|
Houston Spine and Disc: Back Pain Anatomy
The spinal column (or vertebral column) extends from the skull to the pelvis and is made up of 33 individual bones termed
vertebrae. The vertebrae are stacked on top of each other group into four regions:
| Term |
# of Vertebrae |
Body Area |
Abbreviation |
| Cervical |
7 |
Neck |
C1 – C7 |
| Thoracic |
12 |
Chest |
T1 – T12 |
| Lumbar |
5 or 6 |
Low Back |
L1 – L5 |
| Sacrum |
5 (fused) |
Pelvis |
S1 – S5 |
| Coccyx |
3 |
Tailbone |
None |
The cervical spine is further divided into two parts; the upper cervical region (C1 and C2), and the lower cervical
region (C3 through C7). C1 is termed the Atlas and C2 the Axis. The Occiput (CO), also known as the Occipital Bone, is a flat
bone that forms the back of the head.
Atlas (C1)
The Atlas is the first cervical vertebra and therefore abbreviated C1. This vertebra supports the skull. Its appearance is different
from the other spinal vertebrae. The atlas is a ring of bone made up of two lateral masses joined at the front and back by the anterior
arch and the posterior arch.
The Axis is the second cervical vertebra or C2. It is a blunt tooth-like process that projects upward. It is
also referred to as the 'dens' (Latin for tooth) or odontoid process. The dens provides a type of pivot and collar allowing the head
and atlas to rotate around the dens.
Thoracic Vertebrae (T1 - T12)
The thoracic vertebrae increase in size from T1 through T12. They are characterized by small pedicles, long spinous processes, and
relatively large intervertebral foramen (neural passageways), which result in less incidence of nerve compression.
The rib cage is joined to the thoracic vertebrae. At T11 and T12, the ribs do not attach and are called
"floating ribs." The thoracic spine range of motion is limited due to the many rib/vertebrae connections and the long spinous
processes.
Lumbar Vertebrae (L1 - L5)
The lumbar vertebrae graduate in size from L1 through L5. These vertebrae bear much of the body's weight and related biomechanical
stress. The pedicles are longer and wider than those in the thoracic spine. The spinous processes are horizontal and more squared in
shape. The intervertebral foramen (neural passageways) are relatively large but nerve root compression is more common than in the thoracic
spine.
Purpose of the Vertebrae
Although vertebrae range in size; cervical the smallest, lumbar the largest, vertebral bodies are the weight bearing structures of the spinal
column. Upper body weight is distributed through the spine to the sacrum and pelvis. The natural curves in the spine, kyphotic and
lordotic, provide resistance and elasticity in distributing body weight and axial loads sustained during movement.
The vertebrae are composed of many elements that are critical to the overall function of the spine, which include the intervertebral discs and
facet joints.
Functions of the Vertebral or Spinal Column Include:
| Protection |
- Spinal Cord and Nerve Roots
- Many internal organs
|
| Base for Attachment |
- Ligaments
- Tendons
- Muscles
|
| Structural Support |
- Head, shoulders, chest
- Connects upper and lower body
- Balance and weight distribution
|
| Flexibility and Mobility |
- Flexion (forward bending)
- Extension (backward bending)
- Side bending (left and right)
- Rotation (left and right)
- Combination of above
|
| Other |
- Bones produce red blood cells
- Mineral storage
|
|
