at the front of the foot is its dorsal surface, and the surface facing the ground is the solar surface. On the front leg, the caudal (rear) aspect of the foot is its palmar surface. In the rear leg this is referred to as the plantar surface. Medial (inside) is the term for the portion of the foot nearest the foot on the opposite side. Lateral (outside) is the term for the portion of the foot farthest away.

The hoof is composed of several layers. The outermost layer is the periople (stratum externum) which is cuticle on the human finger. As it advances down the hoof wall, it is called the stratum tectorium, but most of this is abraded by dirt and sand and is lost.

The middle layer, the stratum medium is the thickest layer. It is composed of many hollow tubules of keratin which are embedded in a matrix of keratin. This latter structure gives the foot its strength, being less likely to fracture than the tubules. There is a gradient within this layer. The outer tubules are smaller, but greater in number. As they progress inward, the tubules enlarge and are less numerous. This allows the foot to keep the outside of the hoof dry (if they are not standing in water- the hoof will imbibe water within 24 hours) and the inside more moist, adding flexibility to the hoof capsule, which is a dynamic structure, constantly growing downward toward the ground.

Inside is the stratum internum, which is made of epidermal laminae- leaf-like structures that run the length of the hoof wall, parallel to the stratum medium. There are 600 laminae in the hoof; each lamina has 150 -200 secondary laminae.

The hoof grows down from the coronary band (corona; crown) from papillae that fit into the tubules. Keratinocytes are made in this region, and are continually being pushed down the wall. They eventually lose their nucleus and become officially dead cells. The coronet has a massive blood supply to feed the hoof. Injury to the coronary band can have a serious negative effect on hoof growth and development. If the injury to the coronary band is serious, it can result in permanent disfigurement of the hoof and, in some cases, disrupt proper hoof growth to the point where the horse is no longer usable.

The corium is similar to the dermis of the skin elsewhere in the body. In the case of the foot, there are epidermal laminae and dermal laminae. The outer portion of skin is epidermis, while the deeper layer is the dermis, filled with blood vessels and nerves. There are several parts to the corium of the foot: perioplic, coronary, laminar, solar and frog corium. The first two form the coronary band.

The sole is similar in construction to the hoof wall, with vertical tubules fed by the solar corium. These tubules curve near the ground, limiting growth and allowing shedding of the sole. The sole is designed to carry internal weight, not weight from the ground. The sole is the area inside the white line, excluding the bars and frog.

The white line is the junction between the wall and the sole and is clearly visible around the front three-fourths of the circumference of the sole in a freshly trimmed foot. The white line is yellowish and during the 1800s was commonly called the golden line. It joins the sole to the inner wall of the hoof and seals the border of the third phalanx to protect it from bacterial infiltration. It creates a shallow crease at the bottom of the hoof which fills with dirt, aiding with traction.

The inner hoof wall is white due to a lack of pigment. It has a high moisture content making it more pliable than the outer wall. This allows for stretching of the inner wall to protect the internal hoof structures from shock. It also allows the third phalanx and outer wall to move in different directions, while preserving strength of attachment.

The outer hoof wall is pigmented and much stronger than the inner wall. It bears the horse’s weight, protects internal structures from damage, and stores and releases energy like a spring, helping to propel the horse during movement. A healthy outer hoof wall is slightly thicker at the toe and has no growth rings or cracks. It is nearly impermeable to water, dirt, and mud, but a damaged wall can allow pe*******on of external substances, allowing infection of the white line or subsolar abscesses to occur.

The frog is a wedge shaped rubbery tissue between the bars of the sole. It should be wide and substantial, and while keratinized, the frog is about 50% water, making the frog soft. The apex points forward and the base, at the heel, has a shallow central sulcus. It acts as a shock absorber from the ground and redirects force from the bony column through the lateral cartilages of the hoof. It also pumps blood through the foot every time the hoof lands on the ground. An unhealthy frog can cause significant loss of structure in the caudal portion of the internal hoof, leading to lameness.

The frog works with the coronet, bars, and sole to provide resistance to distortion of the hoof capsule. Frog pressure influences the digital cushion above. The frog stay (triangular area cut out of the sole that in which the frog sits) allows independent movement at the heels as the horse lands on uneven ground. The frog also plays a part in protecting the sensitive structures beneath, providing traction, assisting circulation and absorbing shock. It also contains many nerves which enable the horse to feel what it is standing upon and to know where its feet are in relation to the rest of the body (proprioception).

In the center of the frog, towards the back of the foot is the central sulcus. A healthy sulcus is wide and shallow, but if the frog is weak and narrow it can become a deep crease which is a haven for bacteria and fungus. This deep crease is common, but abnormal.

The collateral groove runs along either side of the frog. The outer wall of the groove is made up of the wall of the bar and sole and the wall on the other side comprises the wall of the frog.

The angle of the bar is commonly known as the heel, although this can be misleading. This area is designed to receive the initial impact of the horse’s stride and a healthy angle of the bar comprises mainly of pliable inner wall, enabling it to dissipate excess shock. This area plays a major role in supporting the weight of the horse and it is important that it remains correctly balanced.

The heel bulbs are at the back of the foot. The heels make an abrupt turn toward the toe to form the bars, which are supported by the internal digital cushion.

The Skeletal System

The bones of the foot provide a frame and facilitate locomotion. They are light, yet strong enough for the rigors of weight bearing and concussion during trotting and galloping.

Third phalanx (P3)--It is also called the distal phalanx, os pedis, pedal bone, and coffin bone. It is the most distal (farthest out from the body) of the four bones comprising the digit (equivalent to man's finger or toe) and is completely enclosed by the hoof. Interaction between this bone and the surrounding hoof structures serves as a shock absorber for the horse in motion. It does not have a medulla (bone marrow) and has an unusually high density of tiny blood vessels. Surrounding the bone are the laminae (leaves) which hold the wall to the bone. Underneath, the bone is covered in solar corium which produces the sole. Caudally, the bone attaches to the cartilage of the digital cushion. Tendons and ligaments are attached to this bone and a dense network of blood vessels run around and through the distal phalanx.

Second phalanx (P2)--This bone is also called the middle phalanx, os phalanx, and the short pastern bone. It rests on the third phalanx and articulates with it and the first phalanx, which is above P2.
Distal sesamoid--This structure is often called the navicular bone or shuttle bone and is located on the back surface of both the second and third phalanx. This bone is shaped like a boat. The deep digital flexor tendon passes over the bone on its way to attach to the distal phalanx. It is an integral part of the shock absorbing mechanism, along with its ligamentous attachments.
First phalanx (P1)--This bone is also called the os compendale, os saffragenous, and long pastern bone. The first phalanx is the longest bone of the digit. It rests on the second phalanx and also articulates with the third metacarpal (in the foreleg) or metatarsal (in the hind leg), also called the cannon bone. It is closely attached to the paired proximal sesamoids by strong ligaments.

Soft Tissue Structures of the Foot

Tendon of the common digital extensor muscle--It is considered in this discussion, the authors say, because of its insertion onto a process (protrusion) of the third phalanx and on the anterior (front) surfaces of the second and third phalanges. Its action is to extend the digit.
Deep flexor tendon--This is an extension of the muscle lying on the back part of the leg and which inserts on the posterior aspect of the third phalanx. It flexes the digit.

Superficial flexor tendon--This structure runs parallel to the deep flexor tendon and splits below the fetlock to insert on both the first and second phalanges. It also flexes the digit, but not the coffin joint (between P2 and P3).

The navicular bursa lies between the deep digital flexor tendon and the navicular bone, changing the direction of the bone and protecting it from damage. This synovial sack is similar to a joint and may communicate with the distal interphalangeal (coffin) joint.

The digital cushion is a wedge-shaped structure with a fibro-fatty composition that sits directly behind the third phalanx and above the sensitive frog. It is very elastic and has very few blood vessels or nerves. When the digital cushion is compressed by the pastern bones and frog with weight bearing, it absorbs shock, cushions the bones, and is divided by the frog's exterior spine so that it is forced outward and obliquely upward against the lateral cartilages. Flat footed horses often have a severely atrophied digital cushion.

The lateral cartilages are part fibrous tissue and part hyaline cartilage. They slope upward and backward from the wings of the coffin bone and reach above the margin of the coronary band.

The blood supply of the foot is extensive. The blood is pumped into the foot by arteries, with valves to prevent retrograde flow during weight bearing. Blood is returned to the heart by extensive venous plexi and veins. The venous plexi are multidirectional and contain no valves, allowing blood to follow the path of least resistance during weight bearing. The veins above the coronet have valves to prevent retrograde flow. Approximately 80-90% of fluid is picked up by the venous return system, leaving the remainder to be drained by the lymphatic system, which requires pumping to move fluids as it lacks this capability. Horses that ‘stock up’ have fluid stasis during stall time from not moving enough to remove the fluid.

Fox Run Equine Center

www.foxrunequine.com

(724) 727-3481

07/24/2025

We sometimes forget how important nutrition is to horses. While being too thin is dangerous and can cause many health problems, obesity is just as risky.

One study showed that 53 percent of foals born to obese mares developed OCD lesions

05/08/2025

But really….

Don’t forget to schedule your injections.💉
Your horse will thank you!

03/23/2025

Available soon injectable Omperazole to treat gastric ulcers in your horse.
So you can now treat for gastric ulcers with one intramuscular injection every 5 to 7 days. No need to give before meals or on empty stomach. Helps to keep gastric acid production down for longer periods of time than oral administration.

12/08/2024

Saw this old Far Side cartoon from my vet school days. Thought I would share it for a laugh.
I’m just glad equine medicine has progressed a bit from my vet school days. I’m sure all our clients do as well.

11/25/2023

We are excited to introduce several new additions coming to our practice for 2024:
1) A 3.5 meter Gastroscope that can be taken in the field. This will be a huge benefit in being able to actually make the diagnosis of gastric ulcers in the field and not just suspecting them.
2) Stall side testing for IgG, progesterone, ACTH and insulin. So will be a big benefit in testing for Cushing and metabolic disorders or insulin resistance stall side without having to send samples off to outside lab and waiting for results.
3) Also will be going with a better practice management software that will improve record keeping, client communications, and access to clients records and medical histories everywhere we go in the field.
-
Finally thanks to all our clients that have contributed to our practice’s continued growth to make these things possible.

09/11/2022

Now Available through us or coming soon to our online pharmacy the generic version of Equioxx 57mg tablets. 20% savings compared to name brand.

06/16/2022

Just wanted to send a big thank you out to all my clients that have personally mentioned me in post of their horses doing well in their particular sporting event and thanking me for helping them stay healthy as well to those that send me wonderful pictures of their horses doing well and saying thank you. At the end of the day that means so much to me to know I have helped your horses. Being a veterinarian is hard at times with all the long days and sometimes nights of work but hearing these stories of success helps make it all worth it. I have to say I have the best clients and as always I appreciate all your support over the 30 years of practice now. Below is just a couple pictures I have received recently saying their horses are doing good.