Neck X-ray Views

[Bartolome Beacham]

X-rays use invisible electromagnetic energy beams to make images of internal tissues, bones, and organs on film. Standard X-rays are performed for many reasons. These include diagnosing tumors or bone injuries.

X-rays are made by using external radiation to produce images of the body, its organs, and other internal structures for diagnostic purposes. X-rays pass through body tissues onto specially-treated plates (similar to camera film) and a "negative" type picture is made (the more solid a structure is, the whiter it appears on the film). Instead of film, X-rays are now typically made by using computers and digital media.

When the body undergoes X-rays, different parts of the body allow varying amounts of the X-ray beams to pass through. Images are made in degrees of light and dark. It depends on the amount of X-rays that penetrate the tissues. The soft tissues in the body (like blood, skin, fat, and muscle) allow most of the X-ray to pass through and appear dark gray on the film. A bone or a tumor, which is denser than soft tissue, allows few of the X-rays to pass through and appears white on the X-ray. At a break in a bone, the X-ray beam passes through the broken area. It appears as a dark line in the white bone.

X-rays of the spine may be performed to evaluate any area of the spine (cervical, thoracic, lumbar, sacral, or coccygeal). Other related procedures that may be used to diagnose spine, back, or neck problems include myelography (myelogram), computed tomography (CT scan), magnetic resonance imaging (MRI), or bone scans. Please see these procedures for additional information.

The spinal cord, a major part of the central nervous system, is located in the vertebral canal and reaches from the base of the skull to the upper part of the lower back. The spinal cord is surrounded by the bones of the spine and a sac containing cerebrospinal fluid. The spinal cord carries sense and movement signals to and from the brain and controls many reflexes.

X-rays of the spine, neck, or back may be performed to diagnose the cause of back or neck pain, fractures or broken bones, arthritis, spondylolisthesis (the dislocation or slipping of 1 vertebrae over the 1 below it), degeneration of the disks, tumors, abnormalities in the curvature of the spine like kyphosis or scoliosis, or congenital abnormalities.

You may want to ask your health care provider about the amount of radiation used during the procedure and the risks related to your particular situation. It is a good idea to keep a record of your past history of radiation exposure, like previous scans and other types of X-rays, so that you can inform your health care provider. Risks associated with radiation exposure may be related to the cumulative number of X-ray exams and/or treatments over a long period of time.

If you are pregnant or suspect that you may be pregnant, you should notify your health care provider. Radiation exposure during pregnancy may lead to birth defects. If it is necessary for you to have a spinal X-ray, special precautions will be made to minimize the radiation exposure to the fetus.

You will be positioned on an X-ray table that carefully places the part of the spine that is to be X-rayed between the X-ray machine and a cassette containing the X-ray film or digital media. Your health care provider may also request X-ray views to be taken from a standing position.

Some spinal X-ray studies may require several different positions. Unless the technologist instructs you otherwise, it is extremely important to remain completely still while the exposure is made. Any movement may distort the image and even require another study to be done to obtain a clear image of the body part in question. You may be asked to breathe in and out during a thoracic spine X-ray.

While the X-ray procedure itself causes no pain, the manipulation of the body part being examined may cause some discomfort or pain. This is particularly true in the case of a recent injury or invasive procedure like surgery. The radiologic technologist will use all possible comfort measures and complete the procedure as quickly as possible to reduce any discomfort or pain.

Generally, there is no special type of care following an X-ray of the spine, back, or neck. However, your health care provider may give you additional or alternate instructions after the procedure, depending on your particular situation.

The spine is divided into several sections. The cervical vertebrae make up the neck. The thoracic vertebrae comprise the chest section and have ribs attached. The lumbar vertebrae are the remaining vertebrae below the last thoracic bone and the top of the sacrum. The sacral vertebrae are caged within the bones of the pelvis, and the coccyx represents the terminal vertebrae or vestigial tail.

These are the seven bones of the neck, called the cervical vertebra. The top bone, seen on the right of this picture, is called the atlas, and is where the head attaches to the neck. The second bone is called the axis, upon which the head and atlas rotate. The vertebra are numbered from one to seven from the atlas down, and are referred to as C1, C2, C3, etc.

The x-ray is used to evaluate neck injuries and numbness, pain, or weakness that does not go away. A neck x-ray can also be used to help see if air passages are blocked by swelling in the neck or something stuck in the airway.

Reviewed by: C. Benjamin Ma, MD, Professor, Chief, Sports Medicine and Shoulder Service, UCSF Department of Orthopaedic Surgery, San Francisco, CA. Also reviewed by David C. Dugdale, MD, Medical Director, Brenda Conaway, Editorial Director, and the A.D.A.M. Editorial team.

Although cervical spine radiographs are almost routine in many emergency departments, not all trauma patients with a significant injury must have radiographs, even if they arrive at the emergency department on a backboard and wearing a cervical collar. This article reviews the proper use of cervical spine radiographs in the trauma patient.

Once the decision is made to proceed with a radiographic evaluation, the proper views must be obtained. The single portable cross-table lateral radiograph, which is sometimes obtained in the trauma room, should be abandoned. This view is insufficient to exclude a cervical spine fracture and frequently must be repeated in the radiographic department.11,12 The patient's neck should remain immobilized until a full cervical spine series can be obtained in the radiographic department. Initial films may be taken through the cervical collar, which is generally radiolucent. An adequate cervical spine series includes three views: a true lateral view, which must include all seven cervical vertebrae as well as the C7-T1 junction, an anteroposterior view and an open-mouth odontoid view.13

If no arm injury is present, traction on the arms may facilitate visualization of all seven cervical vertebrae on the lateral film. If all seven vertebrae and the C7-T1 junction are not visible, a swimmer's view, taken with one arm extended over the head, may allow adequate visualization of the cervical spine. Any film series that does not include these three views and that does not visualize all seven cervical vertebrae and the junction of C7-T1 is inadequate. The patient should be maintained in cervical immobilization, and plain films should be repeated or computed tomographic (CT) scans obtained until all vertebrae are clearly visible. The importance of obtaining all of these views and visualizing all of the vertebrae cannot be overemphasized. While some missed cervical fractures, subluxations and dislocations are the result of film misinterpretation, the most frequent cause of overlooked injury is an inadequate film series.14,15

In addition to the views listed above, some authors suggest adding two lateral oblique views.16,17 Others would obtain these views only if there is a question of a fracture on the other three films or if the films are inadequate because the cervicothoracic junction is not visualized.18 The decision to take oblique views is best made by the clinician and the radiologist who will be reviewing the films.

Besides identifying fractures, plain radiographs can also be useful in identifying ligamentous injuries. These injuries frequently present as a malalignment of the cervical vertebrae on lateral views. Unfortunately, not all ligamentous injuries are obvious. If there is a question of ligamentous injury (focal neck pain and minimal malalignment of the lateral cervical x-ray [meeting the criteria in Table 2]) and the cervical films show no evidence of instability or fracture, flexion-extension views should be obtained.17,19 These radiographs should only be obtained in conscious patients who are able to cooperate. Only active motion should be allowed, with the patient limiting the motion of the neck based on the occurrence of pain. Under no circumstance should cervical spine flexion and extension be forced, since force may result in cord injury.

Although they may be considered adequate to rule out a fracture, cervical spine radiographs have limitations. Up to 20 percent11,20,21 of fractures are missed on plain radiographs. If there is any question of an abnormality on the plain radiograph or if the patient has neck pain that seems to be disproportionate to the findings on plain films, a CT scan of the area in question should be obtained. The CT is excellent for identifying fractures, but its ability to show ligamentous injuries is limited.22 Occasionally, plain film tomography may be in order if there is a concern about a type II dens fracture (Figure 1).

While some studies have used magnetic resonance imaging (MRI) as an adjunct to plain films and CT scanning,23,24 the lack of wide availability and the relatively prolonged time required for MRI scanning limits its usefulness in the acute setting. Another constraint is that resuscitation equipment with metal parts may not be able to function properly within the magnetic field generated by the MRI.

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