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Transcript
Human Body Systems
Regulation and
Homeostasis in the
Human Body:
Overview
How do Humans and other complex mammals
maintain homeostasis? They must carry out
all needed life functions in a coordinated way.
What does our species need to accomplish?
Growth
Repair of injuries
Get energy
Get building materials
Get rid of waste
Keep away disease
Respond to changing environment
Reproduce
Eleven Body Systems work together to
maintain homeostasis and carry out
these tasks:
1. Nervous System
2. Endocrine System
3. Lymphatic System 4. Circulatory System
5. Respiratory System 6. Digestive System
7. Excretory System
8. Skeletal System
9. Muscular System
System
10. Integumentary
11. Reproductive System
Human Body Organization
The Human Body
is composed of
Organ Systems
are composed of
Organs
are composed of
Tissues
are composed of
Cells
Circulatory System
Major Structures
• heart, blood vessels,
blood, lymph nodes and
vessels, lymph
Functions
• transports nutrients,
wastes, hormones,
and gases
Interesting Facts…
• The heart is a muscle about the size of a fist.
• Each blood cell takes around 20 seconds to make its
deliveries and travel back to the heart.
• The heart works by contracting and relaxing.
• The heart has flapping valves that allow blood to flow in one
direction. The flaps create a “lub-dup” sound.
• A heart attack is caused by a blood vessel blocked by a clot.
• The average person has about 5 liters of blood.
• The body can replace blood within a few weeks after loss.
• Platelets in the blood help it to clot, or stick together, to
make scabs.
• The four blood types are A, B, AB, and O.
Interesting Facts…
• Food takes 3 days to complete its journey through the
digestive system.
• An adult digestive system is about 30 feet long.
• An average person takes in about 4.4 pounds of food and
drink every day, consuming over 110,000 pounds in a
lifetime.
• Gravity and bands of muscles help food travel down the
esophagus to the stomach, making it possible to eat lying
down or even upside down.
• The stomach is lined with a slimy mucus and releases an
acid called gastric juice to help dissolve food.
• Stomach noises are caused by food and air sloshing around.
• Water makes up about 70% of the body.
Digestive System
Major Structures
• mouth, throat,
esophagus, stomach,
liver, pancreas, small and
large intestines
Functions
• extracts and absorbs
nutrients from food;
removes wastes;
maintains water and
chemical balances
The nutrients your body needs are water,
carbohydrates, fats, proteins, vitamins
and minerals.
WATER – Most of the bodies reactions take place
in water. Humans need an average of 1 liter of
water a day. Dehydration causes many problems
throughout the body.
CARBOHYDRATES – Sugars and starches are used by
the body to provide the simple sugars needed for
Respiration (energy)
FATS- Deposits of fats protect body organs,
insulate the body and store energy, make up cell
membranes and coat the nervous system cells
PROTEINS – Supply the raw materials for
growth and repair in the form of enzymes
VITAMINS – Organic molecules that work
with enzymes to control body processes.
MINERALS – Inorganic nutrients that are
needed in small amounts. Calcium is
needed to build bones, Iron is needed for
red blood cells.
The Process of Digestion: The path of food
Each organ of the digestive system helps convert
foods into simpler molecules that can be
absorbed and used by the cells of the body.
Teeth – Cut, Crush and tear food
Salivary glands – Moisten food to make it easier to
chew and pass through the system, enzymes break
down starches
Esophagus – Tube from mouth to stomach connected
by Pharynx. Works by contraction of the smooth
muscles known as peristalsis.
Stomach – Muscular sac that churns and mixes food
with acid
As food leaves the stomach it travels into the
smallSection
intestine
through the doudenum, and it
38-2
mixes with with enzymes and digestive fluids from
the liver, gallbladder and pancreas.
Liver
Gallbladder
Doudenum
Bile Duct
Pancreas
Chemicals from the pancreas breakdown
.
carbohydrates, proteins, lipids and nucleic
acids. In addition chemicals from the
pancreas produce substances which
neutralize stomach acid.
If the acid travels too far without
being neutralized it will change the
shape of enzymes and cause
problems in the body.
The Liver makes bile which acts like a
detergent to break down fat. The gall
bladder is a storage area for the bile
The small intestine absorbs nutrients from the
digestive
systems and transfers many of the
Section 38-2
nutrients to the circulatory system. The small
intestine is lined with small fingerlike projections
known as villi which designed to have a large
surface area for this task.
Small
Intestine
Villus
Large intestine (Colon)
Food that enters the large intestine is nutrientfree. Usable nutrients have been absorbed
leaving water and undigestible substances. The
large intestine removes water from the waste.
Once water is eliminated the solid waste passes
out of the body through the rectum.
it
The appendix is located just below the entry
to the large intestine. In many animals it
helps
digest difficult materials such as
cellulose. In humans the appendix is not
used for any purpose
in digestion. When
gets infected it is
removed.
Endocrine System
Major Structures
• hypothalamus, pituitary,
pancreas, pineal, adrenal,
thyroid, parathyroid,
testes, and ovaries
Functions
• regulates body
temperature, metabolism,
development, and
reproduction; maintains
homeostasis; regulates
other organ systems
Interesting Facts…
• Endocrine glands release hormones, chemicals that act as
signals telling different parts of the body what to do.
• The body makes over 20 hormones, each with a different
job to do.
• The blood carries hormones around the body until reaching
the target organ, the body part needing it.
• Hormones can affect the way a person feels.
• As a person ages, the body makes less of some hormones.
The Endocrine System
Sends messages throughout the body by way of
chemicals known as hormones. Hormones travel
throughout the bloodstream to target cells which
contain matching receptors.
Hormone
Receptor
If a cell does not have a specific receptor
the hormone will not affect the cell.
Responses to hormones take longer and last
longer than nervous system messages.
Hormones can take minutes, hours or
days to influence cells.
controlled
Examples of functions
by hormones:
Growth, Metabolism, Sleep,
Reaction to stress,
Reproduction.
The Endocrine System works through a
FEEDBACK system. Glands of the Endocrine
system determine the level of a hormone in the
blood and then changes the rate of hormone
production or sends out the opposite hormone to
counteract excess amounts of hormone.
Examples of Feedback mechanisms:
Control of insulin/sugar levels in blood
Hypothalamus can measure water level in
blood
and sends out hormones that tell the
kidneys to
conserve water.
Example
of
Feedback
Loop
Thermostat senses
temperature change
and switches off
heating system
Section 35-1
Room temperature
increases
Thermostat senses
temperature change
and switches on
heating system
Room temperature
decreases
Feedback Actions of Insulin and
Glucagon
Body cells absorb
Beta cells release insulin
glucose
into the blood
Blood glucose level
increases
Liver converts glycogen to
glucose
Blood glucose
level decreases
Homeostasis: Normal blood
glucose level
Blood glucose
level increases
Liver converts
glycogen to glucose
Blood glucose level
decreases
Alpha cells release
glucagon into blood
Hypothalamu
s
Pituitary
Pineal Gland
Thyroid
Pancreas
Parathyroid
s
Ovary (female)
Thymus
Adrenal
Glands
Testis
(male)
Important Glands and Hormones of the Human
Body
Gland
Hormone
Function
Pineal
Melatonin
Thyroid
Thyroxine
Adrenal
Adrenaline
Thymus
Thymosin
Ovary
Estrogen
Controls sleep and wake
cycle
Controls appetite and
metabolism
Deals with stressful
situations
T-cell development (fight
diseases)
Female reproduction
Testis
Testosterone
Male reproduction
Excretory System
Major Structures
• kidneys, urinary bladder,
ureters, urethra, skin,
lungs
Functions
• removes wastes from
blood; regulates
concentration of body
fluids
Interesting Facts…
• Leftover waste in the large intestine is called fiber. Fiber
sweeps the digestive system clean as it moves along.
• The large intestine contains millions of bacteria that feed
on the leftovers in the bowel.
• Kidneys are located in the middle of the back.
• Each kidney contains up to a million tiny units called
nephrons that filter all of the blood in the body.
• People with failing kidneys have their blood cleaned by a
dialysis machine or have a new kidney transplanted.
Kidneys contain millions of small filters called
Section 38-3
nephrons
, which filter your entire blood supply
every 45 minutes. Filtration takes place because
blood pressure forces water, salt, glucose, amino
acids and urea into structures known as
Bowman’s capsules. (Protein and Blood are too
large toKidney
enter)
Nephron
Bowman’s
Capsule
Processes of osmosis and active transport filter
the useful materials from the waste (urine).
Substances your body needs to keep are
returned to the blood stream. Substances your
body needs to get rid of are passed from the
Artery
Vein
renal tubes to the urinary bladder.
Kidney
Ureter
Urinary Bladder
Urethra
Immune System
• Structures: White blood
cells, thymus, spleen, lymph
nodes, lymph vessels
• Function: Helps protect the
body from disease; collects
fluid lost from blood vessels;
returns the fluid to the
circulatory system
Lymphatic System – Immune System
Structures: White
blood cells, thymus,
spleen, lymph nodes,
lymph vessels
Function: Helps
protect the body from
disease; collects fluid
lost from blood vessels;
returns the fluid to the
circulatory system
Interesting Facts…
• The immune system is constantly on guard to keep
germs, bugs, and poisons out the body.
• The skin is the immune system’s first line of defense.
• There are germ-killing chemicals in saliva, tears, ear
wax, and mucus.
• White blood cells destroy germs that enter through cuts.
• Sticky yellow pus is made of bodies of white blood cells
that die in the battle against germs.
• An allergy is the immune system making a mistake.
• Some white blood cells make antibodies which can
protect against bacteria, viruses, and poisons.
Integumentary System
Major Structures
• skin, nails, hair
Functions
• protects against injury,
infection, and fluid loss;
helps regulate body
temperature
Interesting Facts…
• Skin cells are made of a tough protein called keratin.
• About 40 million dead skin cells are lost each day.
• The average adult skin spread out would take up about 2.2
square yards and would weigh around 15 pounds.
• The skin is waterproof. It keeps water out so the body is
not a sponge and holds in moisture so it does not dry out.
• Skin expands to fit the body.
• Skin forms bumps when cold and releases sweat when hot.
• The skin repairs itself forming scabs and scars.
• Skin absorbs sunlight to make vitamin D. Too much sun
can lead to sunburn and can even cause skin cancer.
How does the human body
move from place to place
and have the ability to run,
blink or build things?
These things are all made
possible by the skeletal and
muscular systems.
Skeletal System
Major Structures
• bones and joints
Functions
• protects and supports
the body and organs;
interacts with skeletal
muscles; produces red
blood cells, white blood
cells, and platelets
Interesting Facts…
• A baby is born with 270 bones while an adult body has
206 bones.
• The hands and feet contain half of the bones in the
human body.
• Bones are made of the hard mineral calcium, living cells,
blood vessels and nerves.
• Bones are made of several layers – periosteum,
compact bone, and spongy bone.
• A joint is where two bones meet.
• Joints can be cartilagenous (spine), ball-and-socket
(shoulders and hips), pivot (neck), gliding (wrists), and
hinged (fingers, elbows, and knees).
Muscular System
Major Structures
• Skeletal – Attached to bones for
voluntary actions and controlled by the
central nervous system
• Smooth – Found in the digestive tract
and the blood vessels to move food and
blood.
Control involuntary actions
(you do not decide for them to work)
• Cardiac – Heart muscle cells are
involuntary.
Functions
• moves limbs and trunk; moves
substances through body; provides
structure and support
Interesting Facts…
• There are nearly 600 skeletal muscles that make up
nearly half of the total body weight in the human.
• Muscles can only pull – they cannot push.
• Energy is stored in the muscles in a chemical called ATP.
• Lactic acid is released when the muscles are overworked
and lack O2, making the muscles hurt or ache.
• Muscles are attached to bones by tendons.
• The biggest muscles in the body are the gluteus maximus
muscles (buttocks), but the muscle that can exert the
most force is the masseter (jaw muscle).
Figure 36-7 Skeletal Muscle Structure
Skeletal
muscles are made up of clusters of
Section 36-2
filaments of proteins known as actin and
myosin which control muscle contraction and
relaxation
Figure 36-8 Muscle Contraction
During Muscle
contraction Actin
filaments slide
over myosin
filaments
shrinking the
muscle
Energy for muscle contraction is supplied by
ATP
Nervous system cells known as motor
neurons are attached to skeletal muscle
cells to control the voluntary movement.
Threadlike Nerve
or neuron
Axon or junction
Figure 36-11 Opposing Muscle Pairs
Skeletal
Section 36-2 muscles work in opposing pairs.
When one muscle contracts, the other
relaxes.
Movement
Biceps (relaxed)
Movement
Triceps (contracted)
Biceps
(contracted)
Triceps (relaxed)
Nervous System
Major Structures
• brain, spinal cord, nerves,
sense organs
Functions
• regulates behavior;
maintains homeostasis;
regulates other organ
systems; controls sensory
and motor functions
Interesting Facts…
• The left half of the brain controls the right half of the
body and vice-versa.
• The human brain is more powerful and complicated than
the world’s biggest computer. It can store millions of
memories and do billions of calculations every day.
• The human body has over 100 billion neurons in all.
• The brain can receive over 100,000 signals per second.
• Messages whiz through the nerves at up to 270 mph.
• Neurons reaching from the spinal cord to the toes are
the longest cells in the human body, measuring up to 4
feet in length.
The Nervous System:
The nervous system is the number one communication
center of the body. The basic cell type that carries the
communications is a network of neurons that transmit
electrical impulses across the synapse-gap between
neurons.
NEURON
CELL
Nucleus
Axon terminals
Cell Body
Myelin Sheath
Nodes
Dendrites
Once and impulse begins
it moves along the axon
in the direction of the
impulse. To pass
between neurons the
impulse must be sent
across a gap known as a
Synapse
synapse which sends the
message from one
neuron to the other.
When the impulse reaches the end of the axon it
transfers its impulse to another cell by releasing
chemicals known as neurotransmitters which
pass the message across the synapse.
The nervous system is divided into two
divisions:
• The Central Nervous System (CNS)–
Responsible for relaying messages,
processing and analyzing information.
The Peripheral Nervous System –
Receives information from the environment
and relays commands from the CNS to the
organs and glands
•
The
Brain
Cerebrum
Thalamus
Pineal Gland
Hypothalamus
Cerebellum
Pituitary Gland
Pons
Spinal Cord
Medulla oblongata
The brain is the main switching area of the central
nervous system.
Cerebrum – Responsible for voluntary activities of the
body (Intelligence, learning and judgement)
Cerebellum – Coordinates muscle movement
Brain Stem – Consists of the pons and the medulla
oblongata. Pass message between brain and body
Thalamus – Connects messages from the sense organs
to the Cerebrum
Hypothalamus - Control center for hunger, thirst, anger
and body temperature.
Reproductive System
Major Structures
• ovaries, uterus, and
breasts (in females);
testes and penis (in
males)
Functions
• produces gametes and
offspring
Interesting Facts…
• A person grows over 5 million times bigger changing
from a single cell to a newborn human being.
• Humans grow for about 20 years, changing from a child
to an adult.
• Male reproductive cells are called sperm, and female
reproductive cells are called eggs.
• Sperm and eggs have only 23 chromosomes each.
• When joined together, sperm and egg make a whole cell
called a fertilized egg which can grow into a baby.
The Reproductive System
Functions to make new individuals by
producing, storing and releasing
specialized sex cells known as
gametes.
Cells from the male reproductive system,
known as sperm, must fuse with cells of
the female reproductive system, known as
eggs.
Reproduction in both males and females is
regulated by hormones.
•In males - Testosterone is produced by the
testes.
It is required for sperm production
and
development of male physical
characteristics.
•In females - Estrogen and progesterone are
female hormones produced by the ovaries.
Estrogen is required for the development of
eggs and female physical characteristics.
Progesterone prepare the uterus for the
arrival of
a developing embryo.
Respiratory System
Major Structures
• lungs, nose, mouth,
trachea
Functions
• moves air into and out of
lungs; controls gas
exchange between blood
and lungs
Interesting Facts…
• The lungs fill up most of the chest cavity.
• The left lung is slightly smaller than the right lung,
because it must allow enough space for the heart.
• Inside each lung is a network of thousands of tunnels
called the bronchial tree which branch into bronchioles
containing six million tiny bags (air sacs) called alveoli.
• The lungs take millions of O2 molecules out of the air
and put them into the blood to be delivered to the cells.
• Simultaneously, the lungs also take waste gases out of
the blood.
• A smoker’s lungs are dark gray and full of dirt and tar.
The Respiratory
System
to theSystem
Figure
37-13 Thelinks
Respiratory
Circulatory
System to provide cells with
Section 37-3
oxygen and remove carbon dioxide
Bronchi branch to air
sacs known as aveoli
where gas exchange
occurs
Gas Exchange
37-3
in theSection
lungs
occurs through
the process of
DIFFUSION
Alveoli
Bronchiole
High concentration of
oxygen (O2) moves
out of lungs into
blood to balance
concentration. CO2
does the opposite
(moves from blood to
Capillary
The Lungs are
only37-15
air sacs.
In order
for them
Figure
The Mechanics
of Breathing
to move
they must work together with a
Section 37-3
muscle known as the Diaphragm
Air inhaled
Air
exhaled
Rib cage
lowers
Rib cage
rises
Diaphragm
Diaphragm
Exhalation
Inhalation
Breathing is not an
entirely voluntary
process. While you have
control of breathing so
that you can briefly hold
your breath or blow up a
balloon, your body will not
allow you not to breathe.
The brain has control
over the diaphragm if the
level of carbon dioxide in
the blood rises to high.