INTRODUCTION TO BASIC HUMAN ANATOMY
Lecture 1 Notes
What is Anatomy?
Anatomy is the study of the structure of the body. Often, you may be more interested in
functions of the body. Functions include digestion, respiration, circulation, and reproduction. Physiology is the study of the functions of the body.
The body is a chemical and physical machine. As such, it is subject to certain laws. These
are sometimes called natural laws. Each part of the body is engineered to do a particular
job. These jobs are functions. For each job or body function, there is a particular structure engineered to do it. In the laboratory, anatomy is studied by dissection (SECT = cut, DIS = apart).
BODY TYPES
No two human beings are built exactly alike, but we can group individuals into three
major categories. These groups represent basic body shapes.
MORPH = body, body form
ECTO = all energy is outgoing
ENDO = all energy is stored inside
MESO = between, in the middle
ECTOMORPH = slim individual
ENDOMORPH = broad individual
MESOMORPH = body type between the two others, “muscular” type
Ectomorphs, slim persons, are more susceptible to lung infections. Endomorphs are
more susceptible to heart disease.
NOTE ON TERMINOLOGY
Each profession and each science has its own language. Lawyers have legal terminology.
Physicians and other medical professions and occupations have medical terminology,
and educators have objectives, domains, and curricula.
To work in a legal field, you should know the meaning of quid pro quo. To work in a
medical field, you should know the meanings of terms such as proximal, distal, sagittal,
femur, humerus, thorax, and cerebellum.
KINDS OF ANATOMICAL STUDIES
Microscopic anatomy is the study of structures that cannot be seen with the unaided
eye. You need a microscope.
Gross anatomy by systems is the study of organ systems, such as the respiratory system
or the digestive system.
Gross anatomy by regions considers anatomy in terms of regions such as the trunk,
upper member, or lower member.
Neuroanatomy studies the nervous system.
Functional anatomy is the study of relationships between functions and structures.
ORGANIZATION OF THE HUMAN BODY
The human body is organized into cells, tissues, organs, organ systems, and the total
organism.
Cells are the smallest living unit of body construction.
A tissue is a grouping of like cells working together. Examples are muscle tissue
and nervous tissue.
An organ is a structure composed of several different tissues performing a
particular function. Examples include the lungs and the heart.
Organ systems are groups of organs which together perform an overall function.
Examples are the respiratory system and the digestive system.
The total organism is the individual human being. You are a total organism.
REGIONS OF THE HUMAN BODY
The human body is a single, total composite. Everything works together. Each part acts
in association with ALL other parts. Yet, it is also a series of regions. Each region is
responsible for certain body activities. These regions are:
Back and Trunk. The torso includes the back and trunk. The trunk includes the thorax
(chest) and abdomen. At the lower end of the trunk is the pelvis. The perineum is the
portion of the body forming the floor of the pelvis. The lungs, the heart, and the
digestive system are found in the trunk.
Head and Neck. The brain, eyes, ears, mouth, pharynx, and larynx are found in this region.
Members. Each upper member includes a shoulder, arm, forearm, wrist, and hand. Each
lower member includes a hip, thigh, leg, ankle, and foot.
ANATOMICAL TERMINOLOGY
As I mentioned earlier, you must know the language of a particular field to be successful
in it. Each field has specific names for specific structures and functions. Unless you know
the names and their meanings, you will have trouble saying what you mean. You will have trouble understanding what others are saying. You will not be able to communicate well.
What is a scientific term? It is a word that names or gives special information about a
structure or process. Some scientific terms have two or three different parts. These
parts are known as a PREFIX, a ROOT (or base), and a SUFFIX. An example is the word subcutaneous.
SUBCUTANEOUS means below the skin.
SUB means below. SUB is the prefix.
CUTIS means skin. CUTIS is the root.
A second example is the word myocardium.
MYOCARDIUM means the muscular wall of the heart.
MYO means muscle. MYO is a prefix.
CARDIUM means heart. CARDIUM is the root.
A third example is the word tonsillitis.
TONSIL is the root
ITIS is the suffix and means inflammation.
So TONSILLITIS means an inflammation of the tonsils
THE ANATOMICAL POSITION
The anatomical position is an artificial posture of the human body (see figure 1-2). This
position is used as a standard reference throughout the medical profession.
We always speak of the parts of the body as if the body were in the anatomical position.
This is true regardless of what position the body is actually in. In the anatomical
position, the body stands erect, with heels together. Upper members are along the
sides, with the palms of the hands facing forward. The head faces forward.
PLANES OF THE BODY
Sagittal planes are vertical planes that pass through the body from front to back. The
median or midsagittal plane is the vertical plane that divides the body into right and left
halves.
Horizontal (transverse) planes are parallel to the floor. They are perpendicular to both
the sagittal and frontal planes.
Frontal (coronal) planes are vertical planes which pass through the body from side to
side. They are perpendicular to the sagittal plane.
DIRECTIONS
Superior means above. Inferior means below.
Anterior refers to the front of the body. A commonly-used substitute word is Ventral.
Posterior refers to the back of the body. A commonly-used substitute word is Dorsal.
Medial means toward or nearer the midline of the body.
Lateral means away from the midline or toward the side of the body. Superficial means closer to the surface of the body.
Deep means toward the center of the body or body part.
Proximal and distal are terms applied specifically to the limbs. Proximal means nearer to
the shoulder joint or the hip joint. Distal means further away from the shoulder joint or
the hip joint. Sometimes proximal and distal are used to identify the “beginning” and
“end” of the GI tract–that portion closer to the stomach being proximal while that
further away being distal.
NAMES
Names are chosen to describe the structure or process as much as possible. An
international nomenclature was adopted for anatomy in Paris in 1955. It does not use
the names of people for structures. (The single exception is the Achilles tendon at the
back of the foot and ankle.)
Names are chosen to identify structures properly. Names identify structures according
to shape, size, color, function, and/or location. Some examples are:
TRAPEZIUS MUSCLE
TRAPEZIUS = trapezoid shaped, like a rectangle with uneven sides.
ADDUCTOR MAGNUS MUSCLE
AD = toward
DUCT = to carry (function)
MAGNUS = very large (size)
ERYTHROCYTE
ERYTHRO = red (color)
CYTE = cell
CELL INTRODUCTION
A cell is the microscopic unit of body organization. The “typical animal cell” is illustrated
in figure 1-4. A typical animal cell includes a cell membrane, a nucleus, a nuclear
membrane, cytoplasm, ribosomes, endoplasmic reticulum, mitochondria, Golgi
apparatus, centrioles, and lysosomes, and I’ll talk a little about each of them.
MAJOR COMPONENTS OF A “TYPICAL” ANIMAL CELL
Nucleus. The nucleus plays a central role in the cell. Information is stored in the nucleus
and distributed to guide the life processes of the cell. This information is in a chemical
form called nucleic acids. Two types of structures found in the nucleus are chromosomes and nucleoli. Chromosomes can be seen clearly only during cell divisions.
Chromosomes are composed of both nucleic acid and protein. Chromosomes contain
genes. Genes are the basic units of heredity which are passed from parents to their
children. Genes guide the activities of each individual cell.
Cell Membrane. The cell membrane surrounds and separates the cell from its
environment. The cell membrane allows certain materials to pass through it as they
enter or leave the cell.
Cytoplasm. The semifluid found inside the cell, but outside the nucleus, is
called the cytoplasm.
Mitochondria (Plural). Mitochondria are the “powerhouses” of the cell. The
mitochondria provide the energy wherever it is needed for carrying on the cellular
functions
Endoplasmic Reticulum. The endoplasmic reticulum is a network of membranes,
cavities, and canals. The endoplasmic reticulum helps in the transfer of materials from
one part of the cell to the other.
Ribosomes. Ribosomes are “protein factories” in the cell. They are composed mainly of
nucleic acids which help make proteins according to instructions provided by the genes.
Centrioles. Centrioles help in the process of cell division.
Lysosomes. Lysosomes are membrane bound spheres which contain enzymes that can
digest intracellular structures or bacteria.
CELL MULTIPLICATION (MITOSIS)
Individual cells have fairly specific life spans. Some types of cells have longer life spans
than others. During the processes of growth and repair, new cells are being formed. The
usual process of cell multiplication is called mitosis. There are two important factors to
consider: From one cell, we get two new cells. The genes of the new cells are identical (for all practical purposes) to the genes
of the original cell.
HYPERTROPHY/HYPERPLASIA
Hypertrophy and hyperplasia are two ways by which the cell mass of the body
increases.
With HYPERTROPHY, there is an increase in the size of the individual cells. No new cells
are formed. An example is the enlargement of muscles due to exercise by the increased
diameter of the individual striated muscle fibers.
With HYPERPLASIA, there is an increase in the total number of cells. An example of
abnormal hyperplasia is cancer.
ATROPHY is seen when there is a loss of cellular mass.