The spinal cord is the central part of the communication system between the brain and body. It is flexible, nearly an inch in diameter at its widest point, and 18 inches long. It starts below the base of the brain (in the neck, also known as the cervical spine) and extends downward, ending near the waist or low back (lumbar spine). The spinal cord and nerve roots comprise the central nervous system.
Thirty-one pairs of nerve roots branch off the spinal cord and go beyond the spinal column to enable the body to move and feel. These nerves form the peripheral nervous system. Below are the number of pairs of spinal nerves at each level (region) of the spinal column.
Three sheaths or membranes (meninges) surround and protect the spinal cord. Cerebrospinal fluid, a clear body fluid, circulates between the meninges, brain, and spinal cord. The brain and spinal cord float in this protective fluid. The three meninges are:
The design of the spine's vertebrae creates a hollow in the middle of the spinal column. The spinal cord rests in this protective bony environment.
For spinal cord injury, it's particularly important to understand the autonomic nervous system. This system of nerves sends sensory impulses to the brain from the arteries, heart, lungs, and organs in the abdomen and pelvis. These involuntary impulses occur without your conscious knowledge. The autonomic nerves affect such reactions as reflexes and the body's response to temperature changes.
There are two types of autonomic nerves: sympathetic and parasympathetic.
Autonomic nerves influence involuntary body processes such as breathing, heartbeat, digestion, and blood pressure. The autonomic nervous system works to maintain the body's homeostasis, or stable internal environment. When a spinal cord injury disrupts one or more of these involuntary body processes, the outcome can be life-altering.