Spinal Cord Anatomy

Anterior Median Fissure

The anterior median fissure continues from the anterior aspect of the medulla to the end of the SC

The anterior median fissure continues from the anterior aspect of the medulla to the end of the SC

Spinal Nerves and the Dermatomes

Dermatome Distribution

A dermatome is a skin segment that receives its innervation from one specific spinal nerve

A dermatome is a skin segment that receives its innervation from one specific spinal nerve

Each spinal nerve is responsible for carrying messages about the sensation of a specific skin region to the primary somatosensory area

Referred Pain

Occurs when a specific body region shares its spinal nerve innervation with a separate dermatomal skin segment

Occurs when a specific body region shares its spinal nerve innervation with a separate dermatomal skin segment

The pain experienced by the body part is misinterpreted by the cortex as pain coming from a separate dermatomal skin segment

The pain experienced by the body part is misinterpreted by the cortex as pain coming from a separate dermatomal skin segment level

Example: Referred pain in Heart Attack

The spinal nerves that innervate the heart share interneurons that innervate the dematomal level of the left arm (T1)

When the heart experiences pain, the cortex misinterprets the origin of the pain as coming from the medial aspect of the left arm

This cortical misinterpretation occurs because the cortex does not have prior experience interpreting pain from the heart. T

This cortical misinterpretation occurs because the cortex does not have prior experience interpreting pain from the heart. The cortex relies on past experience when interpreting pain from a visceral source. Because it is uncommon for pain sensations to originate in the viscera, the cortex initially interprets the pain as coming from the left arm (dermatome T1)

As the pain increases, the cortex is able to correctly identify the source of the pain as the heart.

As the pain increases, the cortex is able to correctly identify the source of the pain as the heart.

Clinical use of the Dermatomal Distribution

When a therapist performs a sensory evaluation and determines that a specific body region does not register sensation, the therapist is then able to identify the lesion level

For example, if a patient cannot perceive sensation on the dorsal forearm, the therapist is able to determine that there is s

For example, if a patient cannot perceive sensation on the dorsal forearm, the therapist is able to determine that there is some impairment at C6 level

Transcutaneous Electrical Nerve Stimulation Unit

The use of transcutaneous electrical nerve stimulation (TENS) is based on the dermatomal distribution

The use of transcutaneous electrical nerve stimulation (TENS) is based on the dermatomal distribution

The therapist places the TENS unit on the identified dermatome region to stimulate nerve regeneration or to reduce pain in a

The therapist places the TENS unit on the identified dermatome region to stimulate nerve regeneration or to reduce pain in a peripheral nerve injury

There is limited evidence for nerve growth regeneration using TENS

Spinal Cord Anatomy: PNS vs CNS

Spinal Nerves

The spinal nerves are located in the PNS

Consist of ascending sensory pathways and descending motor pathways

Consist of ascending sensory pathways and descending motor pathways

Ascending sensory spinal nerves extend from a sensory receptor to the dorsal rootlets.

Ascending sensory spinal nerves extend from a sensory receptor to the dorsal rootlets.

Descending motor spinal nerves extend from the ventral horn of the SC to skeletal muscles

Descending motor spinal nerves extend from the ventral horn of the SC to skeletal muscles

there are 31 pairs of spinal nerves

8 cervical

8 cervical

12 Thoracic

12 Thoracic

5 lumbar

5 lumbar

5 sacral

5 sacral

1 coccygeal

1 coccygeal

Dorsal Root Ganglion

the dorsal root ganglion contains the cell bodies of sensory nerves that are part of the Somatic PNS

the dorsal root ganglion contains the cell bodies of sensory nerves that are part of the Somatic PNS

Each sensory never has its own dorsal root ganglion

Each sensory never has its own dorsal root ganglion

The dorsal root emerges from the dorsal ganglia

The dorsal root emerges from the dorsal ganglia

Dorsal Root and Rootlets

The dorsal roots are ascending spinal nerves that carry sensory data from the sensory receptors in the PNS to the dorsal horn

The dorsal roots are ascending spinal nerves that carry sensory data from the sensory receptors in the PNS to the dorsal horn of the SC

Dorsal roots are axon bundles that emerge from a spinal nerve

Dorsal roots are axon bundles that emerge from a spinal nerve

The dorsal root leads into the dorsal rootlets, which are thin string-like axons that emerge from the dorsal root and synapse

The dorsal root leads into the dorsal rootlets, which are thin string-like axons that emerge from the dorsal root and synapse in the dorsal horn of the SC

The dorsal root and rootlets are considered to be within the PNS

Dorsal Horn

Considered to be part of the Central Nervous system

Contains cell bodies of many sensory SC tracts

Contains cell bodies of many sensory SC tracts

The dorsal rootlets of the PNS may synapse on interneurons. These interneurons then synapse with SC tracts, or the rootlets may synapse directly on the cell boddies of the SC tracts

When the spinal nerves have synapsed with an SC tract, the SC tract ascends through the SC and brainstem and travels to the c

When the spinal nerves have synapsed with an SC tract, the SC tract ascends through the SC and brainstem and travels to the cortex

Ventral horn, Root, and Rootlets

Descending motor SC tracts travel from the Cerebrum down through the brainstem and SC

Descending motor SC tracts travel from the Cerebrum down through the brainstem and SC

Motor SC tracts synapse with interneurons in the ventral horn

Motor SC tracts synapse with interneurons in the ventral horn

The ventral rootlets merge into the ventral roots and extend to skeletal muscles

The ventral rootlets merge into the ventral roots and extend to skeletal muscles

The ventral horn, rootlets, and root are all considered to be within the PNS

Spinal Nerves and the Vertebral Column

Relationship of the spinal cord to the Vertebral column

Ontogenetic Development

The SC is the same length as the vertebral column in utero

However, the vertebral column continues to grow after birth, while the SC does not

The adult SC ends at the L1- L2 vertebral region

The remainder of the spinal nerves (the Cauda Equina) must descend through the vertebral column to exit their intervertebral foramina

There is one more pair of spinal nerves than there are vertebrae

From C1 to C7, the spinal nerves exit above their corresponding vertebrae

From C1 to C7, the spinal nerves exit above their corresponding vertebrae

There is a pair of C8 spinal nerves but no C8 vertebra

There is a pair of C8 spinal nerves but no C8 vertebra

This means that the C8 spinal nerve must exit below C7 vertebra and above T1 vertabra

This means that the C8 spinal nerve must exit below C7 vertebra and above T1 vertabra

T1 spinal nerve exits below T1 vertebra and above T2 vertebra

from C8 down the spinal nerves exit below their corresponding vertebrae

Blood Supply of the Spinal Cord

Comes from the Vertebral Arteries

Comes from the Vertebral Arteries

The vertebral arteries are 2 branches that give rise to 1 anterior and 2 posterior spinal arteries

The vertebral arteries are 2 branches that give rise to 1 anterior and 2 posterior spinal arteries

Spinal Reflex Arc

A reflex that is mediated solely at the SC level; no cortical involvement, no conscious decision making

A reflex that is mediated solely at the SC level; no cortical involvement, no conscious decision making

Spinal reflexes allow sensory information to be processed and acted upon quickly, without cortical processing

Spinal reflexes allow sensory information to be processed and acted upon quickly, without cortical processing

Upper and Lower Motor Neurons

Motor neurons carry motor messages from different areas of the nervous system; they are divided into 2 categories: UMN and LMN

Upper Motor Neurons

carries motor messages from the primary motor cortex

carries motor messages from the primary motor cortex

to the cranial nerve nuclei in the brainstem

to the cranial nerve nuclei in the brainstem

to the Interneurons in the ventral horn.

to the Interneurons in the ventral horn.

UNMs are considered to be part of the CNS

UNMs are considered to be part of the CNS

In an UNM lesion, spasticity occurs below the lesion level

In an UNM lesion, spasticity occurs below the lesion level

In an UMN lesion flaccidity occurs AT the lesion level

Lower Motor Neurons

carries motor messages from the motor cell bodies in the ventral horn to the skeletal muscles in the periphery.

Considered to be part of the PNS

include the cranial nerves, spinal nerves, cauda equina, and ventrol horn

Lower Motor Neuron Lesions cause flaccidity at and below the lesion level

Boundaries of the spinal cord

Extend from the foramen Magnum to the Conus Medularis

Extend from the foramen Magnum to the Conus Medularis

The Conus Medularis is the end of the SC at the L1 - L2 vertebral area. Then the SC becomes the Cauda Equina (this means "ho

The Conus Medularis is the end of the SC at the L1 - L2 vertebral area. Then the SC becomes the Cauda Equina (this means "horse's tail")

The Cauda Equina are spinal nerves that have not yet exited the vertebral column

The Cauda Equina are spinal nerves that have not yet exited the vertebral column

Dorsal Intermediate Sulcus

The dorsal intermediate sulcus continues from the posterior aspect of the medula and extends only throughout the thoracic lev

The dorsal intermediate sulcus continues from the posterior aspect of the medula and extends only throughout the thoracic levels of the SC

This sulcus separates 2 ascending sensory pathways; the fasciculus gracilis and cuneatus of the dorsal columns

This sulcus separates 2 ascending sensory pathways; the fasciculus gracilis and cuneatus of the dorsal columns

Enlargements of the Spinal cord

The SC has an hourglass shape. Enlargements occur in the cervical and lumbar sections.

The SC has an hourglass shape. Enlargements occur in the cervical and lumbar sections.

The cervical enlargement is due to the brachial plexus, a network of spinal nerves from C5 to T1 that extend from the Cervica

The cervical enlargement is due to the brachial plexus, a network of spinal nerves from C5 to T1 that extend from the Cervical vertebrae to the upper extremities

When the spinal nerves of the bracihal plexus enter the SC, they account for the large area of white matter in the cervical S

When the spinal nerves of the bracihal plexus enter the SC, they account for the large area of white matter in the cervical SC

The lumbar enlargement is due to the lumbar plexus, a network of spinal nerves from L1 to S3 that extend from the lumbar vert

The lumbar enlargement is due to the lumbar plexus, a network of spinal nerves from L1 to S3 that extend from the lumbar vertebrae to the lower extremities

When the spinal nerves of the lumbar plexus enter the SC, they account for the large area of white matter in the lumbar SC

When the spinal nerves of the lumbar plexus enter the SC, they account for the large area of white matter in the lumbar SC

Dorsal Median Sulcus

The dorsal median sulcus continues from the posterior aspect of the medulla to the end of the SC

The dorsal median sulcus continues from the posterior aspect of the medulla to the end of the SC

Central Canal

The central canal contains cerebrospinal fluid

The central canal contains cerebrospinal fluid

Organization of the Internal Spinal Cord

White matter

White matter consistes of meylinated axons

The white matter is divided into 3 pairs of funiculi

The white matter is divided into 3 pairs of funiculi

1. anterior

2. lateral

3. dorsal

The SC tracts are located in the funiculi

Gray Matter

Gray matter contains the cell bodies of the sensory SC tracts (in the dorsal horn) and the cell bodies of the motor spinal ne

Gray matter contains the cell bodies of the sensory SC tracts (in the dorsal horn) and the cell bodies of the motor spinal nerves ( in the ventral horn)

The cell bodies for the motor spinal nerves are organized in a precise pattern in the ventral horn

The cell bodies for the motor spinal nerves that innervate the proximal muscle groups are located in the medial ventral horn

The cell bodies for the motor spinal nerves that innervate the proximal muscle groups are located in the medial ventral horn

The cell bodies for the motor spinal nerves that innervate the distal muscle groups are located in the lateral ventral horn

The cell bodies for the motor spinal nerves that innervate the distal muscle groups are located in the lateral ventral horn

Meninges of the Spinal Cord

The meninges of the SC are the same as those of the brain

The meninges of the SC are the same as those of the brain

Deep Tendon Reflexes

a reflex arc in which a muscle contracts when its tendon is prcussed

a reflex arc in which a muscle contracts when its tendon is prcussed

in an Upper Motor Neuron (UMN) injury, deep tendon reflexes become hyper reflexive

In a Lower Motor Neuron (LMN) injury, deep tendon reflexes become hyporeflexive

In a Lower Motor Neuron (LMN) injury, deep tendon reflexes become hyporeflexive

congenital abnormalities

Spina bifida

Arnold Chiari Malformation

Arnold Chiari Malformation