introductionto physiology.pdf

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What is the
science concerned
with the life of the
human being and
how the body
works???.

Physiology (fiz-e-OL-o-je) is the term for
the study of how the body functions, and is
based on a Latin term
Physis = nature or origin.
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Ology = science. Prof. Amal Youssef
 What Is The Basic Structure Of The
Body?
The cell
The cell is the structural, functional, and biological
units of all living beings

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 Although cells
perform different
functions;
they have some basic
characters.

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 Characteristics of Cells
Cells provide structure and support to the body.

The cell interior is organised into different organelles
surrounded by a separate membrane.
The nucleus (major organelle) holds genetic
information necessary for reproduction and cell
growth.
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 Characteristics of Cells (cont.)
Mitochondria is mainly
responsible for the
energy transactions
vital for the survival of
the cell.
Lysosomes digest
unwanted materials in
the cell.
Endoplasmic reticulum
plays a significant role
in the internal
organisation of the cell.
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Cell Structure and Function

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 Cellular Components:
Structure and Function

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 Levels of
organization
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  Each organ is an
aggregate of many
different cells held
together by intercellular
supporting structures.

 Each type of cell is
specially adapted to
perform one or a few
particular functions.

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 12 Body Systems

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HUMAN SYSTEMS WORK TOGETHER

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HUMAN SYSTEMS WORK TOGETHER

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HUMAN SYSTEMS WORK TOGETHER

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 External
Environment

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 The “Internal Environment”
All cells live in essentially the same environment.
For this reason.

The Extracellular Fluid
is ALSO called the…..

Volume and composition of ECF fluid should be
maintained constant (within narrow limits) in spite of
changes in external environment for the normal function
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Prof. Amal Youssef (optimal function) of cells.
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 Composition of ECF is same all over the body

because of constant mixing of interstitial fluid &

blood and also because of circulation of blood.

Chemical, thermal, and neural factors
interact to maintain homeostasis.

Extreme dysfunction leads to death, but
moderate dysfunction leads to sickness.
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 Control of body functions
Two biological systems

Neural Hormonal

Rapid & small Slow & long
duration duration

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 Control of body functions
Controls and Secreting hormones
coordinates bodily from endocrine
activities that require glands regulate
rapid responses activities that require
Detects and initiates duration rather than
reactions to changes speed
in external e.g., parathyroid
environment hormone regulating
e.g., regulation of calcium levels
blood pressure upon
rising
Nervous Endocrine
system
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 Cells are the basic unit structure of
the body necessary for survival.

Basic characters for different cells

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HOMEOSTASIS
Prof. Amal Youssef
Physiology Dept.
FOM - SCU
 Learning Objectives
Define homeostasis and the components of a homeostatic
system.
Recognize each of the components in representative
systems.
Explain the internal environment of the body and its
composition.
Define negative feedback.
Explain how homeostatic mechanisms regulated by negative
feedback detect and respond to environmental changes.
Define positive feedback.
Describe the actions of a positive feedback loop.
Define feedforward feedback with examples. 26
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 Home

Stasis

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Definition – Maintenance of a constant internal
environment to sustain life.

Internal environment – milieu
interieur - extracellular fluid
which includes interstitial fluid.
 Homeostasis “The Essence of Life”:
Dynamic Constancy
Homeostasis
For optimal cell function in human several conditions
(important variables) in the internal environment
(extracellular fluid) must be maintained within narrow limits,
These include:
- Body Temperature
- Blood pressure
- Blood pH
- O2 and CO2 concentration
- Osmoregulation-Water balance
- Blood glucose

Changes in the external environment can cause these
variables
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to change. Prof. Amal Youssef
 If a system is in homeostasis, it is in its normal, or
resting, state.
If disturbances disrupt the normal state, the
system will act to restore the normal state.
For example, a person who is standing still has a
normal resting respiratory rate. If that person
runs as fast as he/she can for 30 seconds, his/her
respiratory rate will increase to meet the body’s
demand for oxygen.
Furthermore, when the person returns to a
resting state, the respiratory rate eventually will
return to a normal rate because of the decreased30
demand for oxygen. Prof. Amal Youssef
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 Body systems
Essentially all organs and tissues of the body perform
functions that help maintain these constant conditions.
Examples:
1- Cardiovascular system –
blood flow and temp
regulation
2-The lungs provide oxygen to
the ECF to replenish the
oxygen used by the cells,
3-The kidneys maintain constant
ion concentrations,
4- The gastrointestinal system
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provides nutrients. Prof. Amal Youssef
 Nervous and endocrine systems regulate the
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function of the other systems
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Components of Homeostatic Systems
Sensor that detects changes in a
Receptor variable, the stimulus
e.g., a change in temperature

Receives and interprets a message
Control (input) from the receptor
Initiates changes through the
(Coordinating) effector
center A part of the nervous system (brain
or spinal cord).
Carries out the response initiated by
the coordinating center to correct
Effector the disturbance (stimulus)
Most body
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 3
Control Output:
Input: center 4

Information Information sent
sent along along efferent
afferent pathway to
pathway to
Effector
Receptor (sensor)

2
Change
detected
Homeostatic Control
by receptor
Mechanisms 5
Response of
effector feeds
1 Stimulus: back to
Produces influence
change magnitude of
in variable Variable (in homeostasis) stimulus and
returns
variable to
homeostasis

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 Homeostatic mechanisms
How is dynamic equilibrium maintained?
Definition: Feedback control (feedback
mechanism) means the control of certain
function by the resultant effect of this
function

Negative Positive Feed forward

Most common Less common
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 ↑↓

↑↓
↑ ↓
NEGATIVE
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FEEDBACK
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POSITIVE FEEDBACK
1. 1- Negative feedback mechanism –
- most common
- the effect of the controlling system is in the
opposite direction of change in the parameter
(an effect inhibits itself) so that disturbance is
minimized.
- Variable maintained within a normal level, its set
point

- If stimulus increases, homeostatic control system
activated to cause a decrease in the stimulus and
vice versa Prof. Amal Youssef 38
Components of -ve feedback regulation

Disturbance Controlled variable at a set point

Sensormonitors
Sensor monitors current
currantvalue
value
Feedback signals

Controller- compares
Set point
If error

environment
Stability of
internal
Output through effectors
Effector response
Response reverses the
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initial disturbance in
homeostasis Correction
 -ve feedback mechanism
e.g.

regulation of blood pressure by
baroreceptors,

regulation of hormonal secretion,

regulation of PCO2 of ECF.

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Homeostasis of Blood
Pressure
Baroreceptors in walls of
blood vessels detect an
increase in BP
Brain receives input and
signals from blood
vessels and heart
Blood vessels dilate, HR
decreases
BP decreases
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2- Positive feedback mechanism –

A mechanism that brings greater change
in the same direction.

The effect of regulating system magnifies
the error and sets in vicious cycle (an
effect stimulates itself) which stops only
when the initial stimulus is removed.
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 2 lits of blood loss +ve feedback
mech.
Ineffective heart pump
↓B.P.

Instability of
environment
↓blood flow to heart muscle

internal
Weakness of heart muscle

↓heart pump

Vicious cycle (death cycle) stops when blood
volume is corrected 45
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 Does positive feedback
always lead to instability
and lethal effects?

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 +ve feedback mechanism
Examples of useful +ve feedback regulation – for
rapid magnification of basic corrective
mechanisms (lead to stability of internal environment).
1. Oxytocin secretion during parturition

2. Enzymatic cascade for blood coagulation

3. Lactation
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 I. Child birth (Positive Feedback)
Positive feedback can some times be useful, i.e., operate
in the body to complete certain function e.g., process of
parturition (labor):
Uterine contraction→
descend of the baby →
stretch of uterine cervix
→ oxytocin release →
uterine contraction

And so on until labor is
complete
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II. Blood Clotting (Positive Feedback)

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IV. Lactation (Positive Feedback)

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 Feedforward Control
Feedforward regulation responds to an
anticipatory cue prior to a change in the internal
environment.
A common example of a feedforward mechanism is:
1. Responding to cold weather by shivering. When the
thermoreceptors of the skin detect the cold, signals
to the body are alerted to be aware of a possible fall
in body temperature.
The body reacts to this by shivering to produce
internal heat before its internal temperature falls
due to the cold external environment.
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2. Increases in heart and respiration rates before race.
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1. A relatively stable environment is essential for life to
function.
2. The tendency for life to favor these conditions is
called homeostasis.
3. Each functional structure contributes in the
maintenance of homeostatic conditions of the ECF,
which is called the internal environment.
4. Each cell benefits from homeostasis, and in turn, each
cell contributes in the maintenance of homeostasis.
5. Negative feedback mechanism is the most important
acting mechanism to achieve stable conditions in the
body.
6. Positive feedback mechanism can lead to death and is
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only useful in certain conditions. Prof. Amal Youssef
 Components of a Biological
Control System

Afferent Efferent

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