Prelim ANAPHY PDF

Summary

This is an overview of human anatomy and physiology, covering various topics such as embryology, development biology, gross anatomy, systematic anatomy, regional anatomy, surface anatomy, microscopic anatomy, cell biology, and histology. It also discusses types of tissues and types of studies in physiology, and levels of structural organization.

Full Transcript

TOPIC 1: THE HUMAN BODY: AN ORIENTATION
An Overview of Anatomy and Physiology
Anatomy
Greek word ana = part and tomy = to cut
study of the structure and shape of the body and its parts and their relationship to one
another
Physiology
Physio = nature and ology = study of
study the way in which a living organism or bodily part functions

Anatomy: Types of Study
1. Embryology
first 8 weeks of development
sperm and egg meet
2. Development Biology
complete development
3. Gross Anatomy
large structures
easily observable
can be easily seen by the naked eye
4. Systematic Anatomy
structure of specific systems of the body
11 organ system
study of the body by systems such as the cardiovascular, nervous, skeletal, and muscular
systems.
5. Regional Anatomy
study of the organization of the body by areas such as the head, abdomen, or arm, all
systems are studied simultaneously
specific regions of the body
6. Surface Anatomy
surface markings of the body to understand internal anatomy -> external structures
study of external features, such as the bony projections which serves as landmarks for
locating deeper structures
7. Microscopic Anatomy
very small structures
can only be with a microscope
8. Cell Biology
cellular structures and functions
9. Histology
Tissues
Types of Tissues:
connective - tissue supports other tissues and binds them together (bone, blood, and lymph
tissues)
 epithelial - tissue provides a covering (skin, the linings of the various passages inside the
body)
muscle - tissue includes striated (also called voluntary) muscles that move the skeleton, and
smooth muscle, such as the muscles that surround the stomach
nervous - tissue made up of nerve cells (neurons) and is used to carry "messages" to and
from various parts of the body

Physiology: Types of Study
1. Neurophysiology
functional properties of nerve cells
2. Endocrinology
hormones and how they control the body functions
3. Cardiovascular Physiology
functions of the heart and blood vessels
4. Immunology
body's defense against disease
the study of immune system
5. Respiratory Physiology
the organs and structures in your body
to pull in oxygen for your body's cells and get rid of carbon dioxide, a waste product
functions of the air passageways and lungs
exchange of gases oxygen -> carbon dioxide
6. Renal Physiology
the study of the physiology of the kidney
this encompasses all functions of the kidney
maintains acid-base balance
regulate air blood pressure
filtering impurities from the blood

Levels of Structural Organization
atoms = molecule
1. Chemical level (lowest / basic) - atoms form / combined to form molecules
2. Cellular level (cells) - basic unit of life - cells are made up of molecules
3. Tissue level - tissues consists of similar types of cells
4. Organ level - made up of different types of tissues
5. Organ system level - consists of different organs that work together closely
6. Organismal level - human organism are made up of many organ systems

The 11 Organ System Overview
1. Integumentary System
mainly for protection
forms the external body covering skin
protects deeper tissue from injury
synthesizes vitamin D
 location of cutaneous nerve receptors
thermoregulation -> control temperature by producing sweat
regulates the temperature -> 37°C (normal body temperature)
2. Skeletal System
bones, cartilages, ligaments, joints
protects and supports body organs
provides attachment for movement
site of blood cell formation (Hematopoiesis)
stores minerals and lipids (fats) = calcium
ligaments = attached
bone = made up of minerals
BONE MARROW = produce blood
3. Muscular System
allows manipulation of the environment, locomotion, and facial expression
the mobility of the body as a whole reflects the activity of skeletal muscles
maintains posture
produces heat
3 Types: Skeletal, Cardiac, Smooth Muscle
4. Nervous System (control system of the body)
the body's fast-acting control system
it consists of brain, spinal cord, nerves, and sensory receptors
responds to internal and external change
activates muscles and glands
5. Endocrine System
controls body activities
endocrine glands produce chemical molecules called hormones
endocrine glands include the pituitary, thyroid, parathyroids, adrenals, thymus, pancreas,
pineal, ovaries, and testes
Secretes regulatory hormones: Growth, Reproductive, Metabolism
6. Cardiovascular System
Oxygen, Nutrients, Hormones, Carbon Dioxide, Wastes
transport materials in the body via blood pumped by heart
transport nutrients, oxygen in the body
the primary organs are the heart and blood vessels
7. Lymphatic System
lymphatic vessels, lymph nodes, and other lymphoid organs
returns proteins and fluids of blood vessels
disposes debris
involved immunity
8. Respiratory System
for exchange gases
keep the body constantly supplied with oxygen
removes carbon dioxide
9. Digestive System
 breakdown foods
allows for nutrient absorption into blood
eliminates indigestible material
mouth = mechanical digestion
intestines = chemical digestion
10. Urinary System
eliminates nitrogenous wastes from the blood and flushes them from the body in urine
maintains acid-base balance
regulates water and electrolytes (salts)
11. Reproductive System
mammary glands (in breasts)
production of offspring
development and nourishment of a new individual
production of reproductive hormones

Maintaining Life
1. Maintaining boundaries
"inside" remains distinct from its "outside" > serves as protection
a. Cell is surrounded by an external membrane that prevents entry of some substances
b. Body is enclosed by the integumentary system
2. Movement (Muscular System)
all the activities promoted by the muscular system and manipulating the external
environment (locomotion)
movement of substances (blood, foodstuffs, urine)
3. Responsiveness (Irritability)
ability to sense changes (stimuli) in the environment and reacts to them
nervous system bears the major responsibility for responsiveness
> fast reaction or responds to survival
4. Digestion (Digestive System)
process of breaking down ingested food into simple molecules that can be then absorbed
into the blood
5. Metabolism (chemical reaction of the body)
chemical reactions within the body
depends on the digestive and respiratory system
regulated mainly by hormones
a. Catabolism - breakdown of larger molecules (gives off energy)
b. Anabolism - synthesis of larger molecules (requires energy)
6. Excretion (Removable)
process of removing excreta (wastes) from the body
digestive system rids the body of indigestible food residues in feces
the urinary system disposes of nitrogen - containing metabolic wastes in urine
7. Reproduction
formation of new cells for tissue growth, repair or replacement
production of future generations (reproductive system)
 the functions of the reproductive system is regulated very precisely by hormones of the
endocrine system
8. Growth
increasing cell size and number
hormones play a major role in directing growth

Survival Needs
the goal of nearly all the body systems is to maintain life

1. Nutrients (food): carbohydrates, proteins, fats, vitamins and minerals
2. Oxygen: required by the chemical reactions that release energy from foods
3. Water: provides the fluid base for body secretions and excretions
4. Normal Body Temperature: 37°C (98°F), must be maintained
5. Appropriate Atmospheric Pressure: force exerted on the surface of the body by the weight of
air (breathing and exchange of O2 and CO2)

HOMEOSTASIS (unchanging)
Homeo = the same; stasis = standing still
maintenance of a stable internal environment = a dynamic state of equilibrium (balance)
must maintained for normal body functioning and to sustain life
the body's ability to maintain relatively stable internal conditions even though the outside
world is continuously changing
Important aspects: maintaining body fluids (ex. blood)

Homeostatic Imbalance
a distance in homeostasis resulting in diseases (external and internal environment,
physiological stress)
most cases are mild and temporary / intense and prolonged

Regulating Systems of the Body
Nervous System
the body's primary control system
it is responsible for transmitting messages between different parts of the body and the brain
Endocrine System
is a collection of glands that produce hormones, which are chemical messenger that
regulates various bodily functions
Immune System
is the body's defense against foreign invaders, such as bacteria, viruses, and other
pathogens

Feedback System
cycle of events in which the status of a body condition is monitored, evaluated, changed,
remonitored, reevaluated, and so on.
2 Types of Feedback System:
 1. Negative Feedback
includes homeostatic control mechanism
shuts off the original stimulus
reduce its intensity
does not prevent variable but maintains variables within normal range
2. Positive Feedback
increase the original stimulus
pushing the variable farther
not directly used for homeostasis
only occurs in blood clothing and birth of a baby
generally associated with injury, diseases

Stimulus - produces changes in variable
Receptor - detects changes
Input - information sent along afferent pathway to control center
Output - information sent along efferent pathway to effector
Response - effector feedbacks to reduce the effects - stimulus and returns variables to
homeostatic level
RECEPTOR > CONTROL > EFFECTOR CENTER

The Language of Anatomy
special terminology is used to prevent misunderstanding
exact terms are used for position, direction

Anatomical Position
to accurately describe body parts and position
must have an initial reference point and use directional terms
the body is in a standard position called anatomical position
standard position
person standing erect with face directed forward, the upper limbs hanging to the sides, and the
palms of the hands facing forward

SUPINE - person is lying face upward
PRONE - person is lying face downward

Directional Terms
allow medical personnel and anatomists to explain exactly where one body structure is in
relation to another
the ears are located on each side of the head to the right and left of the nose
Regional Terms
there are many visible landmark on the surface of the body
once you know their proper anatomical names, you can be specific in referring to different
regions of the body
Body Planes - imaginary flat surface that pass through the body parts
Section - cut refers to the cut

Body Cavity
spaces that enclose internal organ
1. Dorsal Body Cavity:
cranial cavity - is the space inside the bony skull
spinal cavity - extends from the cranial cavity nearly to the end of the vertebral column
2. Ventral Body Cavity:
thoracic cavity - is separated from the rest of the ventral cavity by a dome-shape muscle, the
diaphragm
the abdominopelvic cavity - containing the stomach, liver, intestines, and other organs
Other Body Cavities:
1. Oral (mouth) and digestive cavities
2. Nasal cavity
3. Orbital cavities
4. Middle ear cavities
TOPIC 3: CELLS
Cells (the basic unit of life)
basic living unit of all organisms
highly organized
specialized structures called organelles
Structure (ORGANELLES)
little organ

Discovery of Cells: Robert Hooke (1665); "MICROGRAPHIA"
using his microscope with 3 lenses and a stage light, which illuminated and enlarged the
specimens, he saw some cubelike structures and name them cells
plant tissue - cork, cubelike structure, small rooms like monk's room (or cells) at the
monastery called "cellula"

Cell Theory
fundamental principles in biology that describes the basic unit of life and organization of
living organisms
Matthias Schelden, Theodor Schwann, & Rudolf Virchow (1838-1858)
1. A cell is the basic structural and functional unit of living organism
2. The activity of an organism depends on the collective activities of its cells
3. Principle of Complementary, the biochemical activities of cells are dictated by their shape or
form and by the relative number of their specific subcellular structures
4. Continuity of life has a cellular basis

Function of the Cell
1. Cell metabolism and Energy use
2. Synthesis of Molecules
3. Communication
4. Mitosis and Reproduction
Mitosis - cell division
from one parent it will produce 2 daughter cells
Reproduction - reproduction of new individuals
fertilization and union of sperm and egg

ATP = Adenosine Triphosphate
Mitochondria - skeletal for movement
Mitosis - cell division (multiplication)
Reproduction - production of offspring (fertilization)

Anatomy of Cells (Structures)
3 Main Regions:
1. Nucleus
2. Plasma / Cell Membrane
3. Cytoplasm
Nucleus
control center of the cell (acts like the brain)
contains genetic material (DNA)
shape: oval / spherical / conforms to the same of the cell
3 regions / structures: Nuclear Envelope, Nucleoli, and Chromatin
holes: regulates the passage of molecules (entry / exit)
Nucleolus > ribosomal RNA > ribosomes + protein

✓ Nuclear Envelope
regulate the passage
double membrane barrier
allows same but not all substances
✓ Nucleoli
where ribosomes are assembled
ribosomes migrate into the cytoplasm
synthesize ribosomal RNA (rRNA) ribosomes
✓ Chromatin
DNA is organized
chromosomes

Plasma / Cell Membrane
barrier of the cell contents
contains fluid mosaic model
(double phospholipid layer): hydrophilic heads and hydrophobic tails
hydrophilic - water loving
hydrophobic - water fearing
also contains protein, cholesterol, glycoproteins

membrane junctions > specialized area - cells are connected to one another
1. glycoproteins
act as an adhesive / cellular glue
2. wavy contours of the membrane of adjacent cells
fit together in a tongue and groove fashion
3. special membrane junctions
vary in structures depending on their roles:
a. tight junctions - prevent / does not allows the passage
b. desmosomes - strength and stability to prevent stress
c. gap junctions - small passageway for molecules

Cytoplasm
materials outside the nucleus and inside the plasma membrane
site of most cellular activities:
1. cytosol - semitransparent fluid that suspends the other elements
 2. organelles - the metabolic machinery of the cell
3. inclusions - chemical substances that may or may not be present, depending on the specific
cell type

Mitochondria
shape: lozenge-like / sausage - shape
change shape continuously
energy production
Powerhouse of the cell = primary sites of adenosine triphosphate (ATP) for cellular energy
Ribosomes
made up of proteins and rRNA
sites of protein synthesis
founds at 2 location: free in the cytoplasm and attached to rough endoplasmic reticulum

Endoplasmic Reticulum
fluid filled tubules for carrying substances that coli and twist through cytoplasm
there are two types: Rough ER and Smooth ER
1. Rough ER
it is studded with ribosomes
the proteins made on its ribosomes migrate into the tubules
transport vesicles
site where building materials of cellular membrane are formed
2. Smooth ER
communicates with the rough variety
it plays no role in protein synthesis
it functions in lipid metabolism (cholesterol and fat synthesis and breakdown) and
detoxification of drugs and pesticides

Golgi Apparatus
stacks of flattened membranous sacs that modify and package proteins
produces different types of packages:
1. secretory vesicles
2. cell membrane components
3. lysosomes

Lysosomes
breakdown bodies
contains enzymes and acidic
digesting work-out / non-usable materials within the cell and most foreign substances that
enter the cell
abundant in phagocytes
Peroxisomes
membranous sacs that oxidase enzymes
detoxify harmful substances
 converts free radicals to hydrogen peroxide (H2, O2)
numerous in liver and kidney cells

Cytoskeleton
(provides support and maintain shape of the cell)
network of protein structures that extends throughout the cytoplasm
provides the cell with an external framework

a. microfilaments
actin subunit
form the blue batlike network
b. intermediate
fibrous subunit
form the purple network surrounding the pink nucleus
c. microtubules
tubulin subunit
appear as gold network surrounding the cells pink nuclei

Centrioles
rod shape bodies made of microtubules that lie close to the nucleus
direct formation of mitotic spindle during cell division

Cell Extension
1. Cilia
microtubules
numerous and whip-like that more substances along the cell surface (respiratory tract)
2. Flagella
microtubules
1 per cell (sperm cell)
move an entire cell
3. Microvilli
microfilaments
tiny, finger - like projections
numerous on cells that have them (intestines and kidney)
increase the surface areas of those cells

Cell Physiology
Membrane Transport
plasma membrane is selectively permeable
substances moves through the plasma membrane

Passive Processes: Diffusion and Filtration
does not require ATP / Energy
movement of molecules: from higher concentration to lower concentration
a. Simple Diffusion
b. Carrier - mediated facilitated
c. Channel - mediated facilitated diffusion
d. Osmosis
Active Transport
requires ATP / Energy
lower concentration to higher concentration
Vesicular Transport
requires ATP / Energy
membrane boundsacs (vesicles)

1. Exocytosis - moves substances out of the cell
2. Endocytosis - enclosed ATP requiring processes in a small membranous vesicles
a. Phagocytosis - cell eating
b. Pinocytosis - cell dividing
c. Receptor - mediated endocytosis
main cellular mechanism for taking up specific target mediated

TONICITY - ability to change the size and shape of the cells
1. Isotonic Solution - same, equal
2. Hypertonic Solution - shrink / dissolved substances (more solution)
3. Hypotonic Solution - small solution / more solute inside
fewer cell swells
distilled water

Cell Division
Cell Life Cycle
is a series of events that takes place in a cell as it grows and divides
Interphase (larger stage) - the cell grows and carries its usual metabolic activities
Cell Division - reproduces itself
DNA Replication

Events of Cell Division
Mitosis
division of the nuclear, occurs first / second, division of the cytoplasm
Cytokinesis
begins when mitosis is nearly completed

Stages of Mitosis (PMAT)
PROPHASE
METAPHASE
ANAPHASE
TELOPHASE
Cytokinesis - begins during late anaphase and completes during telophase
Central Dogma of Biology
DNA > RNA > Proteins
TOPIC 4: BODY TISSUE
Histology - structures and functions of tissues
Primary Types:
1. Epithelial - Covering
2. Connective - Binds / Connects / Supports
3. Muscle - Movement
4. Nervous - Signals / Controls

Epithelial Tissue (singular: Epithelium)
Found in different areas:
Body coverings
Body linings
and Glandular tissues
(skin, small intestine, kidney, gland)
Functions:
Protection
Absorption
Filtration
Secretion
Special Characteristics:
Cells fit closely together to form continuous sheets
Tissue layer always has 1 free (unattached) surface or edge (optical surface)
The lower surface is bound by a basement membrane
Avascular (have no blood supply of their own)
Regenerate easily if well nourished

(2) Classification: Simple Stratified

1. Number of cell Simple Squamous Stratified
layers Simple Cuboidal Squamous
Simple Columnar Stratified Cuboidal
Pseudostratified Stratified Columnar
a. Simple (1 layer)
(means: FALSE) Transitional
Simple (it appears Epithelium
b. Stratified (2 or more) stratified) (have (UROTHELIUM)
varied lengths) undergo
2. Shape of the cells appearance
changes
stretching
a. Squamous (flat)

b. Cuboidal (cube)
 c. Columnar (column-like)

Glandular Epithelial
Gland - 1 or more cells that secretes a particular products (secretions)
2 major types:
1. Endocrine Glands
Ductless
Secretions are hormones (thyroid, adrenals, etc.)
2. Exocrine Glands
Secretions through ducts to the epithelial surface
Sweat glands, oil glands, liver pancreas

Connective Tissue (vascular - own blood supply)
Most abundant and widely distributed to the tissue types
Adipose tissue - stores tissue / lipids
Functions:
Protection
Support
Binding body tissue together
Storage
Common Characteristics:
1. Variations in blood supply
Most are well-vascularized
Some have poor blood supply (tendons and ligaments) on one avascular (cartilage)
2. Extracellular Matrix (ECM)
Non-living materials that surrounds living cells
2 Main Elements:
a. Ground Substance - mostly water along with adhesive and polysaccharides molecules
b. Fibrous - produced by the cells: 3 types:
1. Reticulum - mainly for support
2. Elastic - unchangeable
3. Collagen - flexible / resist stretching

5 Types of Connective Tissues
1. Bone / Osseous Tissue
bone cells / osteocytes (consists of collagen)
hard because of minerals like calcium salts, large numbers of collagen fibers
2. Cartilage / Chondrocytes
less hard and more flexible than bone
a. Hyaline Cartilage (collagen)
connecting support
most abundant type
 forms the supporting of structures of larynx
b. Fibrocartilage
highly compressible
cushion like disks between vertebrae of the spinal column
c. Elastic Cartilage
higher concentration of elastic (coil to its original form)

3. Dense Connective Tissue (dense fibrous tissue) (collagen fibers = main matrix elements)
tendons - attached muscle to bone
ligaments - attached bone to bone
4. Loose Connective Tissue
fibers are far apart (have more cells and fewer fibers)
a. Areolar Tissue
most widely distributed (3 types of fiber)
nourishment (cushion, protects, supports the body organs)
area swells and becomes puffy, called edema
b. Adipose Tissue (adipocytes / fat cells)
certain large lipid deposits
site of food storage
c. Reticular Connective Tissue
fine interlacing networks of reticular fibers
(thin form of collagen fiber) and reticular cells

5. Blood (vascular tissues)
consists of blood cells
platelets (blood clothing)
fluid (blood plasma)

Muscle Tissue (movement)
muscle cells (myocytes)
"my" fresh + "ocytes" cells
consists of elongated cells
Functions:
Body Movement
Maintain posture
Generate heat
Protection

Muscle attach to bones (skeletal)
Muscles of heart (cardiac)
Muscles of walls of hollow organs (smooth)
 SHAPE STRIATION NUCLEUS MOVEMENT
(bonds)

SKELETAL Cylindrical Present Multinucleated Voluntary

CARDIAC Cylindrical Present 1 Nucleus per Involuntary
(interrelated cell
dics)

Spindle shape
SMOOTH Absent Involuntary
1 Nucleus per
cell

Nervous Tissue
Neurons and nerve support cells (neuroglia)
Functions:
a. Send impulses to other areas of the body (irritability and conductivity)
b. Insulate, support and protect delicate neurons

Tissue Repair (Wound Healing)

2 Major Ways:

1. Regeneration
○ replacement of destroyed tissue by the same type of cells
2. Fibrosis
○ repair by dense connective tissue (scar tissue)

Determination of method depends on:

type of tissue damaged
severity of the injury

Events in Tissue Repair:
 1. Inflammation
2. Granulation tissue forms
3. Regeneration and fibrosis affect permanent repair

Granulation Tissue

fibroblasts
collagen
capillaries

↳ part of fibrosis

Tissue Regeneration

1. tissues that regenerate easily
○ epithelial tissue
○ fibrous connective tissue & bone
2. tissues that regenerate poorly
○ skeletal muscle
3. tissues that are replaced largely with scar tissue
○ cardiac muscle
○ nervous tissue within the brain & spinal cord

cell death → inflammation → necrosis

sperm and egg meet → zygote → embryo (first 8 weeks) → fetus (9 weeks until birth)

↳ formation of germ layer → organogenesis
Germ Layers

1. ectoderm - outer
2. mesoderm - middle
3. endoderm - innermost

Developmental Aspects of Cells & Tissues

epithelial tissue arises from primary germ layers
muscle and connective tissue arise from mesoderm
nervous tissue arise from ectoderm
with old age there is a decrease in mass and viability in most tissues

Modifications of Cells & Tissues

1. Neoplasms (Tumors)
○ uncontrolled cell division
○ abnormal mass of proliferating cells
 ○ Benign - local, encapsulated, non-cancerous
○ Malignant - capable of invading or spreading (metastasis), not capsulated,
cancerous
2. Hyperplasia
○ enlargement of certain body tissues (or organs) due to some local irritant or
condition that stimulates the cells
ex: callus
○ enlargement of women breast during pregnancy in response to increased hormones
3. Atrophy
○ decrease in size of an organ/body area that loses its normal stimulation
○ muscles that are not used/lost nerve supply