Terminology Terms commonly used to describe the condition include
herniated disc,
prolapsed disc,
ruptured disc, and
slipped disc. Other conditions that are closely related include
disc protrusion,
radiculopathy (pinched nerve),
sciatica, disc disease, disc degeneration,
degenerative disc disease, and black disc (a totally degenerated spinal disc). The popular term
slipped disc is a misnomer, as the intervertebral discs are tightly sandwiched between two vertebrae to which they are attached, and cannot actually "slip", or even get out of place. The disc is actually grown together with the adjacent vertebrae and can be squeezed, stretched and twisted, all in small degrees. It can also be torn, ripped, herniated, and degenerated, but it cannot "slip". Some authors consider that the term
slipped disc is harmful, as it leads to an incorrect idea of what has occurred and thus of the likely outcome. Spinal disc herniation is known in Latin as
prolapsus disci intervertebralis. ; Click images to see larger versions File:Lumbar Disc Lesions Classification.jpg|Lumbar disc lesions, classification File:ACDF coronal english.png|Normal situation and spinal disc herniation in cervical vertebrae File:Herniated Disc.png|Illustration depicting herniated disc and spinal
nerve compression File:Disc prolapse.png|Nucleus herniating through tear in
annulus (with MRI) File:Disc herniation - Degeneration Prolapse Extrusion Sequestration -- Smart-Servier.jpg|Illustration showing disc degeneration, prolapse, extrusion and sequestration
Physical examination Diagnosis of spinal disc herniation is made by a practitioner on the basis of a patient's history and symptoms, and by
physical examination. During an evaluation, tests may be performed to confirm or rule out other possible causes with similar symptoms – spondylolisthesis, degeneration,
tumors,
metastases and space-occupying
lesions, for instance – as well as to evaluate the efficacy of potential treatment options.
Straight leg raise The
straight leg raise is often used as a preliminary test for possible disc herniation in the lumbar region. A variation is to lift the leg while the patient is sitting. However, this reduces the
sensitivity of the test. A Cochrane review published in 2010 found that individual diagnostic tests including the straight leg raising test, absence of tendon reflexes, or muscle weakness were not very accurate when conducted in isolation.
Spinal imaging •
Projectional radiography (X-ray imaging). Traditional plain X-rays are limited in their ability to image soft tissues such as discs, muscles, and nerves, but they are still used to confirm or exclude other possibilities such as tumors, infections, fractures, etc. In spite of their limitations, X-rays play a relatively inexpensive role in confirming the suspicion of the presence of a herniated disc. If a suspicion is thus strengthened, other methods may be used to provide final confirmation. •
Computed tomography scan is the most sensitive imaging modality to examine the bony structures of the spine. CT imaging allows for the evaluation of calcified herniated discs or any pathological process that may result in bone loss or destruction. It is deficient for the visualization of nerve roots, making it unsuitable in the diagnoses of radiculopathy. • The presence and severity of
myelopathy can be evaluated by means of
transcranial magnetic stimulation (TMS), a neurophysiological method that measures the time required for a neural impulse to cross the
pyramidal tracts, starting from the
cerebral cortex and ending at the
anterior horn cells of the cervical, thoracic, or lumbar spinal cord. This measurement is called the
central conduction time (
CCT). TMS can aid physicians to: • determine if myelopathy exists • identify the level of the spinal cord where myelopathy is located. This is especially useful in cases where more than two lesions may be responsible for the clinical symptoms and signs, such as in patients with two or more cervical disc hernias • assess the progression of myelopathy with time, for example before and after cervical spine surgery • TMS can also help in the differential diagnosis of different causes of pyramidal tract damage. •
Electromyography and
nerve conduction studies (EMG/NCS) measure the electrical impulses along nerve roots, peripheral nerves, and muscle tissue. Tests can indicate if there is ongoing nerve damage, if the nerves are in a state of healing from a past injury, or if there is another site of
nerve compression. EMG/NCS studies are typically used to pinpoint the sources of nerve dysfunction
distal to the spine.
Differential diagnosis Tests may be required to
distinguish spinal disc herniations from other conditions with similar symptoms. •
Discogenic pain • Mechanical pain •
Myofascial pain •
Abscess •
Aortic dissection •
Discitis or
osteomyelitis •
Hematoma • Mass lesion or
malignancy • Benign tumor like
neurinoma or
meningeoma •
Myocardial infarction •
Sacroiliac joint dysfunction •
Spinal stenosis •
Spondylosis or
spondylolisthesis ==Treatment==