For centuries, physical therapy has been used to help treat disease, injury, chronic pain, or disability in people. In recent
years, however, this trend has caught on in canine rehabilitation, as dogs are now routinely reaping the benefits from the
many physical modalities formerly used only to treat their owners.
Some of these therapeutic treatment methods include electrotherapy, electromagnetic fields, light therapy, hot and cold therapies,
and ultrasonography. Although all of these modalities can improve outcomes for your patients, using them alone will not guarantee
improvement. For best results, proper training is essential. In fact, certified rehabilitation professionals must complete
many hours of coursework and hands-on learning to fine-tune their diagnostic techniques and manual skills needed to apply
these physical modalities correctly. Let's take a look at each course of treatment more closely in order to better understand
the bottom-line benefits for canines.
Electrotherapy can be used for wound healing, pain control or relief, reduction of inflammation, muscle re-education, reversal
of atrophy and strengthening. This modality works at many levels, affecting both the sensory and motor nerves. At the cellular
level, electrotherapy causes nerve cell excitation and changes in cell membrane permeability, therefore stimulating protein
synthesis, osteosynthesis and fibroblast formation. At the tissue level, electrotherapy causes skeletal muscle and smooth
muscle contraction. At the segmental level, it facilitates muscle-pumping action, resulting in improved joint mobility as
well as circulatory and lymphatic drainage.
An application of electrical current through the skin, transcutaneous electrical nerve stimulation (TENS) is used primarily
to manage pain. A small, battery-operated TENS unit delivers an electrical current to the patient through electrodes placed
directly on the skin. The pulse rate, width and intensity can be adjusted according to treatment objectives. TENS works by
stimulating faster sensory nerves with an electrical impulse, causing an overload of interneurons, which limits the ability
of sensory nerves to transmit pain signals to the brain, creating analgesia for the patient. The effect of this modality is
short-lived, however, as it generally does not last for more than an hour. In veterinary rehabilitation, TENS is used immediately
post-operatively and during therapy to help a patient work through a painful treatment.
Stimulating the nerve that causes the muscles to contract, neuromuscular electrical stimulation (NMES) is used to rehabilitate
muscles. This method is delivered to the patient via leads and flexible, low-resistance electrodes that conform to the skin.
NMES can be used to help prevent muscle atrophy, increase local blood circulation, and maintain or increase joint mobility.
It is particularly useful in patients with edema, delayed wound healing, or in those unable to perform voluntary movement.
The NMES unit features many adjustable variables, including intensity, pulse duration, current, frequency, on-off times, ramp
duration and treatment duration. Ramp duration — the amount of time from the onset of the current until the full strength
is delivered — is particularly important in veterinary rehabilitation. In human physical therapy, the therapist can explain
to the patient how the current and contraction will feel. We don't have this luxury with our patients; therefore, we must
provide a slow, gradual onset of contraction strength to alleviate as much discomfort as possible. An NMES treatment generally
lasts 15 to 20 minutes and achieves best results when used two to three times a week.
Contraindications for electrotherapy include treatment over areas of electrical current, such as pacemakers, the carotid sinus,
the cervical ganglia and the heart. This modality should be avoided (or at least used with caution) in pregnant patients or
in those with a malignancy.
Pulsed electromagnetic field (PEMF) therapy is used to speed healing and relieve pain. Exposure to this combination of electric
and magnetic fields can promote ion transport across cell membranes, improving cell metabolism and healing. Used since the
1970s in human medicine to treat delayed union fractures, PEMF is used in veterinary rehabilitation for pain management in
orthopedic injuries and in chronic conditions, including hip dysplasia. Many products on the market today deliver PEMF therapy
to canine patients, the most popular of which are jackets and beds or pads. All are battery-operated with timers that allow
for a standard 20- to 30-minute treatment session.