Spinal Cord Injury PDF

Summary

This document provides an overview of spinal cord injuries. It details the causes, symptoms, and potential complications of spinal cord injuries. It also briefly describes the different types of injuries, and the process of clinical manifestations of spinal cord injuries.

Full Transcript

A spinal cord injury refers to any damage to the spinal cord, or the
bundle of nerves protruding from the bottom of the spinal cord, called
cauda equina. Now, let's quickly review some anatomy and physiology. The
spinal column consists of 33 vertebrae organized in 5 main regions: 7
cervical, 12 thoracic, 5 lumbar, 5 sacral, and 5 coccygeal. Together,
the vertebrae create a bony canal that houses the spinal cord and
surrounding meninges. The spinal cord is a bundle of nerve fibers that
serves as a highway for information to travel between the brain and the
rest of the body. This information is transmitted by highly specialized
spinal tracts that carry motor information down the spinal cord to the
body, and sensory information from the body up to the brain. The spinal
cord travels through the spinal canal, and stops at the second lumbar
vertebra. Here it ends in a cone, called conus medullaris. Since the
spinal cord is shorter than the spinal canal, the nerves of the lumbar,
sacral and coccygeal regions have to travel down the spinal canal to
reach their corresponding openings. In doing so, they form a nerve
bundle below the spinal cord called the cauda equina. Now, spinal cord
injuries can have a number of different causes. In younger clients, most
spinal cord injuries are caused by a motor vehicle crash; penetrating
trauma, like a gunshot or a stab wound in the back; or recreational
injuries, like those caused by impact sports or diving in shallow
waters.

In older clients, though, spinal cord injuries are most often caused by
severe falls, such as falling from a ladder; as well as medical
conditions, including large tumors, infections, or degenerative diseases
of the spine, like a protruding intervertebral disk or osteophytes. Risk
factors for developing a spinal cord injury include engaging in
high-risk behaviors, such as not wearing safety equipment when playing
sports, speeding, and diving in shallow waters. Lastly, clients with a
history of bone or joint disorders are also at a higher risk, since even
minor trauma could damage the weakened bones, thereby injuring the
spinal cord. Okay, so the pathology of a spinal cord injury can be
primary and secondary. Primary injury typically involves a sudden,
traumatic impact on the spine that fractures or dislocates vertebrae,
causing compression on the spinal cord. After the primary injury, there
is usually additional damage that occurs over the following days or
weeks because of the body's natural response to trauma, which is known
as the secondary injury. The acute phase of the secondary injury begins
immediately after the spinal injury, and includes bleeding, ischemia,
and swelling on the site of the injury. As time goes by, there can be
additional neuronal cell death caused by oxidative stress,
neurotransmitter accumulation, and demyelination of surviving axons.
Eventually, specialized glial cells begin to form a scar at the site of
injury, which creates a barrier across the injured tissue that prevents
the spread of neuronal damage. Unfortunately, since neurons have limited
regenerative capacity, these injuries tend to yield permanent damage to
the spinal cord.

All right, now clinical manifestations of spinal cord injuries depend on
the severity and location of the injury, and may include partial or
complete loss of sensation and motor function below the level of injury.
Upper cervical lesions lead to quadriplegia, so there is loss of
function of the limbs or trunk, and a ventilator is needed to maintain
respiration. On the other hand, lower cervical lesions can still lead to
a complete loss of trunk and lower limb function, however, some
movements of the upper limb may remain intact, allowing for functions
such as feeding or using a wheelchair. Next, thoracic lesions can also
lead to paraplegia, where there's paralysis of both lower limbs, but
upper limb function remains intact. Thoracic lesions from T1 to T12, and
lower cervical injury at C5 to C7, can impair intercostal muscle
function, leading to shallow, ineffective breathing and impaired
coughing. Lower thoracic and lumbar lesions can lead to some level of
dysfunction of the lower limbs, resulting in difficulties with walking
and ambulation. Finally, if the injury affects the nerves of the cauda
equina, there may be decreased bowel and bladder control, as well as
sexual dysfunction. It can also cause saddle anesthesia, which is a loss
of sensation in the saddle area, which includes the buttocks, inner
surface of the thigh, and perineum. Moreover, severe spinal cord
injuries may result in spinal shock, which is a transient condition that
develops shortly after an acute injury. It is characterized by flaccid
paralysis, loss of sensation, and loss of deep tendon and sphincter
reflexes below the level of injury. Neurogenic shock can also occur
where the sympathetic neurons are damaged, leading to unopposed
parasympathetic activity. This can cause peripheral vasodilation,
hypotension, and bradycardia.

Diagnosis of a spinal cord injury starts with the client's history and
physical assessment. Next assess the severity of the injury by testing
muscle function, as well as testing of sharp and dull sensation, and
proprioception at each dermatome level. Then it's scored using the
American Spinal Injury Association or ASIA scale. The scale ranges from
class A for a complete cord injury to E for normal nervous function. In
addition, imaging tests like X-rays, CT scan, or MRI can be used to look
for the exact cause of spinal cord injury. Treatment for spinal cord
injuries begins with supportive measures to stabilize the client. This
may include immobilizing the spinal column until an imaging test can be
performed, as well as using ventilatory and cardiovascular support, if
needed. After stabilization, treatment of spinal cord injuries is aimed
at addressing the underlying cause, when possible. This may involve
performing surgery to relieve any pressure from the spinal cord, known
as decompression surgery, as well as stabilizing the spine to protect
the spinal cord from further damage. Some clients may also receive
corticosteroids to help reduce the inflammation. After the acute phase,
much of the treatment is geared towards rehabilitation, which may
involve optimal pain management, along with physical and occupational
therapy. Finally, the goal of long-term care is to prevent and treat
complications, as well as promote the client's functional independence.

All right, now let's look at the nursing care you will be providing for
a client with a spinal cord injury. Your priority nursing goals are to
assist in preventing complications and providing emotional support.
First, work with the healthcare team to prevent complications by
preventing further injury to your client's spine. Apply a cervical
collar to immobilize the neck, and keep their head in a neutral
position. When repositioning your client, ask additional colleagues to
help you move your client's body as a unit using the log-roll technique.
Then, support your client's respiratory function by initiating high flow
oxygen and continuous pulse oximetry. Assess their lung sounds as well
as their respiratory rate and depth. Report to health care provider
immediately any signs of respiratory dysfunction; including ineffective
cough, SpO2 less than 93%, diminished lung sounds, or crackles, and
tachypnea. Prepare to assist in intubation and mechanical ventilation,
as indicated. Be sure to closely monitor their vital signs and watch for
signs of neurogenic shock. Report bradycardia, hypotension, and warm,
flush skin in the lower extremities. Administer the prescribed IV fluids
and vasopressor medication, and atropine for symptomatic bradycardia.
When your client is stable, prepare them for decompression and
stabilization. Now, watch for signs of autonomic dysreflexia which is
another significant complication. Report anxiety, headache, nasal
stuffiness, bradycardia, and paradoxical hypertension, as well as
coolness below the level of injury, and diaphoresis and flushing above
the level of injury.

Then, elevate the head of the bed, check for constrictive clothing and
loosen it as needed, and look for other causes including bowel and
bladder fullness. If these are present, immediately catheterize your
client to empty the bladder, or clear the fecal impaction. If needed,
administer the prescribed antihypertensive medication. Other
interventions include administering the prescribed medications to
prevent severe pain as well as to prevent venous thromboembolism; use
pressure distribution surfaces and help your client change their
position at least every 2 hours to prevent the formation of pressure
injuries; provide parenteral or enteral nutrition to prevent negative
nitrogen balance and support healing; collaborate with physical therapy
for early mobilization, as appropriate, to prevent contractures.
Finally, support your client emotionally. Recognize that they will
experience disturbances in body image and self-concept, and provide
opportunities for them to talk about their feelings regarding their
diagnosis. Be sure to assess the effectiveness of their support system,
and ensure they have a referral for counseling services. Continue to
work with the interdisciplinary team to coordinate their care during
recovery, and to provide your client with the resources they need to
transition home safely, including home health and rehabilitation
services.All right, moving on to client and family teaching.

Talk to your client about the function of the spinal cord, and explain
how the injury blocks messages that travel through the spinal cord
between their brain and the rest of your body. Explain how this causes a
loss of feeling, movement, and function. Then, review the plan of care,
teach them about their ongoing treatments, and allow time for them to
ask questions. Remind them to be engaged in their rehabilitation care,
which will support their ability to develop self-care activities and as
much independence as possible. Also encourage them to participate in
local support groups so they can make connections with others who have a
spinal cord injury. Then, discuss ways they can manage their care at
home. Remind your client that they may have difficulty with emptying
their bowel and bladder, and to prevent autonomic dysreflexia, teach
them to follow a toileting schedule to assist with elimination. If
needed, be sure to teach your client about self-catheterization. Also
encourage them to drink plenty of fluids, and eat a diet high in fiber,
fruits, and vegetables to prevent constipation; and talk to them about
following a bowel routine to ensure daily emptying of the bowels.
Instruct them to contact their healthcare provider right away if they
have trouble with urinary or bowel elimination; and to reflexia if they
notice signs of autonomic dysreflexia, including a sudden onset of
anxiety, headache, nasal stuffiness, a cool feeling of coolness below
their level of injury and sweating above the level of injury.

Be sure to stress the importance of changing positions at least every 2
hours, use devices that distribute pressure off of bony prominences, and
perform proper skin care after toileting. Instruct them to contact their
healthcare provider right away if they develop sores on their heels,
back, elbows, tailbone, or hips. A spinal cord injury refers to any
damage to the spinal cord, and can be caused by direct trauma, as well
as tumors, infections, or degenerative diseases of the spine. Risk
factors include engaging in high risk behaviors and bone and joint
diseases. Now, primary injury is often caused by trauma to the spine,
while secondary injury occurs afterwards due to additional damage from
bleeding, ischemia, swelling and other causes. As time goes by, neuronal
cell death and demyelination of surviving axons can occur, along with
the formation of scar tissue. Clinical manifestations will depend on the
severity and location of the injury and may include partial or complete
loss of sensation and function below the level of injury. Moreover,
severe spinal cord injuries may result in spinal shock, which is a
transient condition that develops shortly after an acute injury. It is
characterized by flaccid paralysis, loss of sensation, and loss of deep
tendon and sphincter reflexes below the level of injury.

Another complication of spinal cord injury is neurogenic shock, which is
characterized by unopposed parasympathetic innervation that results in
profound vasodilation, hypotension, and bradycardia. Diagnosis starts
with the client's history and physical assessment. The severity of the
injury can be assessed by testing muscle function, sensation, and
proprioception at each dermatome level, and then scored using the ASIA
scale. Imaging tests can also be used to look for the exact cause of
spinal cord injury. Treatment for spinal cord injuries involves
supportive measures, including immobilizing the spinal column as well as
ventilatory and cardiovascular support. After stabilization, treatment
of spinal cord injuries is aimed at addressing the underlying cause, and
performing decompression and stabilization surgery. After the acute
phase, much of the treatment is geared towards rehabilitation, which may
involve optimal pain management, along with physical and occupational
therapy to promote the client's functional independence. Goals of
nursing care include preventing complications and providing emotional
support. Client and family teaching is focused on self-management,
continued rehabilitation, and when to seek medical attention.