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Divine Word College of Bangued
Bangued, Abra
SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

ANATOMY and PHYSIOLOGY
Module 1
The Human Organism

INTRODUCTION:
An understanding of anatomy and physiology is not only fundamental to
any career in the health professions, but it can also benefit your own health.
Familiarity with the human body can help you make healthful choices and
prompt you to take appropriate action when signs of illness arise. Your
knowledge in this field will help you understand news about nutrition,
medications, medical devices, and procedures and help you understand genetic
or infectious diseases. At some point, everyone will have a problem with some
aspect of his or her body and your knowledge can help you to be a better parent,
spouse, partner, friend, colleague, or caregiver.
This module begins with an overview of anatomy and physiology and a
preview of the body regions and functions. It then covers the characteristics of
life and how the body works to maintain stable conditions. It introduces a set of
standard terms for body structures and for planes and positions in the body that
will serve as a foundation for more comprehensive information covered later in
the text.

SUPPLEMENTAL MATERIAL:
▪ Video Lesson: https://www.youtube.com/watch?v=uBGl2BujkPQ

PRESENTATION/DISCUSSION:

LESSON 1 – Definition of Anatomy and Physiology

Learning Objectives:
By the end of this section, you will be able to:
1. Compare and contrast anatomy and physiology, including their
specializations and methods of study
2. Discuss the fundamental relationship between anatomy and
physiology

What is Anatomy?
Human anatomy is the scientific study of the body’s structures. Some of
these structures are very small and can only be observed and analyzed with the
assistance of a microscope. Other larger structures can readily be seen,
manipulated, measured, and weighed.

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Bangued, Abra
SCHOOL OF HEALTH SCIENCES
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The word “anatomy” comes from a Greek root that means “to cut apart.”
Human anatomy was first studied by observing the exterior of the body and
observing the wounds of soldiers and other injuries. Later, physicians were
allowed to dissect bodies of the dead to augment their knowledge. When a body
is dissected, its structures are cut apart in order to observe their physical
attributes and their relationships to one another.
Dissection is still used in medical schools, anatomy courses, and in
pathology labs. In order to observe structures in living people, however, a
number of imaging techniques have been developed. These techniques allow
clinicians to visualize structures inside the living body such as a cancerous
tumor or a fractured bone.

Areas of specialization in Anatomy:
1. Gross anatomy is the study of the larger structures of the body, those
visible without the aid of magnification. Macro- means “large,” thus, gross
anatomy is also referred to as macroscopic anatomy.
2. Microscopic anatomy is the study of structures that can be observed only
with the use of a microscope or other magnification devices. Microscopic
anatomy includes cytology, the study of cells and histology, the study of
tissues.

Two General Approaches:
1. Regional anatomy is the study of the interrelationships of all of the
structures in a specific body region, such as the abdomen. Studying
regional anatomy helps us appreciate the interrelationships of body
structures, such as how muscles, nerves, blood vessels, and other
structures work together to serve a particular body region.
2. Systemic anatomy is the study of the structures that make up a discrete
body system—that is, a group of structures that work together to perform
a unique body function. For example, a systemic anatomical study of the
muscular system would consider all of the skeletal muscles of the body.
3. Surface anatomy is the study of the external features of the body of an
animal. It deals with anatomical features that can be studied by sight,
without dissection.

What is Physiology?
Whereas anatomy is about structure, physiology is about function.
Human physiology is the scientific study of the chemistry and physics of the
structures of the body and the ways in which they work together to support the
functions of life. Much of the study of physiology centers on the body’s tendency
toward homeostasis.
Like anatomists, physiologists typically specialize in a particular branch
of physiology. For example, neurophysiology is the study of the brain, spinal
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Bangued, Abra
SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

cord, and nerves and how this work together to perform functions as complex
and diverse as vision, movement, and thinking. Physiologists may work from the
organ level (exploring, for example, what different parts of the brain do) to the
molecular level (such as exploring how an electrochemical signal travel along
nerves).
Your study of anatomy and physiology will make more sense if you
continually relate the form of the structures you are studying to their function.
In fact, it can be somewhat frustrating to attempt to study anatomy without an
understanding of the physiology that a body structure supports. Imagine, for
example, trying to appreciate the unique arrangement of the bones of the human
hand if you had no conception of the function of the hand. Fortunately, your
understanding of how the human hand manipulates tools—from pens to cell
phones—helps you appreciate the unique alignment of the thumb in opposition
to the four fingers, making your hand a structure that allows you to pinch and
grasp objects and type text messages.

LESSON 2 – Structural and Functional Organization

Learning Objectives:
By the end of this section, you will be able to:
1. Describe the structure of the human body in terms of six levels of
organization
2. List the eleven organ systems of the human body and identify at
least one organ and one major function of each

Before you begin to study the different structures and functions of the
human body, it is helpful to consider its basic architecture; that is, how its
smallest parts are assembled into larger structures. It is convenient to consider
the structures of the body in terms of fundamental levels of organization that
increase in complexity: subatomic particles, atoms, molecules, organelles, cells,
tissues, organs, organ systems, organisms and biosphere (Figure 1.3).

Levels of Structural Organization of the Human Body
1. Chemical level of organization, scientists consider the simplest building
blocks of matter: subatomic particles, atoms and molecules. All matter in
the universe is composed of one or more unique pure substances called
elements, familiar examples of which are hydrogen, oxygen, carbon,
nitrogen, calcium, and iron. The smallest unit of any of these pure
substances (elements) is an atom. Atoms are made up of subatomic
particles such as the proton, electron and neutron. Two or more atoms
combine to form a molecule, such as the water molecules, proteins, and

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Bangued, Abra
SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

sugars found in living things. Molecules are the chemical building blocks
of all body structures.
2. Cell is the smallest independently functioning unit of a living organism.
Even bacteria, which are extremely small, independently-living organisms,
have a cellular structure. All living structures of human anatomy contain
cells, and almost all functions of human physiology are performed in cells
or are initiated by cells.
3. Organelles. A human cell typically consists of flexible membranes that
enclose cytoplasm, a water-based cellular fluid together with a variety of
tiny functioning units called organelles. In humans, as in all organisms,
cells perform all functions of life.
4. Tissue is a group of many similar cells (though sometimes composed of a
few related types) that work together to perform a specific function.
5. An organ is an anatomically distinct structure of the body composed of
two or more tissue types. Each organ performs one or more specific
physiological functions.
6. An organ system is a group of organs that work together to perform major
functions or meet physiological needs of the body.

Figure 1.3
Levels of Structural
Organization of the
Human Body

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Bangued, Abra
SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

For discussion, the eleven distinct organ systems in the human body will
be included. Assigning organs to organ systems can be imprecise since organs
that “belong” to one system can also have functions integral to another system.
In fact, most organs contribute to more than one system.

Figure 1.4
Organ Systems of the
Human Body Organs
that work together
are grouped into
organ systems.

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Bangued, Abra
SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

Figure 1.5 Organ Systems of the Human Body (continued) Organs that
work together are grouped into organ systems.
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Bangued, Abra
SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

7. The organism level is the highest level of organization. An organism is a
living being that has a cellular structure and that can independently
perform all physiologic functions necessary for life. In multicellular
organisms, including humans, all cells, tissues, organs, and organ
systems of the body work together to maintain the life and health of the
organism.

LESSON 3 – Characteristics of Life

Learning Objectives:
By the end of this section, you will be able to:
1. Explain the importance of organization to the function of the
human organism
2. Distinguish between metabolism, anabolism, and catabolism
3. Provide at least two examples of human responsiveness and human
movement
4. Compare and contrast growth, differentiation, and reproduction

The different organ systems each have different functions and therefore
unique roles to perform in physiology. These many functions can be summarized
in terms of a few that we might consider definitive of human life: organization,
metabolism, responsiveness, movement, development, and reproduction.

Characteristics of Life
1. Organization
A human body consists of trillions of cells organized in a way that
maintains distinct internal compartments. These compartments keep
body cells separated from external environmental threats and keep the
cells moist and nourished. They also separate internal body fluids from
the countless microorganisms that grow on body surfaces, including the
lining of certain passageways that connect to the outer surface of the body.
The intestinal tract, for example, is home to more bacterial cells than the
total of all human cells in the body, yet these bacteria are outside the body
and cannot be allowed to circulate freely inside the body.

2. Metabolism
The first law of thermodynamics holds that energy can neither be created
nor destroyed—it can only change form. Your basic function as an
organism is to consume (ingest) energy and molecules in the foods you eat,
convert some of it into fuel for movement, sustain your body functions,
and build and maintain your body structures. There are two types of
reactions that accomplish this: anabolism and catabolism.
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SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

a. Anabolism is the process whereby smaller, simpler molecules are
combined into larger, more complex substances. Your body can
assemble, by utilizing energy, the complex chemicals it needs by
combining small molecules derived from the foods you eat
b. Catabolism is the process by which larger more complex
substances are broken down into smaller simpler molecules.
Catabolism releases energy. The complex molecules found in foods
are broken down so the body can use their parts to assemble the
structures and substances needed for life.

These two processes are called metabolism. Metabolism is the sum of all
anabolic and catabolic reactions that take place in the body. Both anabolism and
catabolism occur simultaneously and continuously to keep you alive.

Figure 1.6 Metabolism
Anabolic reactions are building reactions, and they consume energy. Catabolic
reactions break materials down and release energy.

Every cell in your body makes use of a chemical compound, adenosine
triphosphate (ATP), to store and release energy. The cell stores energy in the
synthesis (anabolism) of ATP, then moves the ATP molecules to the location
where energy is needed to fuel cellular activities. Then the ATP is broken down
(catabolism) and a controlled amount of energy is released, which is used by the
cell to perform a particular job.

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SCHOOL OF HEALTH SCIENCES
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3. Responsiveness
Responsiveness is the ability of an organism to adjust to changes in its
internal and external environments. An example of responsiveness to
external stimuli could include moving toward sources of food and water
and away from perceived dangers. Changes in an organism’s internal
environment, such as increased body temperature, can cause the
responses of sweating and the dilation of blood vessels in the skin in order
to decrease body temperature.

4. Movement
Human movement includes not only actions at the joints of the body, but
also the motion of individual organs and even individual cells. As you read
these words, red and white blood cells are moving throughout your body,
muscle cells are contracting and relaxing to maintain your posture and to
focus your vision, and glands are secreting chemicals to regulate body
functions. Your body is coordinating the action of entire muscle groups to
enable you to move air into and out of your lungs, to push blood
throughout your body, and to propel the food you have eaten through your
digestive tract.

5. Development
Development is all of the changes the body goes through in life.
Development includes the process of differentiation, in which
unspecialized cells become specialized in structure and function to
perform certain tasks in the body. Development also includes the
processes of growth and repair, both of which involve cell differentiation.

6. Growth
Growth is the increase in body size. Humans, like all multicellular
organisms, grow by increasing the number of existing cells, increasing the
amount of non-cellular material around cells (such as mineral deposits in
bone), and, within very narrow limits, increasing the size of existing cells.

7. Reproduction
Reproduction is the formation of a new organism from parent organisms.
In humans, reproduction is carried out by the male and female
reproductive systems. Because death will come to all complex organisms,
without reproduction, the line of organisms would end.

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Bangued, Abra
SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

LESSON 4 – Influences on Human Survival

Learning Objectives:
By the end of this section, you will be able to:
1. Discuss the role of oxygen and nutrients in maintaining human
survival
2. Explain why extreme heat and extreme cold threaten human
survival
3. Explain how the pressure exerted by gases and fluids influences
human survival

Humans have been acclimating to life on Earth for at least the past
200,000 years. Earth and its atmosphere have provided us with air to breathe,
water to drink, and food to eat, but these are not the only requirements for
survival. Although you may rarely think about it, you also cannot live outside of
a certain range of temperature and pressure that the surface of our planet and
its atmosphere provides. The next sections explore these four requirements of
life.

Requirements of Life
1. Oxygen
Atmospheric air is only about 20 percent oxygen, but that oxygen is a key
component of the chemical reactions that keep the body alive, including
the reactions that produce ATP. Brain cells are especially sensitive to lack
of oxygen because of their requirement for a high-and-steady production
of ATP. Brain damage is likely within five minutes without oxygen, and
death is likely within ten minutes.

2. Nutrients
A nutrient is a substance in foods and beverages that is essential to
human survival. The three basic classes of nutrients are water, the energy-
yielding and body-building nutrients, and the micronutrients (vitamins
and minerals).

3. Narrow Range of Temperature
You have probably seen news stories about athletes who died of heat
stroke, or hikers who died of exposure to cold. Such deaths occur because
the chemical reactions upon which the body depends can only take place
within a narrow range of body temperature, from just below to just above
37°C (98.6°F).

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4. Narrow Range of Atmospheric Pressure
Pressure is a force exerted by a substance that is in contact with another
substance. Atmospheric pressure is pressure exerted by the mixture of
gases (primarily nitrogen and oxygen) in the Earth’s atmosphere. Although
you may not perceive it, atmospheric pressure is constantly pressing down
on your body. This pressure keeps gases within your body, such as the
gaseous nitrogen in body fluids, dissolved.
▪ Decompression Sickness is a condition in which gases dissolved in
the blood or in other body tissues are no longer dissolved following
a reduction in pressure on the body.

LESSON 5 - Homeostasis

Learning Objectives:
By the end of this section, you will be able to:
1. Discuss the role of homeostasis in healthy functioning
2. Contrast negative and positive feedback, giving one physiologic
example of each mechanism

Maintaining homeostasis requires that the body continuously monitor its
internal conditions. From body temperature to blood pressure to levels of certain
nutrients, each physiological condition has a particular set point. A set point is
the physiological value around which the normal range fluctuates.
Physiological parameters, such as body temperature and blood pressure,
tend to fluctuate within a normal range a few degrees above and below that point.
Control centers in the brain and other parts of the body monitor and react to
deviations from homeostasis using negative feedback.

Negative Feedback
Negative feedback is a mechanism that reverses a deviation from the set
point. Therefore, negative feedback maintains body parameters within their
normal range. The maintenance of homeostasis by negative feedback goes on
throughout the body at all times.
A negative feedback system has three basic components (Figure 1.10).
1. A sensor (receptor), is a component of a feedback system that
monitors a physiological value. This value is reported to the control
center.
2. The control center is the component in a feedback system that
compares the value to the normal range. If the value deviates too
much from the set point, then the control center activates an
effector.

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SCHOOL OF HEALTH SCIENCES
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3. An effector is the component in a feedback system that causes a
change to reverse the situation and return the value to the normal
range.

Figure 1.10
Negative Feedback Loop
In a negative feedback
loop, a stimulus—a
deviation from a set
point—is resisted through
a physiological process
that returns the body to
homeostasis. (a) A
negative feedback loop
has four basic parts. (b)
Body temperature is
regulated by negative
feedback.

Positive Feedback
Positive feedback intensifies a change in the body’s physiological condition
rather than reversing it. A deviation from the normal range results in more
change, and the system moves farther away from the normal range.
Positive feedback in the body is normal only when there is a definite end
point. Childbirth and the body’s response to blood loss are two examples of
positive feedback loops that are normal but are activated only when needed.
(Figure 1.11).

Figure 1.11
Positive Feedback Loop
Normal childbirth is driven
by a positive feedback loop.
A positive feedback loop
results in a change in the
body’s status, rather than a
return to homeostasis.

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Bangued, Abra
SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

LESSON 6 – Anatomical Terminology

Learning Objectives
By the end of this section, you will be able to:
1. Demonstrate the anatomical position
2. Describe the human body using directional and regional terms
3. Identify three planes most commonly used in the study of anatomy
4. Distinguish between the posterior (dorsal) and the anterior (ventral)
body cavities, identifying their subdivisions and representative
organs found in each
5. Describe serous membrane and explain its function

Anatomists and health care providers use terminology that can be
bewildering to the uninitiated. However, the purpose of this language is not to
confuse, but rather to increase precision and reduce medical errors.
By using precise anatomical terminology, we eliminate ambiguity.
Anatomical terms derive from ancient Greek and Latin words. Because these
languages are no longer used in everyday conversation, the meaning of their
words does not change.
Anatomical terms are made up of roots, prefixes, and suffixes. The root
of a term often refers to an organ, tissue, or condition, whereas the prefix or
suffix often describes the root. For example, in the disorder hypertension, the
prefix “hyper-” means “high” or “over,” and the root word “tension” refers to
pressure, so the word “hypertension” refers to abnormally high blood pressure.

Anatomical Position
To further increase precision, anatomists standardize the way in which
they view the body. Just as maps are normally oriented with north at the top,
the standard body “map,” or anatomical position, is that of the body standing
upright, with the feet at shoulder width and parallel, toes forward. The upper
limbs are held out to each side, and the palms of the hands face forward as
illustrated in Figure 1.12.
For example, a body that is lying down is described as either prone or
supine. Prone describes a face-down orientation, and supine describes a face
up orientation..

Regional Terms
The human body’s numerous regions have specific terms to help increase
precision (see Figure 1.12). Notice that the term “brachium” or “arm” is reserved
for the “upper arm” and “antebrachium” or “forearm” is used rather than “lower
arm.” Similarly, “femur” or “thigh” is correct, and “leg” or “crus” is reserved for
the portion of the lower limb between the knee and the ankle. You will be able to
describe the body’s regions using the terms from the figure.
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SCHOOL OF HEALTH SCIENCES
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Figure 1.12
Anatomical Position

The human body is shown in anatomical position in an (a) anterior view and a (b)
posterior view. The regions of the body are labeled in boldface.
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SCHOOL OF HEALTH SCIENCES
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Directional Terms
Certain directional anatomical terms appear throughout this and any
other anatomy textbook (Figure 1.13). These terms are essential for describing
the relative locations of different body structures. For instance, an anatomist
might describe one band of tissue as “inferior to” another or a physician might
describe a tumor as “superficial to” a deeper body structure. Commit these terms
to memory to avoid confusion when you are studying or describing the locations
of particular body parts.
1. Anterior (or ventral) Describes the front or direction toward the front of
the body. The toes are anterior to the foot.
2. Posterior (or dorsal) Describes the back or direction toward the back of
the body. The popliteus is posterior to the patella.
3. Superior (or cranial) describes a position above or higher than another
part of the body proper. The orbits are superior to the oris.
4. Inferior (or caudal) describes a position below or lower than another part
of the body proper; near or toward the tail (in humans, the coccyx, or
lowest part of the spinal column). The pelvis is inferior to the abdomen.

Figure 1.13
Directional Terms
Applied to the Human
Body Paired directional
terms are shown as
applied to the human
body.

5. Lateral describes the side or direction toward the side of the body. The
thumb (pollex) is lateral to the digits.
6. Medial describes the middle or direction toward the middle of the body.
The hallux is the medial toe.
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SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

7. Proximal describes a position in a limb that is nearer to the point of
attachment or the trunk of the body. The brachium is proximal to the
antebrachium.
8. Distal describes a position in a limb that is farther from the point of
attachment or the trunk of the body. The crus is distal to the femur.
9. Superficial describes a position closer to the surface of the body. The
skin is superficial to the bones.
10. Deep describes a position farther from the surface of the body. The brain
is deep to the skull.

Body Planes
A section is a two-dimensional surface of a three-dimensional structure
that has been cut. Modern medical imaging devices enable clinicians to obtain
“virtual sections” of living bodies. We call these scans. Body sections and scans
can be correctly interpreted, however, only if the viewer understands the plane
along which the section was made. A plane is an imaginary two-dimensional
surface that passes through the body. There are three planes commonly referred
to in anatomy and medicine, as illustrated in Figure 1.14.
The sagittal plane is the plane that divides the body or an organ vertically
into right and left sides. If this vertical plane runs directly down the middle of the
body, it is called the midsagittal or median plane.
The frontal plane is the plane that divides the body or an organ into an
anterior (front) portion and a posterior (rear) portion. The frontal plane is often
referred to as a coronal plane. (“Corona” is Latin for “crown.”)
The transverse plane is the plane that divides the body or organ
horizontally into upper and lower portions. Transverse planes produce images
referred to as cross sections.

Figure 1.14
Planes of the Body The three
planes most commonly used in
anatomical and medical imaging
are the sagittal, frontal (or
coronal), and transverse plane.

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Body Cavities and Serous Membranes
The body maintains its internal organization by means of membranes,
sheaths, and other structures that separate compartments. The dorsal
(posterior) cavity and the ventral (anterior) cavity are the largest body
compartments (Figure 1.15). These cavities contain and protect delicate internal
organs, and the ventral cavity allows for significant changes in the size and shape
of the organs as they perform their functions. The lungs, heart, stomach, and
intestines, for example, can expand and contract without distorting other tissues
or disrupting the activity of nearby organs.

Figure 1.15 Dorsal and Ventral Body Cavities
The ventral cavity includes the thoracic and abdominopelvic cavities and their
subdivisions. The dorsal cavity includes the cranial and spinal cavities.

Subdivisions of the Posterior (Dorsal) and Anterior (Ventral) Cavities
In the posterior (dorsal) cavity, the cranial cavity houses the brain, and
the spinal cavity (or vertebral cavity) encloses the spinal cord.
The anterior (ventral) cavity has two main subdivisions: the thoracic
cavity and the abdominopelvic cavity (see Figure 1.15).
▪ The thoracic cavity is enclosed by the rib cage. It contains the lungs
and the heart, which is located in the mediastinum. The diaphragm
forms the floor of the thoracic cavity and separates it from the more
inferior abdominopelvic cavity.

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▪ The abdominopelvic cavity is the largest cavity in the body. Although
no membrane physically divides the abdominopelvic cavity, it can be
useful to distinguish between the abdominal cavity, the division that
houses the digestive organs, and the pelvic cavity, the division that
houses the organs of reproduction.

Abdominal Regions and Quadrants
To promote clear communication, for instance about the location of a
patient’s abdominal pain or a suspicious mass, health care providers typically
divide up the cavity into either nine regions or four quadrants (Figure 1.16).

Figure 1.16 Regions and Quadrants of the Peritoneal Cavity
There are (a) nine abdominal regions and (b) four abdominal quadrants in the
peritoneal cavity.

Membranes of the Anterior (Ventral) Body Cavity
A serous membrane (also referred to a serosa) is one of the thin
membranes that cover the walls and organs in the thoracic and abdominopelvic
cavities.
The parietal layers of the membranes line the walls of the body cavity
(pariet- refers to a cavity wall).
The visceral layer of the membrane covers the organs (the viscera).
Between the parietal and visceral layers is a very thin, fluid-filled serous space,
or cavity (Figure 1.17).
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SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

Figure 1.17 Serous Membrane
Serous membrane lines the pericardial cavity and reflects back to cover the
heart—much the same way that an underinflated balloon would form two
layers surrounding a fist.

Three serous cavities and their associated membranes:
1. The pleura is the serous membrane that encloses the pleural cavity; the
pleural cavity surrounds the lungs.
2. The pericardium is the serous membrane that encloses the pericardial
cavity; the pericardial cavity surrounds the heart.
3. The peritoneum is the serous membrane that encloses the peritoneal
cavity; the peritoneal cavity surrounds several organs in the
abdominopelvic cavity.

The serous membranes form fluid-filled sacs, or cavities, that are meant
to cushion and reduce friction on internal organs when they move, such as when
the lungs inflate or the heart beats. Both the parietal and visceral serosa secrete
the thin, slippery serous fluid located within the serous cavities.

Terminologies
1. abdominopelvic cavity - division of the anterior (ventral) cavity that
houses the abdominal and pelvic viscera
2. anatomical position - standard reference position used for describing
locations and directions on the human body
3. anterior - describes the front or direction toward the front of the body;
also referred to as ventral
4. anterior cavity - larger body cavity located anterior to the posterior
(dorsal) body cavity; includes the serous membrane-lined pleural cavities
for the lungs, pericardial cavity for the heart, and peritoneal cavity for the
abdominal and pelvic organs; also referred to as ventral cavity
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SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

5. caudal - describes a position below or lower than another part of the body
proper; near or toward the tail (in humans, the coccyx, or lowest part of
the spinal column); also referred to as inferior
6. control center - compares values to their normal range; deviations cause
the activation of an effector
7. cranial - describes a position above or higher than another part of the
body proper; also referred to as superior
8. cranial cavity - division of the posterior (dorsal) cavity that houses the
brain
9. deep - describes a position farther from the surface of the body
10. distal - describes a position farther from the point of attachment or the
trunk of the body
11. dorsal - describes the back or direction toward the back of the body; also
referred to as posterior
12. dorsal cavity - posterior body cavity that houses the brain and spinal
cord; also referred to the posterior body cavity
13. frontal plane - two-dimensional, vertical plane that divides the body or
organ into anterior and posterior portions
14. inferior - describes a position below or lower than another part of the
body proper; near or toward the tail (in humans, the coccyx, or lowest
part of the spinal column); also referred to as caudal
15. lateral - describes the side or direction toward the side of the body
16. medial - describes the middle or direction toward the middle of the body
17. normal range - range of values around the set point that do not cause a
reaction by the control center
18. pericardium - sac that encloses the heart
19. peritoneum - serous membrane that lines the abdominopelvic cavity and
covers the organs found there
20. plane - imaginary two-dimensional surface that passes through the body
21. pleura - serous membrane that lines the pleural cavity and covers the
lungs
22. posterior - describes the back or direction toward the back of the body;
also referred to as dorsal
23. posterior cavity - posterior body cavity that houses the brain and spinal
cord; also referred to as dorsal cavity
24. prone - face down
25. proximal - describes a position nearer to the point of attachment or the
trunk of the body
26. sagittal plane - two-dimensional, vertical plane that divides the body or
organ into right and left sides
27. section - in anatomy, a single flat surface of a three-dimensional
structure that has been cut through

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SCHOOL OF HEALTH SCIENCES
Bachelor of Science in Nursing

28. serosa - membrane that covers organs and reduces friction; also referred
to as serous membrane
29. set point - ideal value for a physiological parameter; the level or small
range within which a physiological parameter such as blood pressure is
stable and optimally healthful, that is, within its parameters of
homeostasis
30. spinal cavity - division of the dorsal cavity that houses the spinal cord;
also referred to as vertebral cavity
31. superficial - describes a position nearer to the surface of the body
32. superior - describes a position above or higher than another part of the
body proper; also referred to as cranial
33. supine - face up
34. thoracic cavity - division of the anterior (ventral) cavity that houses the
heart, lungs, esophagus, and trachea
35. transverse plane - two-dimensional, horizontal plane that divides the
body or organ into superior and inferior portions
36. ventral - describes the front or direction toward the front of the body;
also referred to as anterior
37. ventral cavity - larger body cavity located anterior to the posterior
(dorsal) body cavity; includes the serous membrane-lined pleural cavities
for the lungs, pericardial cavity for the heart, and peritoneal cavity for the
abdominal and pelvic organs; also referred to as anterior body cavity

REFERENCES:

A. Online
1. https://openstax.org/books/anatomy-and-physiology
2. https://www.youtube.com/watch?v=uBGl2BujkPQ

B. Books
1. Taclawan, Eric G. 2006. Anatomy and Physiology Laboratory
Manual.
2. Tortora, Gerard et. al., Principles of Anatomy and Physiology 15th
Edition.

Prepared by:

CIRILO GEORGE F. CAOAGAS
RN, RM, LPT, MAN, MMEnP
Instructor

NMC 1: ANATOMY & PHYSIOLOGY
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