Download The Cerebral Cortex and Higher Intellectual Functions

Direct motor pathway
Corticospinal pathway
Corticospinal pathway
Motor Units – Large Versus Small
Text Fig. 24-3
Spinal cord Reflexes
Major receptors involved in spinal cord reflexes: muscle spindle
and golgi tendon organ
Text Fig. 17-1
Muscle spindle sense change and rate of change in muscle length
Golgi tendon organ sense the force of muscle contraction (tension)
Muscle stretch reflex
Muscle stretch reflex / Reciprocal inhibition
Tendon reflex
(autogenic inhibition)
Tendon reflex
(autogenic inhibition)
Flexor (withdrawal ) reflex
(nociceptive reflex)
Flexor (withdrawal ) reflex
(nociceptive reflex)
Text Fig. 9-11
Crossed Extension
Reflex
Text Fig. 9-11
Crossed Extension
Reflex
Extra-pyramidal System, Basal
Ganglia and Cerebellum
Organisation of the motor system
Visual cortex
Cerebellum
Somatosensory
cortex
Prefrontal cortex
Supplementary
motor cortex
Premotor
cortex
Motor nuclei
of the thalamus
Basal
ganglia
Primary
motor cortex
Brainstem
Extrapyramidal
Motor pathways
Pyramidal
tract
Motor system includes
• Tracts
Corticospinal tract (Pyramidal tract )
Extra-pyramidal system
• Basal Ganglia (regulator)
• Cerebellum
(regulator)
Corticospinal pathway
Motor system includes
• Tracts
Pyramidal tract (corticospinal tract)
Extra-pyramidal system
• Basal Ganglia (regulator)
• Cerebellum
(regulator)
Extra-pyramidal System
Definition: Tracts other than corticospinal tract are
known as Extra-pyramidal tract.
Vestibulospinal tract
vestibular apparatus & vestibular nuclei
Spinal motor neuron
Innervating axial &
postural muscles
(trunk muscles)
Function : maintain Posture & balance
“head &eye” and balance reflexes
Rubrospinal tract
Red Nucleus in Midbrain
Pass down through Pons & Medulla
Ends in ant. Horn of spinal cord
Control motor neurons
Functions. Control Distal muscle of limbs
“especially upper limb”
Tectospinal tract
Superior & Inferior collicili in midbrain
Cervical spinal motor neuron of anterior horn
Trunk and head moving muscles
Function:
Allow turning of the head in response to visual or
Auditory stimuli.
Reticulospinal Tract
The reticular formation in the brainstem. It contains
many different nuclear groups.
Pontine and medullary nuclei projects to the anterior
horn of the spinal cord.
Functions: is responsible for regulating muscle tone
and maintain posture.
Motor system includes
• Tracts
Pyramidal tract (corticospinal tract)
Extra-pyramidal system
• Basal Ganglia (regulator)
• Cerebellum
(regulator)
Motor control systems outside the cortex
Cerebellum
-controls neural ‘programs’ for the
executionl of skilled movements
Basal ganglia
- a group of subcortical forebrain nuclei
(caudate nucleus, putamen (=
striatum),
globus palludus, subthalamic
nucleus)
- modulate patterns of motor activity
Organisation of the motor system
Visual cortex
Cerebellum
Somatosensory
cortex
Prefrontal cortex
Supplementary
motor cortex
Premotor
cortex
Motor nuclei
of the thalamus
Basal
ganglia
Brainstem
Extrapyramidal
Motor pathways
Primary
motor cortex
Pyramidal
tract
Forebrain
Input to
basal
ganglia
Midbrain
Output to
thalamus
and
cortex
Forebrain
Midbrain
MOVEMENT DISORDERS
Parkinson disease
Huntingtons disease
PARKINSONS DISEASE
• Effects dopaminergic neurons
• Neurons are lost from substantia nigra
• Rarely presents before 50 years
• Neurodegenerative disease
Neuropathology of Parkinson’s disease
• nigro-striatal pathway degeneration
• leading to a depletion of striatal dopamine
• some degeneration of other dopamine pathways too
Dopamine
Glutamate
XStriatum
GABA
CLINICAL FEATURES
Characterized by:
• Tremors
• Rigidity
• bradykinesia
Huntington’s disease
• Onset of symptoms usually at 30 to 45 years
• Genetically determined (single dominant gene)
• Causes degeneration of the output
neurones from the striatum, reducing
inhibitory modulation of motor function
•Progressive disease causing involuntary muscle
jerks
•
Dopamine
Glutamate
Striatum
X
GABA
HUNTINGTONS DISEASE
• Inherited disorder
• Autosomal dominant
• Males females equally affected
• Presents during the 4th decade
• Chorea which worsens with time
• Cognitive disorders
• Dementia
Motor control systems outside the cortex
Cerebellum
-controls neural ‘programs’ for the
executionl of skilled movements
Basal ganglia
- a group of subcortical forebrain nuclei
(caudate nucleus, putamen (=
striatum),
globus palludus, subthalamic
nucleus)
- modulate patterns of motor activity
GROSS STRUCTURE
Organisation of the motor system
Visual cortex
Cerebellum
Somatosensory
cortex
Prefrontal cortex
Supplementary
motor cortex
Premotor
cortex
Motor nuclei
of the thalamus
Basal
ganglia
Brainstem
Extrapyramidal
Motor pathways
Primary
motor cortex
Pyramidal
tract
Feed-back and feedback
control circuits
• Input:
Cerebellar connections
– Sensory cortex (somato, visual)
– Vestibular system
– Spinocerebellar tract
• Output:
– Motor cortex
– Thalamus motor nuclei
– Extra-pyramidal tracts
The main functions of cerebellum:
• body equilibrium
• regulation of muscle tone
• coordination of movements
Ataxia
• means disturbances of equilibrium of the body
and coordination of movements.
• Cerebellum lesion produces cerebellar ataxia
Cerebellar ataxia
•
Attactic gait – patient can’t to walk
•
Disorders of equlibrium – patient can’t to stand
•
Intention tremor – is dynamic tremor (it is more expressed
while moving and disappears while rest)
•
Nystagmus
•
Dysmetria (disturbed ability to gauge distances)