Human Physiology Chapter 1 PDF

Summary

These lecture notes cover chapter 1 of the Human Physiology textbook, sixteenth edition. The material explores the study of biological function and the process of the scientific method. It also includes introductory material on physiology and homeostasis.

Full Transcript

9/8/24

Human Physiology
Chapter 1 BIOL 307 / KINS 307

The Study of Body
Function
Lecture Outline
Chapter 1:
u Human Physiology
The Study of Body Function
Sixteenth Edition
u Stuart Ira Fox
u Krista Rompolski 6 & 9 September, 2024

u Copyright 2022 © McGraw Hill LLC. All rights reserved. No reproduction or distribution without the prior written consent of McGraw Hill LLC.

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Objectives
u Describe the scientific study of human physiology.
u Describe the characteristics of the scientific method.
u Define homeostasis and identify the components of negative
feedback loops.
u Explain the role of antagonistic effectors in maintaining
homeostasis, and the nature of positive feedback loops.
I. Introduction to
u Give examples of how negative feedback loops involving the
nervous and endocrine systems help to maintain homeostasis.
Physiology
u Distinguish the primary tissues and their subtypes.
u Relate the structure of the primary tissues to their functions.
u Use the skin as an example to describe how the different primary
tissues compose organs.
u Identify the body fluid compartments.

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A. What is Physiology? A. What is Physiology?

1. Study of biological function; 2. Pathophysiology
how the body works a. Concerns how disease or
a. Concerned with the injury affects physiological
normal function of cells to processes
the organism as a whole b. Aids understanding of
b. Emphasizes mechanisms normal processes
– how it works
c. Explains using cause and
effect sequences
d. Derived from scientific
experiments

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A. What is Physiology? B. The Scientific Method

3. Comparative physiology Steps

a. Studies the differences 1. Make observations.
and similarities in the 2. Form a hypothesis; the hypothesis
functions of invertebrates
must be testable.
and vertebrates
3. Design and conduct experiments or
b. Has aided in the
development of make more observations.
pharmaceutical drugs 4. Analyze the data.
5. Results must be replicated many
times before a conclusion is
accepted.

6. Several verified hypotheses may
become a general theory based on
reproducible data. https://www.frontiersin.org/journals/veterinary-
science/articles/10.3389/fvets.2020.00552/full

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B. The Scientific Method B. The Scientific Method
3. Developing Pharmaceuticals
2. Measurements, Controls, and a. Basic research is conducted for years before a drug is ever
Statistics given to a person.
a. Good physiological research b. Research begins by studying the effects of a chemical on
requires: >- physicallymeasure
a cells in vitro (in a culture dish).
1) Quantifiable measurements c. Next, studies are done in animals (usually rats and mice) to
2) An experimental group and a see if the same effects occur in vivo (in a living creature) and
control group if there are any toxic side effects.
3) Reduction of bias
4) Statistical analysis
5) Review and publication by a
peer-reviewed journal

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B. The Scientific Method B. The Scientific Method

3. Developing Pharmaceuticals, Continued 3. Developing Pharmaceuticals, Continued
1) For these trials, many rats and mice are genetically d. Phases of Clinical Trials
modified to be susceptible to particular diseases. 1) Phase I clinical trials test the drug on healthy human
2) Animal trials may take several years. volunteers - side effects, rates of passage, dosage, etc.

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B. The Scientific Method

2) Phase II - people with the particular disease.
3) Phase III - large number of people (sexes, age groups,
ethnicities, other health condition).
4) FDA can approve the drug for sale.
5) Phase IV trials - other applications.

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Why is this important?

1. What was the research
u Willowbrook Hepatitis Experiments
question or hypothesis?
u Tuskegee Syphilis Study
u 1962: Dr. Chester Southam II. Homeostasis and
2.u As
NaziaHuman
research ethics
Experiments
u board,
Indigenous highlight
Populations In the
Canada Feedback Control
biggest
(1933 TB) ethical issue in

this study…

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1962 : Dr. Chester Southam
To the immune
Hypothesis
of
:

debilitated
see if
individuals
systems
reacteddifferentlytotheintroduciseere
healthy
liveCancercesina
Ethicalissue injected 4
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A. Brief History of Physiology B. Homeostasis
1. Walter Cannon – U.S. (1932) – coined the term homeostasis to
describe the internal consistency of the body – Fight or flight response 1. Homeostasis is constancy of the internal environment.
2. The main purpose of our physiological mechanisms is to
maintain homeostasis.
3. Deviation from homeostasis indicates disease.
4. Homeostasis is accomplished most often by negative feedback
loops.

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C. Feedback Loops C. Feedback Loops

1. Pathway
a. Receptors - detect change & send information
b. Integrating center, assesses & sends instructions
c. Effector (muscles or glands), make adjustments;
counter the change from the set-point

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C. Negative Feedback Loops
C. Negative Feedback Loops

2. Mechanism of Negative
Feedback Loops
a. Moves in the opposite
direction from the change

b. Reverses the change in
the set-point

c. This is a continuous
process

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C. Negative Feedback Loops D. Positive Feedback
contradicting
4. Antagonistic Effectors 1. The end product stimulates the
a. Opposing effectors - move conditions in opposite directions. process.
1) Within a certain normal range, or dynamic constancy.
2. The action amplifies the changes
b. When you are hot, you sweat; when you are cold, you that stimulated the effectors
shiver. These are antagonistic reactions.
↳one antagonists 3. Positive feedback - contributes to
many negative feedback loops.
a. For example, if a blood vessel
is damaged - form a clot
(+ feedback) - clotting ends
Other examples – blood glucose levels, blood calcium (- feedback). more platelets
eventually will pluge intonegative
c.
levels, heart rate, and blood pH b. Uterine contractions during
childbirth - positive feedback
loop.
thresholds are uncertain

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F. Feedback Control of Hormone Secretions

III. The Primary Tissues

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A. Levels of Organization B. Systems

1. Cell – basic unit u TABLE 1.4 Organ Systems of the Body

2. -
Tissue – group of similar cells System Major Organs Primary Functions
-> similar function Integumentary Skin, hair, nails Protection, thermoregulation
Nervous Brain, spinal cord, nerves Regulation of other body systems
3. >
-

Organ – group of two or more Endocrine Hormone-secreting glands, such as the Secretion of regulatory molecules called
tissues pituitary, thyroid, and adrenal glands hormones
Skeletal Bones, cartilages Movement and support
4. >
-

System – group of organs that
work together Muscular Skeletal muscles Movements of the skeleton
Circulatory Heart, blood vessels, lymphatic Movement of blood and lymph
-
5. Organism – systems working vessels
in coordination Immune Red bone marrow, lymphoid organs Defense of the body against invading
pathogens
Respiratory Lungs, airways Gas exchange
Urinary Kidneys, ureters, urethra Regulation of blood volume and composition
Alimentary Mouth, stomach, intestine, liver, Breakdown of food into molecules that
gallbladder, pancreas enter the body
Reproductive Gonads, external genitalia, associated Continuation of the human species
glands and ducts

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B. The Primary Tissues C. Muscle Tissue

1. Our organs are composed of four major categories of tissues: u Specialized for contraction
a. Muscle tissue u The three types are:
b. Nervous tissue a. Skeletal muscle
c. Epithelial tissue b. Cardiac muscle
c. Smooth muscle
d. Connective tissue
↳ most
complicated

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C. Muscle Tissue C. Muscle Tissue

1. Skeletal Muscle Tissue
2. Cardiac Muscle Tissue
a. Found only in the heart
more cylindrical
a. Voluntary muscle b. Fibers are short, branched, and interconnected both physically
(consciously controlled) and electrically allow ions to pass without hinderance
-

b. Most associated with c. Striated, but very different in structure and action from skeletal
bones -> movements muscle.
Has visible striations
allornothingor all don't
c. d. Involuntary
from sarcomeres
e. Can not produce a graded contraction
d. ability to vary the grade speed/force
With same

or strength of contraction
e. Fibers arranged parallel
&
help you move
neatly arranged
* are

* contracts create to
correlated movement
k-
+

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C. Muscle Tissue D. Nerve Tissue

Smooth Muscle Tissue 1. Found in the brain, spinal cord, and nerves
3.
2. Composed of neurons and neuroglia supportfuncti
>
- a
a. Found in the walls of digestive, urinary, and reproductive organs,
blood vessels, and bronchioles of the lungs (hollow organs) 3. Neurons conduct impulses and have three parts:
not visible
a. Dendrites: short, highly branched, cytoplasmic extensions that
b. Not striated,
c. Involuntary
-
not
arranged in an order
contraction
receive signals
not straight line
sendselectric a
-

a
b. Axon: long, single extension that sends signal
d. Tapered shape nerve
c. Cell body: metabolic center containing the nucleus tissue

4. Neuroglia are supporting cells that do not conduct a nerve impulse
but are essential for neuron function

* main
type

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E. Epithelial Tissue E. Epithelial Tissue

1. Forms the membranes that cover body surfaces and line the inside of 3. Epithelial tissues are also classified by the shape of their cells:
hollow organs, and glands clean wrap that covers you
-
a. Squamous: flattened cells
& to
protecto b. Cuboidal: as tall as they are long
2. Epithelial membranes are classified by the number of layers: c. Columnar: tall cells
a. Simple epithelium -> one layer -> transport of substances. 4. Put the cell shape together with the number of layers to name
b. Stratified epithelium -> multiple layers -> provides protection. epithelial tissue
5. Some modifications can occur such as cilia that move in a

invesa
coordinated fashion.
s

motnation
& more protection
lots of layers
so when layers
don
getworna more

layers
as
protection
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E. Epithelial Tissue
E. Epithelial Tissue
8. Exocrine Glands hollow tube to secrete
-
to exterior of
gland
u TABLE 1.3 Summary of Epithelial Membranes
a. Derived from epithelial tissues
Type Structure and Function Location

Covering visceral organs; linings of body cavities,
b. Secretions are transported by ducts.
Sim ple Epithelia Single layer of cells; function varies w ith type
tubes, and ducts

Sim ple squam ous Single layer of flattened, tightly bound cells; diffusion Capillary w alls; pulm onary alveoli of lungs; covering 1) Examples include lacrimal, sweat, and sebaceous glands;
epithelium and filtration visceral organs; linings of body cavities
digestive enzyme glands; and the prostate.
Sim ple cuboidal Single layer of cube-shaped cells; excretion, Surface of ovaries; linings of kidney tubules, salivary
epithelium secretion, or absorption ducts, and pancreatic ducts

Sim ple colum nar Single layer of nonciliated, tall, colum n-shaped cells;
9. Endocrine glands hormonal get hormones to further destination points
-

,

Lining of m ost of digestive tract
epithelium protection, secretion, and absorption

Sim ple ciliated colum nar Single layer of ciliated, colum n-shaped cells;
a. Lack ducts -> secrete into capillaries.
Lining of uterine tubes
epithelium transportive role through ciliary m otion
b. Endocrine glands will be described in chapter 11.
Pseudostratified ciliated Single layer of ciliated, irregularly shaped cells; m any
colum nar epithelium goblet cells; protection, secretion, ciliary m ovem ent
Lining of respiratory passagew ays 1) Examples include many hormone producing glands such
Stratified Epithelia Tw o or m ore layers of cells; function varies w ith type
Epiderm is of skin; linings of body openings, ducts, as the thyroid gland, adrenal glands, etc.
and urinary bladder

Stratified squam ous Num erous layers containing keratin, w ith outer layers
Epiderm is of skin
epithelium (keratinized) flattened and dead; protection

Stratified squam ous
Num erous layers lacking keratin, w ith outer layers Linings of oral and nasal cavities, vagina, and anal
epithelium
m oistened and alive; protection and pliability canal
(nonkeratinized)

Stratified cuboidal Usually tw o layers of cube-shaped cells; strengthening Large ducts of sw eat glands, salivary glands, and
epithelium of lum inal w alls pancreas

Num erous layers of rounded, nonkeratinized cells;
Transitional epithelium W alls of ureters, part of urethra, and urinary bladder
distension

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F. Connective Tissue F. Connective Tissue
·
most variable
substance Connective Tissue Proper
-ground 3.

1. Characterized by a matrix made up a. Composed of protein fibers and a gel-like ground substance
of protein fibers, extracellular b. Subtypes:
Y material, and specialized cells
collagen
elastin
1) Loose: collagen fibers scattered loosely with room for blood
vessels and nerves floating like packing peanuts

scin
,
-

2. There are four major categories: Example: dermis of the skin liver spleen between muscles
, , ,

2) Dense regular: Densely packed collagen fibers with little

2
a. Connective tissue proper
room for ground substance arranged
-

b. Cartilage Examples: tendons and ligaments
c. Bone
d. Blood Ifluid

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Connective Tissue Proper Cartilage
↑ more flexible
collagen
b. Subtypes, Continued storesenergy 4. Cartilage Connective Tissue make
3) Adipose tissue stores fat;
cells called adipocytes a. Composed of cells called chondrocytes surrounded by a
semi-solid ground substance
4) Dense irregular densely b. Serves as a template skeleton during bone development
packed collagen fibers in c. Found in joints to provide a gliding surface for bones
various arrangements to resist
forces.

~

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Bone C. Body Fluid Compartments

of cell
5. Bone -type 1. Intracellular: area inside the cells;
a. Cells called osteoblasts trap mineral salts -> forming contains 65% of total body water
concentric layers of calcified material = lamellae
calcified 2. Extracellular: area outside the cells;
b. Once the matrix has hardened -> osteocytes and live in spaces examples: floating housed (plasma
or
called lacunae.
a. blood plasma and
support
·

b. interstitial fluid
3. Both body fluid compartments are filled
primarily with water
4. Separated by membranes.
cell membrane

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