Physiology and Pathophysiology (PHO221) Lecture 3 PDF

Summary

This document is a lecture on the Nervous System from a Physiology and Pathophysiology course (PHO221), offered at MSA University during Fall 2024. It includes interactive methods, videos, diagrams, and references to textbooks covering medical physiology.

Full Transcript

Physiology and
Pathophysiology
(PHO221)
Lecture 3
Nervous System
Prof Dr Noha Nassar
Professor & Head of Pharmacology Department
Faculty of Pharmacy
Department of Pharmacology & Toxicology
MSA University
Fall 2024
19-10-2024 Prof Dr Noha Nassar 1
 Prof Dr Noha Nassar (G209)
E-mail: [email protected]
Monday 10:00 – 12:00
Wednesday 10:00 - 2:00
Dr Mai Moustafa (G22)
E-mail: [email protected]
Monday 10:00 – 12:00
Wednesday 10:00 - 2:00
Dr Omnia Farouk
Email: [email protected]

Tuesday from 10-12 am G008
 Interactive methods

1- Explanations supported with Q&A to stimulate and elicit
ideas and enhance the students’ engagement.

2-Videos and diagrams

3- Online quiz @Google sheet@

https://www.youtube.com/watch?v=RNLceVI8jcc
https://www.youtube.com/watch?v=R1_B5_ytWSc
https://www.youtube.com/watch?v=6O-0CVAgaEM
https://www.youtube.com/watch?v=oa6rvUJlg7o
https://www.youtube.com/watch?v=Ta_vWUsrjho
https://www.youtube.com/watch?v=ezy2WJdRXgw
https://www.youtube.com/watch?v=jZD_--i9vBM
https://www.youtube.com/watch?v=Gsf9IB-wQdU
https://www.youtube.com/watch?v=X4uuCgElLK8
 References

Textbook of Medical
Physiology

Guyton and Hall
Textbook of Medical
Physiology
19-10-2024 Prof Dr Noha Nassar 5
Nervous system
Nervous system
 Human Brain
The cerebrum (pl.: cerebra),
telencephalon or endbrain is
the largest part of the brain,
containing the cerebral cortex
(of the two cerebral
hemispheres)

Several subcortical
structures, including the
hippocampus, basal ganglia,
and olfactory bulb.

In the human brain, the
cerebrum is the uppermost
region of the central nervous
 Human Brain

https://www.pharmacy180.com/article/the
https://anatomyinfo.com/parts-of-the-brain/ brain-3551/
 Human Brain
Hippocampus: memory, learning, and
emotion.

Hypothalamus: helps in hormonal
production that regulate heart rate,
body temperature, hunger, and the
sleep-wake cycle⇒ Homeostasis.

Medulla: it's where the brain and spinal
cord connect ⇒ transmitting signals
between the spinal cord and brain
+ in controlling autonomic activities,
such as heartbeat and respiration.

Cerebellum: primarily responsible for
muscle control, including balance and
movement.
https://anatomyinfo.com/parts-of-the-brain/
 Human Brain

https://www.pharmacy180.com/article/the-
brain-3551/
12
 Human Brain
The 12 cranial nerves include the:

1. Olfactory nerve ⇒ nose ⇒ smelling.
2. Optic nerve⇒ eye
3. Oculomotor nerve⇒ eye
4. Trochlear nerve⇒ eye
5. Trigeminal nerve⇒ face sensory
6. Abducens nerve⇒ rectus muscle of eye.
7. Facial nerve⇒face motor
8. Vestibulocochlear nerve⇒ ear
9. Glossopharyngeal nerve⇒ pharyngeal muscle
10.Vagus nerve⇒ motor ⇒ origin of parasympathetic nervous system +
Sacral nerves are parasympathetic.
11.Accessory nerve⇒ pharynx, larynx, neck, shoulder muscles
https://www.pharmacy180.com/article/the-
brain-3551/
12.Hypoglossal nerve⇒ tongue
 Human Brain

https://www.pharmacy180.com/article/the-
brain-3551/
Spinal Cord
Spinal Cord

In the brain, grey matter
is mainly found in the
outer layers, while in the
spinal cord it forms the
core 'butterfly' shape.
19-10-2024 Prof Dr Noha Nassar 17
 Neuron
It is the structural and the functional unit of nervous
system
 Neuron
Neurons=nerve cells =the structural units of the nervous
system.

Neurons are highly specialized cells that conduct
messages in the form of nerve impulses from one part of
the body to another.

Neurons are typically large, complex cells.
The plasma membrane of neurons is the site of electrical
signaling.

Dendrites: receive signals from other neurons
Axons: transfer signals from one neuron to another
Axon hillock: generate impulse in neuron
Schwann Cells: produce myelin sheath.
Neuron
Neuron
Neuron
Neuron
19-10-2024 Prof Dr Noha Nassar 24
Neuron
 Neuron

19-10-2024 Prof Dr Noha Nassar 26
 Neuron

19-10-2024 Prof Dr Noha Nassar 27
 Neuron

Synapses
Neurons communicate with one another at junctions
called synapses. At a synapse, one neuron sends a
message to a target neuron—another cell.
Most synapses are chemical; these synapses
communicate using chemical messengers.
Other synapses are electrical; in these synapses, ions
flow directly between cells.
At a chemical synapse, an action potential triggers the
presynaptic neuron to release neurotransmitters.
These molecules bind to receptors on the postsynaptic
cell and make it more or less likely to fire an action
potential.
Neuron
19-10-2024 Prof Dr Noha Nassar 30
 Neuron
Ability to respond to
Excitability/Irritability
stimuli
Functional property of

Ability to transmit an
Conductivity
impulse
neurons

Release of a chemical
Secretion transmitter t the nerve
ending

Stimulus should be in
All or none law adequate threshold
strength

Absolute

Refractory

Relative
19-10-2024 Prof Dr Noha Nassar 31
 Neuron

19-10-2024 Prof Dr Nassar 32
 Neuron

1. In myelinated nerve fibers, the
velocity of impulse transmission is
faster because the process of
depolarization occurs only at the
nodes of Ranveir and, therefore,
it appears as if the impulses are
jumping from one node to the
successive node.

2. It acts as a protective sheath
minimizing injury to the nerve fiber.

3. It acts as an insulator and
prevents cross transmission of
impulses from one fiber to the other
in a mixed nerve
19-10-2024 Prof Dr Nassar 33
 Neuron

An action potential
=nerve impulse: is a
transient (short
lasting) reversal in the
membrane potential
that is conducted
down the length of the
fiber.
This occurs only in
excitable cells: nerve
and muscle fibers.
⇒ If you stimulate a
liver cell, that reversal
isn’t going to occur.

https://antranik.org/what-is-an-action-potential-
nerve-impulse/
 Neuron
Resting membrane
potential:
Difference in electrical
potential across the
plasma membrane when
the cell is not stimulated
or when the cell is in a
state of relaxation.
Differences between a
cell’s internal and
external electrical
potential have
traditionally been
expressed as a
percentage difference.
 Neuron

Causes of resting
membrane potential :
Increased concentration of Na+
outside.
Leak of intracellular K+ to outside
more than Na+ leak inside
The presence of intracellular
proteins carrying negative charges
Na/K pump: it is the pump which
pump 3 Na + ions outside the
neuron and pump 2 K+ ions inside
the cell
 Neuron

https://www.pharmacy180.com/article/cell-membrane-potential-3544/
 Neuron
Depolarization Sodium channels
open and influx of Na

Repolarization: Potassium channels
open and K effluxes the cell

Hyperpolarization (Under shoot)
occur due to slow closure of
K channels increased
K efflux and the membrane
becomes more negative
 Neuron

https://antranik.org/what-is-an-action-potential-
nerve-impulse/
 Neuron

Refractory period
A- Absolute refractory period :
During the phase of depolarization
and early part of repolarization.
Due to opened Na + channels inactive
“It is impossible to generate another
action potential”

B- Relative refractory period:
During late part of repolarization. Due to
Na+
channels are inactivated and can be
activated again
“Action potential can be generated only in
 Neuron

https://www.youtube.com/watch?v=xACXraaj
hrw
 Neuron
Different state of sodium channels during the action potential

19-10-2024 Prof Dr Noha Nassar 43
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 Spinal Cord reflexes
A reflex is an
involuntary and nearly
instantaneous
movement in response
to a stimulus.
The reflex is an
automatic response to
a stimulus that does
not receive or need
conscious thought as
it occurs through a
reflex arc.
Reflex arcs act on an
impulse before that
impulse reaches the
brain
 Spinal Cord reflexes

Most reflex arcs involve only three neurons. The stimulus,
such as a needle stick, stimulates the pain receptors of
the skin, which initiate an impulse in a sensory neuron.
This travels to the spinal cord where it passes, by means
of a synapse, to a connecting neuron called the relay
neuron situated in the spinal cord.

The relay neuron in turn makes a synapse with one or
more motor neurons that transmit the impulse to the
muscles of the limb causing them to contract and pull
away from the sharp object. Reflexes do not require
involvement of the brain, although in some cases the brain
can prevent reflex action.
 Spinal Cord reflexes
A reflex action, also known as a reflex is an
involuntary and nearly instantaneous movement in
response to stimulus. When a person accidentally
touches a hot object, they automatically jerk their hand away without
thinking.

A reflex does not require any thought input. The path taken by the nerve
impulses in a reflex is called a reflex arc.

In higher animals, most sensory neurons do not pass directly into the brain,
but synapse in the spinal cord.

This characteristic allows reflex actions to occur relatively quickly by
activating spinal motor neurons without the delay of routing signals through
the brain, although the brain will receive sensory input while the reflex
action occurs.
What is the reflex arc
Spinal Cord reflexes
 What is the reflex arc

19-10-2024 Prof Dr Noha Nassar 50
Reflex arc
 Guess the role?!!

Astrocytes

BBB

Ependymal
CSF
cells

Oligodendrocytes
Myelination

Microglia
Brain immune cells
Scan me =)
Faculty of
Pharmacy
19-10-2024 Prof Dr Noha Nassar 56