MC-1-LEC_LESSON-1_INTRODUCTION-TO-HUMAN-BODY.pdf

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LESSON 1: Introduction to the Human Body
1st Semester | A.Y. 2024-2025
GROSS ANATOMY
OBJECTIVES ▪ From the latin word grossus meaning
“thick” or “massive”
Define anatomy
Define physiology ▪ Also known as Macroscopic Anatomy.
Difference between gross and
microscopic anatomy ▪ Can be conducted without a
Identify the major levels of organization
of the body from the simplest to the
most complex microscope.
▪ Study of large body structures visible to
the naked eye, such as the heart, lungs,
WHAT IS ANATOMY AND PHYSIOLOGY?
and kidneys.
ANATOMY ▪ DISSECTION- an important part of gross
▪ derived from the Greek words ana (up)
anatomy in which connective tissue is
and tomia (cutting), meaning "to cut
removed from between the body
apart."
organs so that the organs can be seen
▪ Study of internal and external body more clearly.
structures
also studies the structure of body parts
and their relationships to one another.
DIFFERENT FORMS OF GROSS ANATOMY
▪ Anatomy has a certain appeal because
SURFACE ANATOMY
it is concrete.
▪ study of general form of the body’s
▪ Body structures can be seen, felt, and
surface
examined closely.
▪ the study of internal structures as they
relate to the overlying skin surface
PHYSIOLOGY
▪ clinicians use it to locate appropriate
▪ Physio-physical
blood vessels in which to feel pulses to
▪ Study of how living organisms perform
draw blood
their vital functions
▪ It also concerns the function of the body,
REGIONAL ANATOMY
in other words, how the body parts work
▪ anatomical organization of specific
and carry out their life-sustaining
areas of the body such as head, neck or
activities.
trunk
HUMAN ANATOMY
▪ Study of the structure of the human
SECTIONAL ANATOMY
body ▪ study of the relationship of body’s
structures by examining cross sections
TWO PARTS OF HUMAN ANATOMY of the tissue or organ

CLINICAL ANATOMY
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▪ includes a number of subspecialties
important in clinical practice LEVELS OF STRUCTURAL ORGANIZATION
▪ Examples: Pathological, Radiographic, CHEMICAL LEVEL
Surgical Anatomy ATOM → MOLECULE
▪ Atom
SYSTEMIC ANATOMY o building blocks of matter
▪ study of the structure of organ system, o they also participate in chemical
which are groups of organs that reactions
function together in a coordinated o CHONPCaS: Carbon (C), Hydrogen
manner. (H), Oxygen (O), Nitrogen (N),
▪ Examples: Skeletal System, Muscular Phosphorus (P), Calcium (Ca), and
System, Cardiovascular System Sulfur (S), are essential for
maintaining life.
DEVELOPMENTAL ANATOMY ▪ Molecules
▪ describes the changes in form that take o formed by two or more atoms
place between conception and o DNA and glucose (essential
adulthood molecules)
o “Blood sugar”: another term for
MICROSCOPIC ANATOMY glucose
▪ also known as histology
▪ deals with structures too small to be CELLULAR LEVEL
seen with the naked eye MOLECULE → CELL
▪ Under this type of anatomy, we use Cell
microscopes o basic unit of life
▪ SUBDIVISIONS o smallest living units in the human
o Cytology- internal structure of the body.
individual cells, the simplest units of o EXAMPLES: muscle cells, nerve cells,
life. etc.
o Histology- examination of the
tissues TISSUE LEVEL
▪ Types of Microscopes:
CELLS → TISSUES
o DISSECTING MICROSCOPE ▪ Tissues
▪ tissue structure
o are groups of similar cells that
o LIGHT MICROSCOPE have a common function
▪ basic details of the cell ▪ FOUR BASIC TYPES OF TISSUES THAT
structure MAKE UP ALL THE ORGANS
o ELECTRON MICROSCOPE
o EPITHELIAL
▪ individual molecules only ▪ covers the body surface
nanometers across and lines its cavities
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o CONNECTIVE o Every living organism should
▪ supports the body and maintain its boundaries so that its
protects its organs internal environment remains
o MUSCULAR distinct from its external
▪ provides movement environment.
o NERVOUS o EXAMPLE: Our cells are lined with a
▪ provides fast internal semi-permeable membrane that
communication by serves as a covering; our body is
transmitting electrical covered by INTEGUMENTARY SYSTEM
impulses (skin) to protect the organs from
ORGAN LEVEL pathogens
TISSUES → ORGANS ▪ MOVEMENT
Organ o activities promoted by the
▪ Discrete structure composed of at least muscular system, such as
two tissue types that perform a specific propelling ourselves from one place
function for the body to another by running or swimming
and manipulating the external
ORGAN SYSTEM LEVEL environment with our nimble fingers
ORGANS → ORGAN SYSTEM ▪ RESPONSIVENESS/ EXCITABILITY
Organ System o ability to sense changes (which
▪ Consists of related organs with a serve as stimuli) in the environment
common function and then respond to them
▪ EXAMPLE: DIGESTIVE SYSTEM- breaks ▪ DIGESTION
down and absorbs nutrients from the o The breaking down of ingested
food (mouth, salivary glands, foodstuff into simple molecules that
esophagus, pharynx (throat), stomach, can be absorbed into the blood
small intestine, large intestine, liver, ▪ METABOLISM
gallbladder, and pancreas. o Includes all chemical reactions that
occur within body cells
ORGANISM LEVEL o Catabolism [Complex to Simple]

ORGAN SYSTEM → ORGANISM breaking down into simpler

Organism building blocks

▪ represents the sum of all structural o Anabolism [Simple to Complex]

levels working together to keep us alive. synthesizing more complex
cellular structures from
simpler substances
NECESSARY LIFE FUNCTIONS
o Cellular respiration
using nutrients and oxygen
▪ MAINTAINING LIFE BOUNDARIES
to produce ATP (adenosine
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triphosphate) – energy-rich 2) OXYGEN
molecules that power a. 20% of the air we breathe is Oxygen
cellular activities (O2). Chemical reactions that release
▪ EXCRETION energy from foods are oxidative
o Process of removing waste/ excreta reactions that require oxygen.
o EXAMPLES: 3) WATER
Digestive- undigested food a. accounts for 60-80% of the body
(feces) weight
Urinary- nitrogen- b. provides a watery environment for
containing wastes such as chemical reactions
urea (urine)
Respiratory- (carbon 4) NORMAL BODY TEMPERATURE
dioxide) a. 98.6 Fahrenheit (37 Celsius)
▪ REPRODUCTION
o process by which organisms 5) ATMOSPHERIC PRESS
replicate themselves.
a. the force that air exerts on the
▪ GROWTH
surface of the body.
o the irreversible increase of an
b. In high altitudes, where atmospheric
organism's size over a given period
pressure is lower, and the air is thin,
gas exchange may be inadequate to
SURVIVAL NEEDS support cellular metabolism.

▪ The main goal of all body systems is to HOMEOSTASIS
maintain life.
▪ comes from Greek word homeo “similar’
▪ involves nutrients (food), oxygen, water,
+ stasis “state of standing”
and appropriate temperature and
▪ describe its ability to maintain relatively
atmospheric pressure.
stable internal conditions even though
the outside world changes continuously
1) NUTRIENTS
▪ Failure to maintain homeostasis soon
a. Carbohydrates leads to illness or death.
i. primary energy fuel for body cells.
b. Calcium MECHANISMS OF HOMEOSTATIC REGULATION
i. necessary for blood clotting.
c. Minerals & vitamins
HOMEOSTATIC REGULATION
i. required for the chemical reactions
adjustment of physiological systems
in cells and oxygen transport in the
to preserve homeostasis.
blood.

INVOLVES TWO GENERAL MECHANISMS
▪ AUTOREGULATION
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process occurs when a cell, tissue, ▪ information (output) then flows from the
organ, or organ system adjusts in control center to the third component,
response to environmental change. the effector
change in temperature, our skin ▪ Efferent pathway (↓)-information flows
“chicken skin” because it contracts from the control center to the effector
due to change in temp
▪ EXTRINSIC REGULATION EFFECTOR
process that results from the ▪ A cell or organ that responds to the
activities of the nervous system or commands of the control center and
endocrine system whose activity either opposes or
organ systems detect an enhances the stimulus.
environmental change and send an ▪ The results of the response then FEED
electrical signal (nervous system) or BACK to influence the effect of the
chemical messenger (endocrine stimulus, either reducing it (in negative
system) to control or adjust the feedback) so that the whole control
activities of another or many other process is shut off or enhancing it (in
systems simultaneously. positive feedback) so that the whole
process continues at an even faster rate.
PROCESS OF HOMEOSTATIC REGULATION
NEGATIVE FEEDBACK MECHANISM
▪ A way of counteracting change.
▪ The output shuts off the original effect of
the stimulus or reduces its intensity
▪ MAIN GOAL: Preventing sudden severe
changes within the body.
▪ EXAMPLES: ENDOCRINE SYSTEM- insulin
controls blood sugar (glucose). As blood
RECEPTOR
sugar rises, receptors sense this change,
▪ A sensor that is sensitive to a particular
and the pancreas (the control center)
stimulus or environmental change
secretes insulin into the blood. Change, in
▪ Stimuli- responds to changes, by
turn, prompts body cells to absorb more
sending information (input) to the
glucose, removing it from the
second component
bloodstream, causing blood sugar to fall
▪ Afferent pathway (↓)- Input flows from
and the stimulus for insulin release to
the receptor to the control center
end.

CONTROL CENTER
POSITIVE FEEDBACK MECHANISM
▪ Analyze the input it receives and
determine the appropriate response or
course of action.
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▪ The result or response enhances the
original stimulus to accelerate the
response.
▪ Two familiar examples of their use as
homeostatic mechanisms are the
enhancement of labor contractions a. It protects and supports body organs
during birth and blood clotting. and provides a framework for the
o LABOR- during labor, the muscles to use to cause movement.
hypothalamus secretes oxytocin, Blood cells are formed within bones.
causing the contractions to become Bones store minerals.
more frequent and powerful. b. 206 Bones, Joints
o BLOOD CLOTTING- When blood loss C. MUSCULAR SYSTEM
occurs due to a wound, the body
activates a positive feedback loop to
clot the blood and halt the bleeding.
The injured blood vessel releases
substances that start clotting, with
platelets sticking to the site and
a. Allows manipulation of the
releasing chemicals to gather more
environment, locomotion, and facial
platelets. This process rapidly
expression. Maintains posture and
accelerates, attracting more
produces heat.
platelets to enlarge the clot until the
b. Skeletal Muscles
bleeding stops.
D. NERVOUS SYSTEM
11 SYSTEMS OF THE HUMAN BODY
A. INTEGUMENTARY SYSTEM

a. As the fast-acting control system of
the body, it responds to internal and
a. Forms the external body covering and
external changes by activating
protects deeper tissues from injury
appropriate muscles and glands.
protects deeper tissues from injury.
b. Brain, Neurons, Spinal Cord
Synthesizes vitamin D and houses
E. ENDOCRINE SYSTEM
cutaneous receptors (pain, pressure,
etc.) and sweat and oil glands.
b. Hair, Skin, Nails
B. SKELETAL SYSTEM
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b. Red bone marrow, thymus, lymphatic
vessels, spleen, lymph nodes, thoracic
duct
H. RESPIRATORY SYSTEM

a. Glands secrete hormones that
regulate growth, reproduction, and
nutrient use (metabolism) by body
cells.
b. Thyroid Gland, thymus, Adrenal Gland, a. Keeps blood constantly supplied with.
Pancreas, Pineal Gland, pituitary gland, oxygen and removes carbon dioxide.
ovary, testes The gaseous exchanges occur
through. the walls of the air sacs of the
F. CARDIOVASCULAR SYSTEM lungs.
b. Nasal cavity, pharynx, larynx, trachea,
lungs, bronchus

I. DIGESTIVE SYSTEM

a. Blood vessels transport blood, which
carries oxygen, carbon dioxide,
nutrients, wastes, etc. The heart pumps
blood.
b. Heart and blood vessels a. Breaks down food into absorbable
units that enter the blood for

G. LYMPHATIC SYSTEM/ IMMUNITY distribution to body cells. Indigestible
foodstuffs are eliminated as feces.
b. Oral Cavity, esophagus, liver, stomach,
small intestine, large intestine, rectum,
anus

a. Picks up fluid leaked from blood J. URINARY SYSTEM

vessels and returns it to blood.
Disposes of debris in the lymphatic
stream. White blood cells
(lymphocytes) are involved in
immunity. The immune response
mounts the attack against foreign
substances within the body.
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a. Eliminates nitrogenous wastes from
the body. Regulates water, electrolyte,
and acid-base balance of the blood.
b. Kidney, ureter, urethra, urinary bladder

K. MALE REPRODUCTIVE SYSTEM

ABDOMINOPELVIC REGIONS

a. Overall function is the production of
offspring. Testes produce sperm and
male sex hormones, and male ducts
and glands aid in the delivery of sperm
to the female reproductive tract.
b. Prostate gland, penis, testes, scrotum
ducus (vas deferens) ▪ UMBILICAL REGION- the centermost
c. region deep to and surrounding the
L. FEMALE REPRODUCTIVE SYSTEM umbilicus
▪ EPIGASTRIC REGION- located superior to
the umbilical region (epi =upon, above;
gastri = belly).
▪ THE HYPOGASTRIC (PUBIC) REGION-
located inferior to the umbilical region
a. Ovaries produce eggs and female sex (hypo = below).
hormones. The remaining female ▪ The right and left iliac, or inguinal,
structures serve as sites for fertilization regions are located lateral to the
and development of the fetus. The hypogastric region (iliac = superior part
mammary glands of female breasts of the hip bone).
produce milk to nourish the newborn. ▪ The right and left lumbar regions lie
b. Mammary glands, ovary, uterus, lateral to the umbilical region (lumbus =
vagina, fallopian tube loin).
▪ The right and left hypochondriac

ANATOMICAL REGIONS regions lie lateral to the epigastric region
and deep to the ribs (chondro =
ABDOMINOPELVIC QUADRANTS
cartilage).
-Intersect at the umbilicus
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ANATOMICAL POSITION AND DIRECTIONAL DIRECTIONAL TERMS
TERMS
TWO FUNDAMENTAL DIVISIONS OF OUR
BODY:
AXIAL - which makes up the main axis
of our body, includes the head, neck,
and trunk [80 bones]
APPENDICULAR- consists of the
appendages, or limbs, which are
attached to the body's axis [126
bones]

ANATOMICAL LANDMARKS

BODY PLANES AND SECTION

SAGITTAL PLANE
▪ is a vertical plane that divides the body
into right and left parts.
MEDIAN/MIDSAGITTAL- divides the
body into two equal parts vertically.
PARASAGITTAL- Other sagittal
planes offset (unequal) from the
midline.
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FRONTAL/CORONAL PLANE
▪ divide the body into anterior and
BODY CAVITIES AND MEMBRANES
posterior parts

TRANSVERSE/ CROSS SECTION PLANE BODY CAVITIES

▪ runs horizontally from right to left, ▪ DORSAL BODY CAVITY/LATERAL VIEW
dividing the body into superior and Cranial Cavity: fills most of the
inferior parts upper part of the skull and contains
the brain
Vertebral/Spinal Cavity: a very
long, narrow cavity inside
the vertebral column. It runs the
length of the trunk and contains
the spinal cord.

▪ VENTRAL CAVITY
OBLIQUE SECTION Thoracic Cavity: the chest is
▪ are cuts made diagonally between the divided into two pleural cavities and
horizontal and the vertical planes. the pericardial cavity.
2 Pleural cavities: hold the
lungs
Pericardial cavity: holds
the heart
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Abdominopelvic Cavity: fills the
lower half of the trunk and is
subdivided into the abdominal and
pelvic cavities.
Abdominal cavity: holds
digestive organs, the kidneys
Pelvic cavity: holds
reproductive organs and
organs of excretion

MEMBRANES IN THE VENTRAL BODY CAVITY
▪ SEROSA/ SEROUS MEMBRANE
covers the walls of the ventral body
cavity and the organs it contains
To prevent friction and membrane
to membrane touch.
PARIETAL SEROSA
part of the membrane lining
the cavity walls
External
VISCERAL SEROSA
covering the organs in the
cavity
Internal
▪ SEROUS FLUID- a lubricating fluid which
separates the serous membranes