L2- Student Copy Mot..
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Transcript L2- Student Copy Mot..
Motor Functions of the Spinal Cord
المهام الحركية للحبل الشوكي
Dr. Taha Sadig Ahmed
طه صادق أحمد
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• Objectives
At the end of this lecture the student should :
(1) appreciate the two-way trafiic along the spinal cord .
(2) describe the reflex arc .
(3) classify reflexes into superficial and deep ; monosynaptic &
polysynaptic , give examples of them , and show how they differ
from each other .
(4) describe the general properties of reflexes and their synaptic
pools such as convergence , divergence , irradiation , recruitment ,
reverberating circuits ,after-discharge , minimal synaptic delay,
central delay and reflex time .,
(5) be able to describe the spinal centers of biceps , triceps , knee
, ankle , abdominal and plantar reflexes .
• Refernce Book
• Ganong’s Review of Medical Physiology , Barrett KE, Barman SM, Boitano
S, Brooks HL , edotors . Mc Graw Hill .
صطلحات طبيّة هامة
الحبل الشوكي • Spinal cord
عصبون )• Neuron/ Nerve fiber ( one nerve cell
عصب • Nerve :
العصب يتكون من عشرات اآلالف أو مئات اآلالف من العصبونات
e.g., Sciatic nerve , median nerve , ulnar nerve
منعكس الحبل الشوكي • Spinal Reflex
• Afferent ( sensory ) neuron :
سي (\الوارد إلي الحبل الشوكي جالبا األحساسات )
العصبون الح ّ
العصبون اآلمر ( الحركي) (الخارج • Efferent ( Motor ) neuron :
( اآلمر لعضلة لتنقبض) من الحبل الشوكي
تعصيب • Innervation ( Nerve Supply) :
مشبك • Synapse :
منعكس أحادي المشبك • Monosynaptic reflex :
منعكس متعدد المشابك • Polysynaptic reflex :
العصبون الحركي العلوي ( )Upper motor neuron ( UMN
العصبون الحركي السفلي ( )Lower motor neuron (LMN
شناج ( بضم الشين ) :فرط التوتر التشنجي Spasticity
Spastic
شناجي ،تشنجي
Stretch reflex = Tendon jerkدرجة التوتر العضلي Muscle tone
منعكس الشد ،األنتفاضة العضلية
) muscle spindleو مستقبله المغزل العضلي )
منعكس قولجي الوتري (و مستقبله عضو قولجي الوتري Golgi tendon Reflex
Ascending tracts
سية )
السبل الصاعدة ( ح ّ
السبل Descending tracts
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Functionns of the Spinal Cord
• Involves
• (1) Carrying sensory information from the
receptors to the brain ( through spinal
afferent/sensory nerves & ascending/sensory
tracts ).
• (2) Executing brain motor commands ( via
descending/motor tracts & spinal efferent/motor
nerves)
• (3) Spinal Reflexes : Spinal centers serve to
receive incoming sensory information , integrate it
and respond to it by pre-programmed spinal
reflexes .
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• The dorsal rootcontains afferent (sensory) nerves coming
from receptors .
• The cell body of these neurons is located موجودin dorsal (
posterior ) root ganglion ( DRG)
• The ventral root carries efferent (motor) fibers
• The cell-body of these motor fibers (AHC, Lower Motor
Neuron) is located in the anterior horn of the spinal cord .
Reflex Arc
AHC ( Lower Motor
Neuron , LMN)
Final Common
Pathway)
Consists of :
(1) Sense organ (receptor)
(2) Afferent ( sensory ) neuron.
(3) Motor ( Efferent ) neuron ,
in the anterior horn of spinal
cord Hence the spinal motor
neuron ( or homologous cranial
nerve motor neuron ) is called
Anterior Horn Cell (AHC) or
Lower Motor Neuron ( LMN)
The “ center ” of the reflex
comprises the part of the reflex arc
inside the spinal cord .
In case of monosynaptic reflexes
the afferent neuron synapses directlly
on the AHC ; & in case of polysynaptic
reflexes , one or more interneuron
connects the afferent & efferent neurons
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Classification of Reflexes According to the
Number of Synapses Present in the Reflex Arc
(1) Monosynaptic Reflexes المنعكسات أحادية المشبك:
– have one synapse only : The sensory ( afferent )
axon synapse directly on the anterior horn cell.
–Therefore , the reflex arc does not contain
interneurons .
–Examples : The Stretch reflex ( منعكس الشدalso
called Tendon Jerk ).
(2) Polysynaptic reflxes المنعكسات متعددة المشابك:
– Have more than one synapse , therefore contain
interneuron(s) between the afferent nerve & AHC .
–Examples : Abdominal Reflexes , withdarwal reflex ,
Plantar response .
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Classification of Reflexes According to the Location of
the Receptor
(A) Superficial Reflexes :
Are polysynaptic reflexes . The receptor is in the skin .
Examples are abdominal reflexes and plantar
reflex ,
(B) Deep reflexes : The receptor is located in muscle or
tendon Examples :
(1) Stretch Reflexes (Tendon jerks )منعكسات الوتر,
monosynaptic : such as knee-jerk ( patellar reflex ) and
ankle jerk .
The receptor for all these is the muscle spindle ( which is
located within the muscle itself .
(2) Inverse Stretch Reflex ( Golgi Tendon organ reflex
)منعكس قولجي الوتري, polysynaptic : The receptor is called
Golgi Tendon Organ , and is9present in the muscle tendon
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Types of Muscle Fibers
• (1) Extrafusal
Lower Motor
Neuron (AHC)
(2) Intrafusal fibers :
are tiny , microscopic fibers ,
present within the muscle spindle
(the muscle length detector )
innervated by Gamma motor neurons
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fibers :
• are the contractile
units of the muscle
, which constitute
the muscle bulk ,
• and which are
responsible for the
actual shortening
and force
generation by the
muscle
• Innervated by
Alpha motor
neurons .
• Types of AHC :
• (1) Large ones , called Alpha motor neurons supply
extrafusal fibers
• Also called Lower Motor Neuron ( LMN)
• (2) Small ones , called Gamma motor neurons
supply intrafusal fibers
• Inputs to theAHC ( LMN)
• 3 sources
(1) Primary Afferent ( sensory ) neurons
(2) Spinal interneurons
(3) Upper motor neurons ( UMN) , ( from Brain )
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Q : What is the Final Common –
Pathway
– It is the Alpha motor neuron (AHC)
– It constitutes he only output of
CNS on muscle i.e.,
– All spinal & supraspinal influences
converge on ithe AHC up to
10000 synapses can be present on
one alpha motoneuron .
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Q : What is “ Motor Unit ’’ ?
Motor unit comprises
(1) alpha Motor neuron ( LMN) +
(2) all muscle fibers it innervates
( remember musculoskeletal block
lectures ).
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Irradiation & Recruitment
The extent of response
( strength of muscle
contraction ) depends on the
intensity ( strength ) of the
stimulus .
This is because
(1) Increased stimulation
intensity irradiation to
other segments of the
spinal cord
(2) Progressive recruitment of
more and more motor units)
stronger contraction
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Example of a Superficial , Polysynaptic Reflex :
Withdrawal reflex
(flexor reflex/respnse )
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Withdrawal reflex (flexor reflex/respnse )
• It is a superficial , polysynaptic , protective
reflex
•Stimulation of pain receptors in a limb ( e.g., hand
or sole of foot )
• impulses to spinal cord via A or C fibres
• interneurons
• anterior horn cells stimulate limb flexor muscles
• withdrawal of limb ( moving it away from the
injurious agent ) .
•stimulation of flexors muscle accompanied by
inhibition of extensors.via inhibitory interneurons
Reciprocal Inhibition, based on Reciprocal
Innervation ).
Crossed Extensor Reflex
• If a stronger stimulus ( than
that needed to elicit the
Withdrawal Reflex) is delivered
• Flexion withdrawal of the
stimulated limb will be
accompanied by extension of the
opposite limb
•the latter response is called
Crossed Extensor Reflex
•(1) Pushing the entire body away
from the injurious agent and
•(2) supporting the body weight
against gravity There fore it
is an Antigravity Reflex
• Reciprocal innervations occurs
also in extensor reflex : flexors
in the opposite limb are inhibited
while extensors are excited
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•Sustained After-Discharge in Reverberating
Circuits دوائر الصديprolongs the response
•Withdrawal reflex is characterized by after
discharge, which prolongs the response and further
enhances the protective role of this reflex.
• In short, Withdrawal reflex and Crossed Extensor
reflex are polysynaptic and show the properties of
reciprocal innervation , motor unit recruitment ,
irradiation and after-discharge .
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تعريفات هامةImportant Definitions
• Reflex Time :Time that elapses between
application of the stimulus and appearance of
the response .
• Central Delay : Time taken in spinal cord
synapses .
• i.e., Reflex Time = Central Delay + Time spent
in conduction of impulses along the afferent
and efferent nerves.
• Minimal Synaptic delay : time taken in one
synapse ~ 0.5 ms.
• Central Dealy = Total Reflex time –Time
spent in conduction of impulses along the
afferent and efferent nerves.
• Number of synapses = Central Delay /0.5 ms
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•Thanks !
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