The new ice age - DVM
News Center
DVM Featuring Information from:


The new ice age
Are you ready to offer your clients advice about the range of cold-therapy options available?

Volume 39, Issue 8

Effects on humans and horses

Photo 5: This horse is wearing an ice boot that allows either ice cubes, crushed ice or ice packs to be placed in packets inside the wrap. The neoprene boot is then applied to the desired area of the leg, and compression is achieved because of the elasticity and stretch of the wrap. The combination of cold and compression produces significant tendon and ligament cooling.
Most cold therapy is applied for no more than 20 to 30 minutes at a time, with an hour between treatments. The majority of cold-therapy studies have been done in humans, which is proble-matic in that horses do not seem to respond to cold and its application in the same manner as do humans. For example, reflex vasodilatation was not recognized in horses after 30 minutes of cold therapy (4 degrees Celsius).

Sonya Nightingale, a physiotherapist at the Highworth Physiotherapy Clinic in Ireland, has investigated the comparative effects of topical cooling agents in horses and sees the large body of human cold therapy data as potentially confusing when applied to horses.

Photo 6: (ProChoice boot) This shows the interior of an ice boot with the various compartments that can be filled with ice.
"Most research into the use of cold has been done in the human field in applications over muscle tissue", she writes. "In the horse, cold therapy usually is used in the lower limb over tendon and bone and over considerably hairier skin, so the results of human research are therefore probably not transferable to the equine field and may result in inappropriate treatment".

Along with vasoconstriction, cold therapy also promotes anti-inflammatory effects by inhibiting histamine, neutrophil activation, collagenase activity and synovial leukocytes. Cold also decreases tissue metabolism — as much as 50 percent when temperature is dropped by 10 degrees. Slower metabolism reduces the cells' demands for oxygen and can reduce tissue damage in the immediate post-injury period.

Cold has been shown to reduce muscle spasms by decreasing the activity of muscle fibers. Reduced spasm can reduce cell trauma and death and keep muscle damage to a minimum following strenuous exercise or competition. Cold also decreases nerve-conduction velocity, making tissue less sensitive; it is thought to be the biggest factor in the analgesic effect of cold therapy. A combination of these factors — reduced inflammation, reduced swelling, reduction of heat and a lessening of pain — all make cold therapy a valuable asset in equine athletic management.

Cold therapy should be started as soon as possible after exercise and certainly following trauma. Most studies show that cryotherapy started on the first day of trauma is associated with a quicker resolution of problems and return to full function than when cold treatment was started two days after injury.

In sound, healthy horses, postexercise cold therapy helps in the "cooling out" process and may reduce any potential tendon stiffness or swelling, so it, too, should be initiated as soon as possible after work.

Research done by Drs. Birch, Wilson and Goodship of the Royal Veterinary College in the United Kingdom has shown that as little as seven minutes of strenuous exercise can produce tendon and ligament temperatures of 113 degrees. Cooling these areas as soon as possible after work can reduce the potential damage that this elevated temperature may cause.


Source: DVM360 MAGAZINE,
Click here