NEURONS AND ACTION POTENTIAL, CENTRAL NERVOUS SYSTEM TRANS .docx.pdf

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UE| BS PSYCH
GENERAL PHYSIOLOGY / PROF. STEVE OBANAN

NEURONS AND ACTION POTENTIAL,
CENTRAL NERVOUS SYSTEM

Stimulates contraction (or inhibits
BASIC CONCEPTS: NEURONS contraction) of smooth muscles and
cardiac muscle and stimulates
❖ NEURONS
glandular secretion.
Nerve cells
Sympathetic
❖ CELL BODY / SOMA
Parasympathetic
Nucleus
❖ 2 Processes / extension
Dendrite - impulse to the soma SUPPORTING CELLS (CNS)
Axon - impulse away from the soma ❖ Oligodendrocytes
❖ TYPES: Form myelin sheaths around axons of the
Structure CNS
Unipolar - 1 extension ❖ Microglia
Bipolar - 2 extensions Migrate through the CNS and
Multipolar - many dendrites and axon phagocytose foreign material
Function: ❖ Astrocytes
Sensory / afferent - receptors impulses Help to regulate the external environment
to CNS of neurons in the CNS
Motor / efferent - from CNS to effector ❖ Ependymal cells
(muscle / gland) Line in the brain ventricles (cavities) of the
Association / interneuron - connects 2 brain and the central canal of the spinal
types cord

ADDITIONAL NOTES SUPPORTING CELLS (PNS)
❖ Meninges ❖ Schwann cells (neurolemmocytes)
Dura mater Form myelin sheaths around peripheral
Pia mater axons
Arachnoid ❖ Satellite cells (ganglionic gliocytes)
❖ NERVOUS SYSTEM Support neuron cell bodies within the
CNS (CENTRAL NERVOUS SYSTEM) ganglia of the PNS
Brain and Spinal Cord
PNS (PERIPHERAL NERVOUS
TERMINOLOGIES
SYSTEM)
Somatic (motor nerve) ❖ Nerve
Stimulates contraction of skeletal Bundle of axons in the PNS; may contain
muscle both sensory and motor fibers
Autonomic (motor nerve) ❖ Ganglion

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Grouping of neuron cell bodies located
outside the CNS
❖ Nucleus
Grouping of neuron cell bodies within the FACTORS IN ACTION POTENTIAL
CNS; not same as cell nucleus (PROPAGATION)
❖ Tract ❖ Amount of myelination
Grouping of axons that interconnect ❖ Axon diameter
regions of the CNS ❖ Temperature

RESTING MEMBRANE POTENTIAL ADDITIONAL NOTES
❖ Constant membrane potential in excitable ❖ Continuous Conduction
and non excitable cells under resting The axon potential travels to the axon;and
conditions travels throughout the extension of the
❖ Inside is negatively charged with respect to neuron.
the outside ❖ Saltatory Conduction
-5 to -100mV (most cells) This will make the transmission of
-70mV for neurons impulses faster than the continuous
❖ Steady transmembrane potential that is not conduction.
producing electrical signal
REFRACTORY PERIODS
ACTION POTENTIAL
❖ This are time or periods wherein you cannot
❖ Large rapid alterations in the membrane have another action potential
potential ❖ Absolute Refractory Period
❖ May change 100mV and repolarize to its If there is happening action potential; no
resting potential action potential can happen
❖ Happens excitable membranes ❖ Relative Refractory Period
No action potential can happen; however
MECHANISM OF ACTION POTENTIAL if the stimulus is greater and can generate
❖ Resting membrane potential is close to K+ another action potential it may cause
Eq because of K+ leak channels another action potential. But the stimulus
❖ Depolarizing stimulus - opens the should be greater than the usual one
voltage-gated Na+ channels being generated.
❖ Membrane reaches the threshold potential;
depolarization becomes positive feedback —///////////////////////////////////////////////////////////////////////////—
❖ Large upstroke of membrane potential and
overshoots. CENTRAL NERVOUS SYSTEM
❖ Outward current of K+ through voltage gated ❖ Cerebrum
channels repolarizes the membrane Largest portion of the (80% of its mass)
❖ Slowly closing voltage-gated K+ channels Consisting of five paired lobes within two
causes hyperpolarization, Na+ channels convoluted hemispheres
closed from inactivated state Contains gray matter in its cortex and
❖ Closed voltage-gated K+ channels returns deeper cerebral nuclei
the membrane potential to RMP

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Cerebral cortex - 2 to 4 mm of gray ❖ Receive input from the cerebral cortex and
matter and underlying white matter provide output to motor parts of the cortex
Numerous folds and grooves via thalamus
(convolutions) ❖ Help regulate initiation and termination of
Elevated - gyrus; grooves - sulcus movements
❖ Help regulate initiation and termination of
LOBES OF THE CEREBRUM movements
❖ Control subconscious contractions of skeletal
❖ Frontal Lobe
muscles
Anterior portion of each cerebral
❖ Neuronal activities in:
hemisphere
Putamen precedes or anticipates body
Voluntary motor control of skeletal
movements
muscles; personality; higher intellectual
Caudate nucleus occurs prior to eye
processes; verbal communication
movements
❖ Parietal Lobe
Somatesthetic interpretation
Understanding speech and formulating LIMBIC SYSTEM
words ❖ Someone called the “emotional brain” plays
Interpretation of textures and shapes a primary role in a range of emotions,
❖ Temporal Lobe including pain, pleasure, docility, affection
Contains auditory centers that receive and anger
auditory information ❖ Involved in olfactory and memory
Interpretation an association of auditory ❖ Components:
and visual information Cingulate gyrus (part of the cerebral
❖ Occipital Lobe cortex)
Visual perception and coordination of eye Amygdala
movements Hippocampus
Correlation of visual images with previous Septal nuclei
visual experiences and other sensory
stimuli CEREBRAL CORTEX
❖ Processes specific types of sensory, motor,
BASAL NUCLEI and integrative signals
❖ Also known as Basal Ganglia - masses of ❖ Sensory areas - receive sensory information
gray matter and re involved perception
❖ Composed of neuron cell bodies located ❖ Motor areas - control the execution of
deep in the white matter of the cerebrum voluntary movements
❖ Basal Nuclei lie side by side, just lateral to ❖ Association areas - deal with more complex
the thalamus - globus pallidus and putamen integrative functions such as memory,
(lentiform nucleus) emotions, reasoning, judgment, personality
❖ Third of the basal nuclei - caudate nucleus traits, intelligence
❖ Function in the control of voluntary
movements

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CEREBRAL CORTEX (SENSORY AREAS)

CEREBRAL CORTEX (MOTOR AREAS)

CEREBRAL CORTEX (ASSOCIATION
AREAS)

DIENCEPHALON
❖ Forms a central core of brain tissue just
superior to the midbrain
❖ Contains numerous nuclei involved in a wide
variety of sensory and motor processing
between higher and lower brain centers
❖ Includes the thalamus, hypothalamus, and
epithalamus

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MIDBRAIN (MESENCEPHALON)
THALAMUS ❖ Located between the dience[halon and the
pons, containing nuclei and tracts
❖ Corpora quadrigemina
Four rounded elevations on the dorsal
surface
Superior colliculi
Coordinate movements in response to
visual stimuli
Inferior colliculi
Relay center for auditory information
❖ Cerebral peduncles
Ascending and descending fiber tracts
Conduct nerve impulses from motor areas
EPITHALAMUS in the cerebral cortex to the spinal cord,
medulla, and pons
❖ Cerebral aqueduct
Passes through the midbrain, connecting
the third ventricle above with the fourth
ventricle below
❖ Substantia nigra and red nucleus
Contribute to control of movement

CEREBELLUM
❖ Posterior to the medulla and pons; inferior to
the posterior portion of the cerebrum
❖ Second largest structure of the brain
containing about 50 billion neurons
HYPOTHALAMUS ❖ Receives input from proprioceptors (joint,
tendon and muscle receptors)
❖ Participates in the coordination of movement
(with basal nuclei and cerebral cortex)
❖ Evaluate how well movements are actually
being carried out
❖ Regulates posture and balance

PONS
❖ Rounded bulge on the underside of the
brain, between the midbrain and the medulla
oblongata
❖ Pontine nuclei relay nerve impulses from
motor areas of cerebral cortex to cerebellum

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❖ Pontine respiratory group (together with the
medulla) helps control breathing

MEDULLA OBLONGATA
❖ Continuous with the pons superiorly and the
spinal cord inferiorly
❖ Inferior part of the brain stem (about 3cm)
❖ With groupings of neurons (vital centers):
Vasomotor center
Controls the autonomic innervation of
blood vessels
Cardiac control center
Regulates the autonomic nerve control
of the heart
Respiratory center
Acts together with centers in the pons
to control breathing
❖ Other nuclei coordinate vomiting, swallowing,
sneezing, coughing, and hiccuping
❖ Functions in consciousness and arousal

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