An Introduction to the Human Body - Anatomy & Physiology PDF

Summary

This document is a set of lecture slides introducing the human body, covering anatomy and physiology. It explores the structure and function of the body, from the cellular to the organ level, and includes topics such as homeostasis and essential life processes. Key keywords include anatomy, physiology, the human body, and biology.

Full Transcript

Chapter 1
An Introduction to the
Human Body

Lecture slides prepared by Curtis DeFriez, Weber State University
Copyright © John Wiley & Sons, Inc. All rights reserved.
 Anatomy and Physiology
◆ Human Anatomy is the study of body structure.
▪ Word is derived from the Greek and means “to cut” or
“cutting backwards” (putting things together
▪ from slices).
◆ Human Physiology is the science of body functions.
▪ Including the study of homeostasis
▪ (keeping the organs systems of
▪ the body in balance)

Copyright © John Wiley & Sons, Inc. All rights reserved.
 Anatomy and Physiology
◆ Human Anatomy is the study of body structure.
Word is derived from the Greek and means “to cut” or “cutting

backwards” (putting things together
from slices).
◆ Human Physiology is the science of body
functions.
Including the study of homeostasis

(keeping the organs systems of
the body in balance)

Copyright © John Wiley & Sons, Inc. All rights reserved.
 Anatomy and Physiology
◆ Structure and function of the body are closely related:
Structure mirrors function
▪ Bones of the skull
are heavy and secure to
protect brain function.
▪ The thin air sacs of the
lungs permit movement
of gases from the lungs to the blood.

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 Anatomy and Physiology
◆ Structure mirrors function

This structure is the liver, which has the function of filtering blood and producing
bile. Can you see how the function is determined by the structure, and vice versa?

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 Subdivisions of Anatomy
◆ Surface Anatomy is the study of form and markings of the
body surface, often explored through visualization or
palpation (without any “cutting”).
◆ Gross Anatomy is the study of anatomical structures visible
to unaided eye. After making the appropriate surface
marking in the prior picture, the gross dissection proceeds
through “cutting.”

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 Subdivisions of Anatomy
◆ Gross Anatomy can be studied by two general
approaches:
▪ Systemic approach (Systemic Anatomy):
Study all of the blood vessels, or all of the muscles, or

all of the bones… at once.
▪ Regional approach (Regional Anatomy)
All anatomical structures of a specific region (e.g. the

thorax, or the Head and Neck) are all studied together.

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 Subdivisions of Anatomy
◆ Developmental anatomy is the study of the fertilized egg

developing into its adult form.

▪ Embryology is a subcategory

of developmental anatomy

(conception to 8th

week of gestation).

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 Subdivisions of Anatomy
◆ Histology is the study of tissues.
◆ Cytology, like histology, uses a
microscope, but restricts the study to
individual cellular structures.

This micrograph is typical of
an histological and cytological
examination under light
microscopy

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 Subdivisions of Anatomy
◆ Pathology is the study of anatomical changes due to disease.

▪ Pathologists use gross inspection, as well as cytologic,

histologic, and laboratory

examinations to discover the

source of the disease.

This is a section of a human colon
opened by a pathologist to reveal polyps that would become
cancerous in a few years (premalignant).
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 Clinical Connection
◆ An autopsy is a postmortem (after death) examination of the

body and internal organs performed by a pathologist.

◆ An autopsy is usually done to :

▪ Determine the cause of death

▪ Identify diseases not detected during life

▪ Determine the extent of injuries and contribution to death

▪ Identify hereditary conditions

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 Levels of Organization
◆ In this course, we will
study Anatomy and
Physiology by starting with
the most basic level of
organization (atoms) and
“working our way up”.

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 Levels of Organization
◆ The chemical level of organization is discussed in Chapter 2:
▪ Atoms

▪ Inorganic Molecules (inorganic chemistry)

▪ Organic Molecules (organic chemistry)

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 Levels of Organization
◆ The Cell is next in complexity, in fact many billions of times
more complex than molecules.
▪ Cells (and this is important!) are the basic structural
and functional units of an organism.
There are many different kinds of cells in the human

body. A trained cytologist can
recognize under light microscopy
about 210 different kinds of cells.

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 Levels of Organization
◆ Tissues are groups of cells that work together to perform a

similar function.

◆ While there are many different types of cells, they all work to

form 4 basic types of tissues:

▪ Epithelium ▪ Muscle

▪ Connective Tissue ▪ Nerves

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 Levels of Organization
◆ Organs are structures composed of two or more different
types of tissues (all but the simplest of organs have all 4
basic tissues represented.)
▪ Organs have specific functions
and recognizable shapes.
Example: The skin contains

Epithelium, Connective Tissues,
Nerves, and Muscle.

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 Levels of Organization
◆ An organ system consists of related organs with a common
function. For instance, the Digestive system handles all
aspects of taking in and breaking down food, absorbing
nutrients, and eliminating wastes.
▪ It includes all the organs of the mouth,
esophagus, stomach, intestines, liver,
gallbladder, and pancreas.
▪ There are 11 organ systems in
the body.
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 Levels of Organization
◆ An organism consists of a collection of organ systems.
▪ Six important life processes:
Metabolism

Responsiveness

Movement

Growth

Differentiation

Reproduction

◆ In health, all parts of the body must be functioning together
in a process called homeostasis.
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 Essential Life Processes
◆ Metabolism is the sum of all the catabolic (breaking
down) and anabolic (building up) chemical processes that
occur in the body.
◆ Responsiveness is the body’s ability to detect and respond
to changes which might represent an opportunity… or a
threat!
▪ Decrease in body temperature
▪ Responding to sound
▪ Nerve (electrical signals) and muscle cells (contracting)
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 Essential Life Processes
◆ Movement is any motion, including movement of tiny

subcellular structures, or movement inside cells or organs.

▪ Leg muscles move the body from one place to another.

◆ Growth involves an increase in body size due to an

increase in existing cells, number of cells, or both.

▪ In bone growth, materials between cells increase.

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 Essential Life Processes
◆ Differentiation is the development of a cell from an

unspecialized to specialized state. Cells have specialized

structures and functions that differ from precursor cells.

▪ Stem cells give rise to cells that undergo differentiation.

◆ Reproduction is the formation of new cells (growth, repair,

or replacement) or the production of a new individual.

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 Homeostasis
◆ A condition of equilibrium (balance) in the body’s internal
environment. It is a dynamic condition meant to keep body
functions in the narrow range compatible with maintaining
life.

▪ Blood glucose levels range between 70 and 110 mg of
glucose/dL of blood.

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 Homeostasis
Interactions Animation

◆ Communication, Regulation and Homeostasis

You must be connected to the internet to run this
animation.
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 Homeostasis
◆ Body fluids are defined as dilute, watery solutions

containing dissolved chemicals inside or outside of the cell.

Maintaining the volume and composition of body fluids is

important.

▪ Intracellular Fluid (ICF) is the fluid within cells

▪ Extracellular Fluid (ECF) is the fluid outside cells

Interstitial fluid is ECF between cells and tissues

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 Homeostasis
◆ Some important body fluids:

▪ Blood Plasma is the ECF within blood vessels.

▪ Lymph is the ECF within lymphatic vessels.

▪ Cerebrospinal fluid (CSF) is the ECF in the brain and

spinal cord.

▪ Synovial fluid is the ECF in joints.

▪ Aqueous humor is the ECF in eyes.

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 Homeostasis
◆ Cellular function depends on the regulation of the

composition of the interstitial fluid.

▪ Composition of interstitial fluid changes as substances

move between plasma and the interstitial fluid.

▪ Movement back and forth across capillary walls provides

nutrients (glucose, oxygen, ions) to tissue cells and

removes waste (carbon dioxide).

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 Homeostasis
◆ Control of homeostasis is constantly being challenged by:

▪ Physical insults such as intense heat or lack of oxygen

▪ Changes in the internal environment such as a drop in

blood glucose due to lack of food

▪ Physiological stress such as demands of work or school

◆ Disruptions are mild if balance is quickly restored.

◆ Intense disruptions are often prolonged and result in disease

(poisoning or severe infections) or death.

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 Feedback System
◆ Cycle of events:
▪ Body is monitored and re-monitored.
▪ Each monitored variable is termed
a controlled condition.
◆ Three basic components:
▪ Receptor
▪ Control center
▪ Effector

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 Feedback System
◆ A receptor is a body structure that monitors changes in a

controlled condition (such as body temperature) and sends

input to the control center.

▪ Specialized nerve endings in

the skin act as temperature

receptors – they cause a

nerve to fire in response

to temperature changes.

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 Feedback System
◆ The control center sets the range of values to be
maintained – usually this is done by the brain.
▪ Evaluates input received from receptors and generates
output command
▪ Output involves nerve impulses, hormones, or other
chemical agents.
Brain acts as a control center receiving nerve

impulses from skin temperature receptors.

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 Feedback System
◆ The effector receives output from the control center and
produces a response or effect that changes the controlled
condition.
▪ Nearly every organ or tissue can serve as an effector.
Body temperature drops.

The brain sends an impulse to the skeletal muscles to

contract.
Shivering occurs to generate heat.

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 Feedback System
◆ Negative Feedback systems:
▪ Reverses a change in a controlled condition
Regulation of blood pressure (force exerted by blood as

it presses again the walls of the blood vessels)
◆ Positive Feedback systems:
▪ Strengthens or reinforces a change in one of the body’s
controlled conditions
Normal child birth

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 Negative Feedback – Temperature
Interactions Animation
◆ Negative Feedback Control of Temperature

You must be connected to the internet to run this
animation.
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 Feedback System
◆ Blood Pressure regulation is a negative feedback system.

▪ External or internal stimulus increases BP.

▪ Baroreceptors (pressure sensitive

receptors) detect higher BP and send a

nerve impulse to the brain (interpretation).

▪ Responses sent via nerve impulses

to the heart and blood vessels cause the

BP to drop (homeostasis is restored.)

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 Blood Pressure Regulation
Interactions Animation

◆ Negative Feedback Control of Blood Pressure

You must be connected to the internet to run this
animation.
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 Feedback System
◆ Childbirth is an example of a positive
feedback system:
▪ Uterine contractions cause vagina to open.
▪ Stretch-sensitive receptors in cervix send
impulses to brain.
▪ Oxytocin is released into the blood.
▪ Contractions enhanced and baby pushes
farther down the uterus.
▪ Cycle continues to the birth of the
baby (no stretching).
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 Positive Feedback – Labor
Interactions Animation

◆ Positive Feedback Control of Labor

You must be connected to the internet to run this
animation.
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 Clinical Connection
◆ Diagnosis of Disease is done by assessing:
▪ Signs and symptoms
▪ Medical history
Collecting information about event

Present illnesses and past medical problems

▪ Physical examination:
Orderly evaluation of the body and its function

Noninvasive techniques and other vital signs (pulse)

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 Organ Systems of the Body
◆ Integumentary System (Chapter 5)

consists of the skin and related

structures (hair, nails, and glands).

▪ Protects body, regulates

temperature, and eliminates

wastes through sweat and other

secretions

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 Organ Systems of the Body
◆ Skeletal System (Chapters 6-9) consists of the bones and
joints.
▪ Provides protection and support
▪ Houses cells that will
become red blood cells,
white blood cells, and
platelets

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 Organ Systems of the Body
◆ Muscular System (Chapters 10-11) consists of the
named skeletal muscles, as well as
smooth muscle and cardiac muscle.
▪ Participates with the skeletal
system to facilitate movement
and maintain posture
▪ Generates the heat necessary
for warm-blooded organisms to
maintain a constant body temp.
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 Organ Systems of the Body
◆ Nervous System (Chapters 12-17) consists of the brain,

spinal cord, nerves, and sensory

organs).

▪ Senses and responds to body

conditions through

nerve impulses

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 Organ Systems of the Body
◆ Endocrine System (Chapter 18) consists of hormone-

producing cells and glands

scattered throughout the

body.

▪ Regulates the body

through chemical

mechanisms (by releasing

hormones into the blood)

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 Organ Systems of the Body
◆ Cardiovascular (Chapters 19-21) consists of the heart,

blood, and blood vessels.

▪ Carries blood and nutrients to

specific locations

▪ Regulates body temperature,

and water balance

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 Organ Systems of the Body
◆ Lymphatic System and Immunity (Chapter 22) consists of
the lymphatic fluid, lymph nodes, and lymphocytes – and the
other associated organs of
the immune system like the
tonsils, spleen and thymus gland.
▪ Transports fats and proteins
to the cardiovascular system
▪ Filters blood and protects
against disease
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 Organ Systems of the Body
◆ Respiratory System (Chapter 23) consists of the upper

airways, the trachea and major

bronchi, and the lungs.

▪ Extracts O2 and

eliminates CO2

▪ In conjunction with the

kidneys, regulates

acid/base balance
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 Organ Systems of the Body
◆ Digestive System (Chapter 24) consists of the esophagus,

stomach and intestines, and

the accessory digestive

glands like the salivary

glands, liver, and gallbladder.

▪ Accomplishes the physical

and chemical breakdown

of food and elimination of waste
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 Organ Systems of the Body
◆ Urinary System (Chapter 26) consists of the kidneys,

ureters , bladder, and urethra.

▪ Involved in the collection

and excretion of waste

products in urine, and the

regulation of fluid,

electrolyte, & acid/base

balance
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 Organ Systems of the Body
◆ Reproductive System (Chapter 28) consists of the ovaries,
uterus and vagina in the female, and the testes and penis in
the male (along with associated organs and glands in both
sexes).
▪ Reproduction of an individual or organism

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 Organ Systems of the Body
◆ The systems of the body may appear to be separate and

distinct, but the maintenance of most body functions

requires the integration of many systems working together.

▪ For example, regulation of body temperature involves the

muscular, cardiovascular, nervous, and integumentary

systems all working together to produce and distribute

body heat appropriately.

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 Anatomical Terminology
◆ Anatomists use a common
language referring to body
structures and their functions.
▪ One key concept is the
definition of the standard
anatomical position.
▪ Other special vocabulary is
used in relating one body
part to another.
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 Anatomical Terminology
◆ Anatomical Position

▪ In the anatomical position, the subject stands

erect facing the observer with the head

level, the eyes facing forward, feet flat on

the floor directed forward, and the arms

at their sides, palms forward.

▪ All anatomical descriptions are in

reference to this position.

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 Anatomical Terminology
◆ Directional Terms
▪ Superior ▪ Above, top, toward head
▪ Inferior ▪ Below, bottom,
away from head

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 Anatomical Terminology
◆ Directional Terms
▪ Anterior (Ventral)
Toward the front
▪ Posterior (Dorsal)
Toward the back

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 Anatomical Terminology
◆ Directional Terms
▪ Medial ▪ Toward the midline
▪ Lateral ▪ Away from midline
▪ Intermediate ▪ Between medial
and lateral

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 Anatomical Terminology
Directional Terms
▪ Proximal ▪ Nearest to the
▪ Distal origination
▪ Farther from
origination

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 Anatomical Terminology
Directional Terms
▪ Ipsilateral ▪ Same side of the body
▪ Contralateral ▪ Opposite side of the body

This arm is
ipsilateral to this leg This leg is
contralateral to
this arm

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 Anatomical Terminology
◆ Directional Terms
▪ Superficial ▪ Towards the surface
▪ Deep ▪ Towards the core of the body

Superficial

Superficial Deep Superficial

Superficial Copyright © John Wiley & Sons, Inc. All rights reserved.
 Anatomical Terminology
◆ Descriptive Terms
▪ Visceral ▪ Pertaining to a covering over an organ
▪ Parietal ▪ Pertaining to a covering against a cavity
wall

Parietal

Visceral

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 Anatomical Terminology
◆ Regional Names
▪ Cranial ▪ Skull
▪ Cervical ▪ Neck
▪ Cubital ▪ Elbow
▪ Carpal ▪ Wrist
▪ Patellar ▪ Front of knee
▪ Orbital ▪ Eye
▪ Thoracic ▪ Chest
▪ Inguinal ▪ Groin

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 Anatomical Terminology
◆ Regional Names
▪ Metacarpal Hand/palm
▪ Plantar Sole of foot
▪ Buccal Cheek
▪ Axillary Armpit
▪ Femoral Thigh
▪ Gluteal Buttock
▪ Tarsal Ankle
▪ Digital Toes
or Phalangeal or Fingers
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 Body Planes
◆ Body Planes are imaginary flat surfaces that separate the
body or body part into portions. There
are three major planes at right
angles to one another:
▪ Sagittal (midline)
▪ Transverse (horizontal)
▪ Frontal (coronal)

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 Body Planes
◆ Sagittal planes divide the body into right and left sides.
▪ There is only one midsagittal plane,
and it divides the body into two
equal, mirror-image halves.
▪ There are an infinite number
of possible parasagittal planes
to the right and left of the
midsagittal that divide the
body into unequal “halves”.
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 Body Planes
◆ Frontal or coronal planes divide the body (or an organ)
into anterior (front) and posterior
(back) portions.
◆ Transverse planes (also called
cross-sectional or horizontal
planes) divide the body into
superior (upper) and inferior
(lower) portions.

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 Body Planes
◆ In addition to the right angle sagittal, coronal and transverse

planes, the body can also be

divided into an infinite number

of oblique planes that pass

through the body or organ at

an angle.

◆ Sections are cuts of the body

made along a plane.

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Body Planes
A midsagittal section of
the human brain

A frontal (or coronal)
brain section

A transverse (or horizontal)
brain section

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 Body Cavities
◆ Embryologically, the human organs develop
within two major body cavities:
▪ The brain and spinal cord
develop in a dorsal cavity.
▪ The remaining body organs
are found in the ventral
body cavity.
◆ Both dorsal and ventral cavities
have subdivisions.
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Body Cavities

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 Body Cavities
◆ Cranial cavity is formed by the cranial bones.
▪ Protects the brain
◆ Vertebral canal is formed by bones of vertebral column.
▪ Contains the spinal cord
◆ Meninges
▪ Layers of protective tissue
that line the cranial cavity
and vertebral canal

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 Body Cavities
◆ Thoracic cavity is formed by the sternum, ribs, and the

thoracic portion of the bony vertebral column.

▪ Also called chest cavity

▪ Stabilized by the internal

and external muscles of

the chest

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 Body Cavities
◆ Other cavities are contained within the thoracic cavity:
▪ Mediastinal cavity
Located in the central part of the thoracic cavity

▪ Left and Right Pleural cavities
Two fluid-filled spaces that surround each lung

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 Body Cavities
◆ Pericardial cavity is itself located within the middle part of
the mediastinal cavity in the thoracic cavity (like a set of
Russian nesting dolls of decreasing size—one placed inside
the other).
▪ Fluid-filled space that
surrounds the heart

Insert new
photo

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 Body Cavities
◆ The pericardial cavity is shown here nestled in
the middle mediastinum:

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 Body Cavities
◆ Abdominopelvic Cavity extends from the diaphragm to the
groin and is encircled by the abdominal wall and bones and
muscles of the pelvis.
▪ Divided into two portions:
Abdominal cavity contains the stomach, spleen, liver,

gallbladder, small and large intestines.
Pelvic cavity contains the urinary bladder, internal

organs of reproductive system, and portions of the large
intestine.
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 Body Cavities
◆ Membranes of the body cavities
▪ The thoracic and abdominal body cavities are lined by
thin, slippery, double-layered membranes called serous
membranes. These membranes adhere to the outer surface
of the organs or “viscera”, and then double-back on
themselves to line the body cavity wall.
Visceral layer covers the organs within the cavities

Parietal layer lines the cavity walls

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 Body Cavities
◆ Membranes of the body cavities
▪ The right and left pleural membranes are the serous
membranes that covers the lungs (visceral pleura) and the
walls of the pleural cavity (parietal pleura).
▪ The pericardial membrane is the serous membrane that
covers the heart (visceral pericardium) and the pericardial
cavity walls (parietal pericardium).
▪ The peritoneal membrane is the serous membrane that
covers the abdominal organs (visceral peritoneum) and the
abdominal cavity walls (parietal peritoneum).
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 Body Cavities
◆ Membranes of the body cavities

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 Body Cavities
◆ Other body cavities
▪ Oral (mouth) cavity contains the tongue and teeth.
▪ Nasal cavity is part of the upper airways (Chapter 23).
▪ Orbital cavities contain the eyeballs and various nerves
and blood vessels.
▪ Middle ear cavities contain the small bones of the middle
ear.
▪ Synovial cavities are found in freely moveable joints like
the large joints of the shoulder and hip.

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 Major Body Organs

Associated
Cavity Subdivisions Organ
structures
Cranium Brain Cranial nerves
Cranial
Vertebral canal Spinal cord Spinal nerves
Thyroid gland
Pleural Lungs
Thymus
Esophagus
Trachea
Thoracic Superior vena
Mediastinum
cava
Inferior vena cava
Aorta
Pericardial Heart
Diaphragm
Stomach
Liver
Abdomen
Small intestine Greater omentum
Large intestine (most)
Abdominopelvi
Retroperitoneal Kidneys Ureters
c
Urinary bladder
Ovaries (♀)
Pelvic
Uterine tubes (♀)
Uterus (♀)
Testes (♂)
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 Major Body Organs
◆ Brain
◆ Spinal Cord
◆ Thyroid Gland
◆ Thymus

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 Major Body Organs
◆ Lungs
◆ Trachea
◆ Superior vena cava
◆ Inferior vena cava
◆ Aorta
◆ Heart

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 Major Body Organs
◆ The diaphragm is a powerful skeletal muscle that divides

the thorax

(thoracic cavity)

from the abdomen

(abdominal cavity).
Diaphrag
m

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 Major Body Organs
◆ Trachea
◆ Esophagus
◆ Stomach
◆ Liver
◆ Small Intestine
◆ Large Intestine

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 Major Body Organs
◆ Kidneys
◆ Urinary bladder

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 Major Body Organs
◆ Ovaries ◆ Uterus
◆ Uterine tubes ◆ Testes

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 Abdominopelvic Quadrants &
Regions
◆ Identification of quadrants and regions in the
abdominopelvic cavity helps clinicians describe
the location of the many abdominal and pelvic
organs.
◆ There are 4 abdominopelvic quadrants and 9
regions.
▪ The dividing lines between these are centered
on the umbilicus (“belly button”).

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 Abdominopelvic Quadrants &
◆
Regions
Vertical and horizontal lines pass through the umbilicus
▪ Right upper quadrant (RUQ)
liver

▪ Left upper quadrant (LUQ)
spleen and left kidney

▪ Right lower quadrant (RLQ)
appendix

▪ Left lower quadrants (LLQ)
left ovary ( )
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 Abdominopelvic Quadrants &
Regions
◆ Dividing the abdomen and pelvis into regions is done using a
Tic-Tac-Toe grid. It is a little more complex than using quadrants,

but is also more specific
▪ There are nine
abdominopelvic
regions

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Abdominopelvic Quadrants &
Regions

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 Medical Imaging
◆ Techniques and procedures used to create images of the
human body
▪ Allow visualization of structures inside the body
▪ Diagnosis of anatomical and physiological disorders
▪ Conventional radiography (X-rays) have been in use since
the late 1940’s

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 Medical Imaging
◆ Radiography is done using X-rays to produce an image of
interior structures. They are inexpensive and quick
▪ Hollow structures appear black or gray
▪ Do not pass easily through dense structure (bone)
At low dose, useful for soft

tissue (breast)

Mammography (breast)
Bone densitometry (bone
density)

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 Medical Imaging
◆ Magnetic Resonance Imaging (MRI) is done using an
extremely powerful magnetic field. It is a safe procedure
but cannot be used on patients containing metal.
▪ Protons in body fluid align with field
▪ Used for differentiating normal and abnormal tissues
(tumors, brain abnormalities, blood flow)
▪ 2D and 3D color images can be viewed on a video
monitor.

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 Medical Imaging
◆ Computed Tomography or CT-Scans are done using a
computer to organize x-rays to form a 3D image. It is used
to visualize soft tissue in more detail than conventional
radiography.
▪ Tissue intensities show
varying degrees of gray.
▪ Whole-body CT scans
expose the body to a high
dose of x-rays.
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 Medical Imaging
◆ Here are 3 cross sectional images of a
head from the Visible Human Project.
They are done using the three

http://vhp.med.umich.edu/
modalities discussed above.
◆ From top to bottom:
▪ Photograph of frozen, sawed head
▪ CT scan of the same level/plane
▪ MRI scan of the same level/plane

Objective 10
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 Medical Imaging
◆ Ultrasound Scanning (sonography) is done using high

frequency sound waves. It is noninvasive and painless.

▪ Because of its safety profile,

it is commonly used to

monitor the progress of

fetal development during

pregnancy.

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 Medical Imaging
◆ Radionuclide Scanning is done by giving a radioactive
substance (radionuclide) intravenously.
▪ Gamma rays emitted by tissues that take up the
radionuclide are detected by a camera and displayed on a
video monitor. The color intensity represents the amount of
uptake.
◆ Single-photo-emission
computerized tomography
(SPECT) is a specialized
form of this technique.
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 Medical Imaging
◆ Positron Emission Tomography (PET scan) is done by
injecting a substance emitting positively charged particles
into the body. The collision between positrons and
negatively charged electron in
body tissues produce gamma rays
used to form a computer assisted
image.
▪ Used to study physiology of
body structures (metabolism)
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 Medical Imaging
◆ Endoscopy is done using a lighted instrument with a lens

projecting an image onto a monitor.

▪ Colonoscopy is a study of the interior of the colon.

▪ Laparoscopy is a study of the organs

in the abdominopelvic cavity.

▪ Arthroscopy is a study of the

interior of a joint (knee).

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 Clinical Connection
◆ Noninvasive Diagnostic Techniques are used to inspect
different aspects of the body:
▪ Is often done to access structure and function and to search
for the presence of disease.
Palpation is gently touching body surfaces with hands.

Auscultation is listening to body sounds (stethoscope).

Percussion is tapping on the body surface with

fingertips and listening to echoes.

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 End of Chapter 1
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