00:00
So let's look a little bit closer at how we approach various types of spinal cord pathology
and we're going to walk through those 3 localizations in a patient who presents with
findings concerning for myelopathy. We want to localize that to the extradural space,
the intradural space, or the intramedullary space. Here we see a schematic of
extradural pathology, and that is pathology outside the dura. This may be in the
epidural venous plexus as you see this large red lesion here or arising from the vertebral
body and compressing the spinal cord backwards. There's a couple of features that
we see in patients presenting with this type of pathology. First of all, we see pain.
00:40
Back pain is really common from extradural pathology. The spinal cord itself doesn't
actually feel pain. It just carries all the sensory nerves that carry perception and
awareness of a painful stimulus. The pain fibers live in the dura and so extradural
pathology that compresses the dura will present with pain and back pain is a red flag
for potentially an extradural pathology. Frequently, we see extradural compression
that is asymmetric or eccentric and you can see that here. The compression of the
spinal cord is coming from laterally in to medially and so it may present with asymmetric
onset of symptoms. And then finally, we see that this compressive pathology starts
from the outside of the cord and compresses in. And in a few minutes, we'll look at the
homunculus of the spinal cord, but the fibers that travel around the outside typically
innervate and come from the legs and so we see leg symptoms first and the fibers
that are on the inside of the spinal cord carry information about the arms and so
we see arm or upper extremity pathology second. In that onset of leg symptoms
followed by progressive difficulty with arm symptoms is suggestive of an extradural
process. How about the intradural space? What does that look like? Well, here we see a
schematic of a typical intradural extramedullary process, that means outside the
spinal cord. Things like meningiomas and peripheral nerve sheath tumors and those
sorts of pathology. This is often eccentric again compressing the spinal cord on one
side more than the other and patients may present with asymmetric symptoms.
02:13
We can see pain but it typically develops later in the course of this presentation as the
dura is slowly compressed and we often see lower motor neuron findings at the level
of the lesion and we can see upper motor neuron findings below the level of this lesion.
02:32
And then lastly, we can see intramedullary pathology and that is pathology within
the spinal cord itself and we're going to talk through some of the typical intramedullary
syndromes that are important for you to know. In general, these are things that
begin and develop within the spinal cord and expand the spinal cord or result in atrophy
and contraction and reduction in tissue over time. Often, we don't see pain from
intramedullary pathology because the dura is not compressed and pain is a feature
of dural compression. We can see early bowel and bladder dysfunction and that
should be suggestive of an intramedullary process. Let's look a little bit more at the
somatotopy, the organization of the spinal cord and think about how this can help
guide us in our examination of patients. We know the spinal cord carries motor
information which descends in the white matter tracts and then exit out the individual
segments of the spinal cord. The spinal cord also carries ascending sensory information
up the white matter sensory tracts and then up into the brainstem and the thalamus
to relay with the brain. When we think about those descending tracts, here you can
see in this schematic an example of the lateral corticospinal tract. The corticospinal
tract carries voluntary motor information, helps us to move our arms and legs when
we want to and when we think about it. The lateral corticospinal tract carries about
85% of the motor information and the motor fibers going to the limbs, into the body.
04:02
This is the main voluntary motor control. It controls upper extremity motor symptoms
and nervous innervation and lower extremity motor information. Pathways that
are more lateral carry information for the legs and you can see the sacrum followed
by the lumbar fibers and the thoracic fibers and the cervical fibers. Information and
motor information, motor fibers for the arms are on the medial aspect within the spinal
cord. And so again, externally compressive processes initially compress the nerves
that are going to the lower extremities so we see lower extremity symptoms
first followed by upper extremity symptoms. There there's also the ventral
corticospinal tract which carries about 15% of the voluntary motor fibers. Let's look
a little bit more at the sensory white matter tracts. We have 2 major sensory tracts
in the spinal cord. The first is the dorsal column medial lemniscal system. This carries
information for vibration, proprioception, and some deep touch. And again, you can
see the somatotopic organization with the sacral fibers medial, lumbar, thoracic,
and cervical fiber is a little bit more lateral. There is also the lateral spinal thalamic tract
which carries information for pain and temperature and again you can see that
somatotopic organization with lower extremity sensory information lateral and cervical
sensory information carried medial. There is a ventral spinothalamic tract which
carries information about light touch.