Spinal Nerves & Reflex Activity PDF

Summary

This document provides information on spinal nerves and reflex activity. It covers topics like spinal nerve organization, rami, regionalization, dermatomes, myotomes, and nerve plexuses. It also explains intercostal nerves and various plexuses like the cervical, brachial, and lumbosacral plexuses.

Full Transcript

Spinal nerve organization
Motor axons originate from the
spinal nerve
Ventral rootlets contain the motor
axons exiting from the spinal cord
Ventral root forms from the ventral
rootlets
Cell bodies are found in the ventral and
lateral horns of the spinal cord
Sensory axons enter the spinal cord
via the dorsal aspect
Dorsal rootlets arise from the dorsal
root
Dorsal root contain the short central
axons of sensory neurons
Dorsal root ganglion houses the cell
bodies of the sensory neurons
Rami organization
Spinal nerves form from the convergence of the dorsal
and ventral roots
Exits the vertebral canal through the intervertebral foramen
Rami are distal to the spinal nerve and are formed by
branches of the spinal nerves
Dorsal ramus
Innervate the deep muscles of the back & the skin of the back
Ventral ramus
Splits into multiple branches
Innervate the ventral and lateral portions of the trunk, upper & lower
limbs
Form nerve plexuses
Rami communicans
Associated with autonomic nervous system
Extends between the spinal nerve and the sympathetic ganglions
Topographical regionalization
Spinal nerves are organized
topographically based on what they
innervate
Upper limbs enter and exit the inferior
cervical region at the cervical enlargement
Lower limbs enter and exit the inferior
thoracic and superior lumbar region at the
lumbar enlargement
Dermatome and myotome
Dermatome
Area of skin supplied with sensory information by
a pair of spinal nerves
Myotome
Muscles that a particular spinal nerve innervates
Motor activity
Nerve plexus
Arise from the interweaving of the anterior rami of
the spinal nerves on each side of the body
Acts to combine several nerves that innervate the
same part of the body into one larger nerve.
Allow the axons of the spinal nerves to travel through
various pathways (branches) to reach their destination
Damage to a single spinal nerve does not result in
complete loss in innervation to/from a particular
region
A nerve that arises from a plexus usually has axons
from more than one spinal nerve and from more
than one spinal segment
Form the “named” nerves of the body
Four main plexuses

Cervical Plexus
Intercostal Nerves
Thoracic nerves do not form plexuses
Exception: a portion of T1 forms part of the
brachial plexus
Anterior rami of the thoracic nerves travel
between adjacent ribs thus termed
intercostal nerves
All innervate intercostal muscles
T2
Sensory information from skin of axilla and
medial surface of the arm
T3 to T6
Sensory information from the anterior and
lateral chest wall
T7 to T12
Innervates abdominal muscles and overlying
skin
Cervicobrachial plexus anatomy
Cervical Plexus
Located deep at back of neck
Formed primarily by anterior rami of C1 –
C4
Nerves innervate superficial neck
structures
Muscles attached to the hyoid bone
The surface of the neck,
Lower portions of the head

Cervical Plexus
Cervical Plexus
Cutaneous branches
Occipital nerve
C2-C3
Occipital scalp
Auricular nerve
C2-C3
Skin around the auricle and external auditory meatus
Cervical nerve
C2-C3
Skin of anterior neck
Supraclavicular nerve
C3-C4
Skin of Shoulder region
Motor branches
Ansa cervicalis
C1-C3
Muscles of the throat
Phrenic nerve
C4 (some C3 & C5)
Innervates the diaphragm to regulate breathing
Cervical Plexus
Brachial Plexus
Located superior to the clavicle
More complex than the cervical plexus
5 levels of organization
Rami
Continuation of the anterior rami of spinal
Divisions nerves C5 – T1
Trunks
Unification of the rami
Superior: Formed by C5 & C6
Middle: Formed by C7
Inferior: Formed by C8 & T1
Divisions
Fibers of the trunks diverge to travel to anterior
or posterior portions of the upper arm
Two divisions called anterior and posterior
Found deep to the clavicle
Brachial Plexus
5 levels of organization (cont.)
Cords
Convergence of anterior and posterior divisions
Named for their position relative to the axillary artery
Posterior
Formed by the posterior divisions of all 3 trunks
Contains portions of C5 – T1
Medial
Formed by the anterior division of the inferior trunk
Contains portions of C8 – T1
Lateral
Formed by the anterior division of superior and
middle trunks
Contains portions of C5 – C7
Terminal Branches arise from the cords
Five major branches
Contains all the nerves of the upper limb
Five major terminal branches of the brachial
plexus
Axillary nerve
Arises from posterior cord
Innervates deltoid
Receives sensory from superolateral portion of arm
Musculocutaneous nerve
Arises from lateral cord
Innervates anterior arm muscles
Receives sensory from lateral forearm
Radial nerve
Arises from posterior cord
Innervates posterior arm and forearm muscles
Receives sensory from posterior arm and forearm and lateral 3 digits
Median nerve
Arises from medial and lateral cords
Innervates most of anterior forearm lateral hand
Receives sensory from lateral palmar and dorsal tips of lateral 3 fingers
Ulnar nerve
Arises from medial cord
Innervates anteromedial forearm and intrinsic hand muscles
Receives sensory from medial 1½ digits (anterior and posteriorly)
Five major terminal branches of the brachial
plexus
Axillary nerve
Arises from posterior cord
Innervates deltoid
Receives sensory from superolateral portion of arm
Musculocutaneous nerve
Arises from lateral cord
Innervates anterior arm muscles
Receives sensory from lateral forearm
Radial nerve
Arises from posterior cord
Innervates posterior arm and forearm muscles
Receives sensory from posterior arm and forearm and lateral 3 digits
Median nerve
Arises from medial and lateral cords
Innervates most of anterior forearm lateral hand
Receives sensory from lateral palmar and dorsal tips of lateral 3 fingers
Ulnar nerve
Arises from medial cord
Innervates anteromedial forearm and intrinsic hand muscles
Receives sensory from medial 1½ digits (anterior and posteriorly)
Brachial Plexus
Lumbosacral plexus anatomy
Lumbar Plexus
Located in the anterior pelvis
Formed by the anterior rami of spinal nerves L1 – L4
Overlaps with sacral plexus
Less complex than brachial but has anterior and
posterior divisions
Contains nerves innervating the anterior aspect of
lower limbs as well as the abdomen, pelvis and
buttock
Femoral nerve
Main nerve of the posterior division
Innervates muscles of the anterior thigh
Allows flexion and extension of the knee and hip
Receives sensory from the anterior and inferomedial thigh and
medial aspect of the leg
Obturator nerve
Main nerve of the anterior division
Innervates the medial thigh
Receives sensory from the superomedial thigh
Lumbar Plexus
Located in the anterior pelvis
Formed by the anterior rami of spinal nerves L1 – L4
Overlaps with sacral plexus
Less complex than brachial but has anterior and
posterior divisions
Contains nerves innervating the anterior aspect of
lower limbs as well as the abdomen, pelvis and
buttock
Femoral nerve
Main nerve of the posterior division
Innervates muscles of the anterior thigh
Allows flexion and extension of the knee and hip
Receives sensory from the anterior and inferomedial thigh and
medial aspect of the leg
Obturator nerve
Main nerve of the anterior division
Innervates the medial thigh
Receives sensory from the superomedial thigh
Sacral Plexus
Located in the posterior pelvis (inferior to
the lumbar pelvis)
Overlaps with lumbar plexus
Formed by the anterior rami of spinal
nerves L4 – S4
Organized into anterior and posterior
divisions
Anterior division tend to innervate muscles
that flex
Posterior division tend to innervate muscles
that extend
Contains nerves innervating the posterior
aspect of the lower limbs as well as the
abdomen, pelvis and buttock
Sacral Plexus
Sciatic (aka ischiatic) nerve
Longest and largest nerve in the body
Formed from portions of both anterior and posterior divisions of the
sacral plexus
Has two divisions wrapped in a common sheath, tibial division and
common fibular division that give rise to the tibial and common
fibular nerve.
Tibial Nerve
Formed by anterior division of sciatic nerve
Innervates posterior thigh and leg and plantar foot muscles
Hip extension, thigh adduction, knee and foot flexion, and toe flexion
Plantar nerves cause flexion and adduction of the toes
Receives sensory input from the plantar region of the foot (via sural
nerve)
Common fibular nerve
Formed by posterior division of sciatic nerve
Innervates a knee muscle, anterior and lateral leg muscles
Receives sensory input from the anteroinferior region of the foot
(via its branches) and the dorsal interspace between the 1st and 2nd
toe
Lumbosacral plexus anatomy
Reflexes
Reflex: a rapid, pre-programmed, involuntary
reaction of muscles or glands to a stimulus
Stimulus: sensory input that initiates reflex
Rapid response: requires few neurons involved
Pre-programmed response: response is the same
every time
Involuntary response: Requires no conscious intent,
can’t be suppressed
Spinal cord is responsible for the integration of
many basic reflexes
Kinds of a reflex
Basic: unlearned, built-in response
Conditioned: acquired after practice & learning
The reflex arc
Basic functional unit of the nervous
system
Smallest, simplest circuit capable of
Afferent pathway receiving a stimulus and producing a
response
Action potential never travels to the
brain for processing
Neural pathway involved in reflex
activity
Ipsilateral: Receptor and effector are
Efferent pathway
on the same side of the spinal cord
Contralateral: receptor and effector
are on opposite sides of the spinal
cord
Five parts
Mono- v. Polysynaptic reflexes
Monosynaptic
Most simple reflex
Have only one synapse in between
receptor and effector
Direct communication between sensory
and motor neuron
Cannot be modified by other input from
the CNS
Polysynaptic
More complex
Have more than one synapse between
the receptor and effector
Interneurons facilitate communication
between the sensory and motor neuron
May be affected by other input from the
CNS
Autonomic v. Somatic reflexes
Autonomic
Affects organs
Somatic
Affects muscles
Stretch Reflex
Monosynaptic
Monitors and regulates muscle
length
Monitored by stretch receptors
called muscle spindles
Internal (2 items):
Intrafusal muscle fibers
Innervated by γ motor neurons
Sensory neurons
Wrapped around the intrafusal muscle
fibers
Surrounded by a CT capsule
External:
Extrafusal muscle fibers
Innervated by α motor neurons
Stretch Reflex
Monosynaptic
Monitors and regulates muscle length
When Muscle spindle is stretched
Sensory neurons detect the stretch of
the intrafusal muscle fibers
Signal sent to spinal cord (CNS)
Synapse with α motor neurons
Extrafusal fibers contract to resist
stretch
Indirectly involved in reciprocal
inhibition, inhibition of the
antagonistic muscle
Requires an interneuron and is thus
polysynaptic
Golgi tendon reflex
Polysynaptic
Prevents excessive contraction in
response to increased tension
Sensory receptor is the Golgi tendon
organ
Sensory nerve endings found within a
tendon or muscle-tendon junction
Golgi tendon reflex
Polysynaptic
Prevents excessive contraction in response
to increased tension
When a muscle contracts, the tendon
stretches
Golgi tendon organ detects the stretch
Sends the sensory information to the CNS
Synapse with interneurons in spinal cord
Interneurons inhibit alpha motor neurons to
prevent muscle contraction
Sensory neuron also stimulates the alpha
motor neuron in the antagonistic muscle
Called reciprocal activation
More reflexes
Withdrawal (flexor) reflex
Polysynaptic
Reflex that is initiated by a painful stimuli
Causes a flexor muscle to contract (and the
antagonist muscle to relax) thus causing the limb to
be removed from the offending stimulus
Crossed-extensor reflex
Polysynaptic
Occurs in conjunction with the withdrawal reflex
When the withdrawal reflex is initiated in one limb, the
opposing limb is stimulated to extend
Sensory neurons branch to synapse with
interneurons involved in the withdrawal activity
and the crossed-extensor activity
Interneuron involved in crossed-extensor activity
crosses to the other side of the spinal cord to synapse
with alpha neurons innervating the opposing limb