- Anesthesiologist specializing in non-surgical spine care
Fellowship-trained in Interventional Spine
Overview | Causes | Symptoms | Diagnosis | Treatment | FAQ
Back strain is a fairly broad category called “soft tissue injury,” which covers muscles, tendons and ligaments. About 80% of back and neck pain is muscle-related.
The stomach muscles, or abdominals, enable the back to bend forward. They also assist in lifting. The abdominals work with the buttock muscles to support the spine. The oblique muscles go around the side of the body to provide additional support to the spine.
Another type of strain relates to spinal ligaments that run in front and in back of the vertebral bodies. Tendons, which also connect muscles in the spine, can develop inflammation, or tendonitis.
Some people believe that part of what makes the back
muscles more prone to strain is that they are shorter than other big
muscles in the body. The muscles in our thighs that enable us to walk,
run and jump are longer and less prone to strain. It’s very unusual
to strain a thigh muscle.
Muscles in the back can strain or spasm and form a hard lump, like
a charley horse in the leg. Back muscle spasms can be caused by injury
and pain, whether the source is muscle strain, or a disc problem.
A spasm, defined as an involuntary convulsive contraction of muscle
fibers, can be excruciating. The muscle spasm can be steady or come
in waves of contractions. Your muscle is sending you a signal that
it has been pushed beyond its ability.
A symptom of muscle strain may be an excruciating spasm in the back
that is very painful.
Outlined below are some of the diagnostic tools that your physician may use to gain insight into your condition and determine the best treatment plan for your condition.
Medical history: Conducting a detailed medical history helps the doctor better understand the possible causes of your back and neck pain which can help outline the most appropriate treatment.
Physical exam: During the physical exam, your physician will try to pinpoint the source of pain. Simple tests for flexibility and muscle strength may also be conducted.
X-rays are usually the first step in diagnostic testing methods. X-rays show bones and the space between bones. They are of limited value, however, since they do not show muscles and ligaments.
MRI (magnetic resonance imaging) uses a magnetic field and radio waves to generate highly detailed pictures of the inside of your body. Since X-rays only show bones, MRIs are needed to visualize soft tissues like discs in the spine. This type of imaging is very safe and usually pain-free.
CT scan/myelogram: A CT scan is similar to an MRI in that it provides diagnostic information about the internal structures of the spine. A myelogram is used to diagnose a bulging disc, tumor, or changes in the bones surrounding the spinal cord or nerves. A local anesthetic is injected into the low back to numb the area. A lumbar puncture (spinal tap) is then performed. A dye is injected into the spinal canal to reveal where problems lie.
Electrodiagnostics: Electrical testing of the nerves and spinal cord may be performed as part of a diagnostic workup. These tests, called electromyography (EMG) or somato sensory evoked potentials (SSEP), assist your doctor in understanding how your nerves or spinal cord are affected by your condition.
Bone scan: Bone imaging is used to detect infection, malignancy, fractures and arthritis in any part of the skeleton. Bone scans are also used for finding lesions for biopsy or excision.
Discography is used to determine the internal structure of a disc. It is performed by using a local anesthetic and injecting a dye into the disc under X-ray guidance. An X-ray and CT scan are performed to view the disc composition to determine if its structure is normal or abnormal. In addition to the disc appearance, your doctor will note any pain associated with this injection. The benefit of a discogram is that it enables the physician to confirm the disc level that is causing your pain. This ensures that surgery will be more successful and reduces the risk of operating on the wrong disc.
Injections: Pain-relieving injections can relieve back pain and give the physician important information about your problem, as well as provide a bridge therapy.
Surgery is never appropriate for muscle strain.
As with any muscle injury, it’s natural for an individual to stop moving the injured area and wait for it to heal. Ironically, this is counter-productive. Restricting movement causes the muscle to weaken, become less flexible and receive less circulation. In fact, gentle stretching and exercise is the best way to resolve the injury by getting it moving and increasing circulation.
What’s the difference between a sprain and a strain?
While someone may argue that the two words are different, that a sprain is a more serious injury than a strain, in reality, sprain and strain have evolved to mean essentially the same things to doctors and lawyers. Both words relate to an overworked muscle, ligament or tendon that is overstretched.
Some may argue that strain relates to stretching or tearing of muscles or tendons, while sprain relates to tearing of ligaments or tissues in a joint area. For example, if bones in a joint are forced beyond a comfortable range of motion, the joint may be sprained.
Another word that you may hear is “muscle spasm,” where a muscle locks up in an excruciating, hard lump.
What’s the difference between a simple strain or a more serious herniated disc?
Most people erroneously think that the more excruciating the pain,
the more likely that you herniated a disc. That is not the case at
all. In some cases a back spasm can knock you down to your knees. A
person can have excruciating pain, but if it is mostly in the low back,
it’s probably not a herniated disc. Typically, a herniated disc
in your back will radiate pain down into your leg, or pain will radiate
down your arm if you have a blown disc in your neck.