Chapter 11: Introduction to Human Organization PDF

Summary

This document is a presentation/lecture about human anatomy and physiology. It explains the basics of anatomical organization, from cells to tissues, to organs, to organ systems. It includes descriptions of various tissue types and their functions, emphasizing how structure relates to function.

Full Transcript

Anatomy is the study
of the structure of an
organism.
Knowledge of a
structure provides
insight into what it
does and how its
works.

Structure = Anatomy
Anatomy = Structure
 Physiology is the
study of the
functions an
organism performs.
Knowledge of the
function of a
structure provides
insight about its
construction.

Physiology= functions Functions = physiology
 Animals are multicellular
organisms with several
levels of biological
organization:
1. specialized cells are
grouped into tissues.
2. combinations of various
tissues make up
functional units called
organs
3. groups of organs that
work together form
organ systems.
 Tissues are groups of cells with a common
structure and function.
 Different types of tissues have different

structures that are especially suited to
their functions.
 Tissues are classified into four main

categories:
1. epithelial tissue
2. connective tissue
3. nervous tissue
4. muscle tissue
Epithelial tissue
covers the outside
of the body and lines
organs and cavities
within the body.
Epithelial tissue
occurs in sheets of
tightly packed cells
that are classified by
shape and # of
layers
(stratification). SHAPE and Layers

 Shape and layer
ANATOMY: Epithelium tissues: shape and
number of cell layers
1) Cell Layer
A).Simple epithelium has
a single layer of cells
B). Stratified epithelium
has multiple cell layers.

2 Cell Shape
A). Cuboidal (like dice)
B). Columnar (like
rectangles or bricks
C). Squamous (flat
like floor tiles)
Fig. 40.1
 Physiology of Epithelial Tissue:

 1). Protection: barrier against mechanical
injury, invasive microorganisms, and fluid loss.

 2) Secretion (glands): absorb or secrete
chemical solutions.
 3). Mucus: Lines the cavity of the digestive and

respiratory tracts and forms a membrane that
secretes a slimy solution called mucus that
lubricates the surface and keeps it moist.
 4). Absorption: ex: nutrients from the small
intestine
 5). Diffusion: gases in the lungs
 6). Filtration: molecules from kidneys/
Fluid CT: blood
Connective tissues have a sparse
population of cells and protein fibers
scattered through an extracellular matrix.
1.Matrix: solid, semisolid or jelly, or liquid
foundation
2.Fibers: web of protein fibers consisting
of collagen, elastic or reticular fibers.
3.Cells: various types that in most cases
secrete the matrix. (ex: fibroblasts,
macrophages, )
Connective tissue fibers:

◦ Collagen fibers are made of white collagen
protein which are flexible but strong. They are
not elastic, but do not tear easily when pulled
lengthwise.

◦ Elastic fibers are long yellow threads of the
protein elastin and are not as strong as
collagen, but more elastic.

◦ Reticular fibers are very thin and branched
collagen fibers and form a supportive network
of woven fabric that joins connective tissue to
adjacent tissues.
Types of connective tissues in vertebrates:
Loose fibrous tissue
Dense fibrous tissue
Adipose tissue
Cartilage
Bone
Blood and lymph

Each has a structure
correlated with its
specialized
function. (A&P!!!)

Fig. 40.2
Physiology
Overview:
1.Fibrous CT: Binds and
supports other tissues
and organs and/or stores
fat (loose, dense &
adipose)
2.Supportive CT:
Provides support and
protection (bones &
hyaline cartilage)
3.Fluid CT: distributes
nutrients and oxygen
(blood & lymph)
1). Loose Fibrous connective tissue
A). Physiology: supports and protects
epithelium and many internal organs holding
organs in place.
B). Anatomy:
Fibers: all three fiber types:

collagen, elastic and reticular
Matrix: jelly-like
Cells:

◦ Fibroblasts secrete the protein ingredients of the
extracellular fibers.
◦ Macrophages are amoeboid cells that roam the
maze of fibers, engulfing bacteria and the debris of
dead cells by phagocytosis.
2. Dense Fibrous Connective Tissue

A). Physiology:
◦ Tendons: attaching muscles to bones
◦ Ligaments: joining bones to bones at
joints.

B). Anatomy: is dense, due to its large
number of collagenous fibers.
 Fibers: collagen organized into parallel

bundles, an arrangement that maximizes
non-elastic strength
 Matrix: jelly-like
 Cells: Fibroblasts
3. Adipose tissue (specialized loose CT)
A). Physiology
Energy: Fat is stored in adipose cells and

used for energy
Protection: surrounds organs (ex: kidney)
Insulation: to maintain body temperature.

B). Anatomy:
Fibres: reticular
Matrix: very little space
Cells: Adipocytes swell when fat

is stored and shrink when fat is
used as fuel
4. Cartilage (Supportive CT)
A). Physiology: A strong yet somewhat
flexible support material in certain locations,
such as the nose, ears, ribs, and vertebral
disks.
B). Anatomy:
Fibers: collagenous & elastic fibers

Matrix: gel-like; protein-carbohydrate matrix.

 Cells: Chondrocyte cells lie in small
chambers called lacuna.
 Fibrocartilage:
Elastic: (outer ear): mostly Vertebrae pads & knee joint):
Elastic fibers & more flexible strong collagen fibers

Hyaline: (nose, ribs):
firm and flexible, fine
collagen fibers
5. Bone: (Supportive CT)
A). Physiology:
Support and protection: most vertebrates

skeleton is made of bone.
Mineral Storage (Ca+, Mg+…)
Blood Cell Formation

B). Anatomy:
Fibers collagen fibers strength and elasticity
Matrix: calcium and inorganic salts harden

the matrix
 Cells: Osteocytes within lacuna
1. Compact Bone: (shafts of long bones)

2. Spongy Bone: (end of long bones)
6. Blood ( Fluid CT)
A). Physiology:
Transports respiratory gases, ions, nutrients

and wastes
Regulation: body temperature, pH, salts
Helps protect against disease

B). Anatomy:
Fibers: soluble proteins (ex: fibrinogen)
Matrix: liquid plasma, consisting of water,

salts, and a variety of dissolved proteins.
Cells: Erythrocytes (red blood cells),

leukocytes (white blood cells) and thrombocytes
(platelets; cell fragments) that function in blood
clotting
A). Anatomy:
Cells are called muscle fibers that contract

when stimulated by nerve impulses. Muscle
fibers contain contractile proteins actin
(microfilaments) and myosin filaments.
Fibers are cylindrical and long and depend on

the type of muscle (there are 3)
B). Physiology:
Skeletal:Voluntary movement
Cardiac: Involuntary -> pumping of blood

 Smooth: Involuntary-> aids the movement of

substances in lumens (cavities) of the body
 Three types of Muscular
Tissue

Fig. 40.4
Physiology:
attached to bones by tendons and responsible

for voluntary movement of body parts.
Anatomy:
cylindrical, long, overlapping filaments
striped or striated appearance
Multinucleated
Smooth muscle: (no striations)
Physiology:
involuntary body activities such as churning of the
stomach and constriction of arteries.
Acts involuntarily to aid the movement of

substances in lumens (cavities) of the body
They contract more slowly than skeletal muscles

but can remain contracted longer.
found in the walls of the digestive tract, urinary

bladder, arteries, and other internal organs.
Anatomy:
cells are spindle-shaped and not striated
One nucleus/cell in

irregular patterns
Physiology:
 involuntarily contraction pumps
blood & accounts for heart beat

Anatomy:
striated like cardiac muscle, but cardiac cells

are branched.
Single, central placed nucleus
Cells are joined by intercalated disks, which

relay signals from cell to cell during a heartbeat.
A). Physiology: Conducts impulses
senses stimuli, interprets and transmits signals

from one part of the animal to another.
B). Anatomy:
Neurons: dendrites, cell body and an axon.
Neurolgia: cells that support and nourish neurons

Fig. 40.3
1. Ventral Cavity (divided by the diaphragm)
 Thoracic cavity
 Lungs
 Heart
 Abdominal cavity
 Visceral organs
 Bladder
 Reproductive organs

2. Dorsal Cavity
 Cranial cavity
 Brain
 Vertebral Canal
 Spinal cord
 vertebrae
1.Mucous Membranes:
made of epithelium cells overlying loose fibrous
connective tissues
lines the digestive, respiratory, urinary and
reproductive systems
goblet cells produce mucous
mucous protects the body from bacteria and viruses.

2. Serous Membranes:
composed of epithelium and loose fibrous connective
tissues
lines the thoracic and abdominal cavitites
secrete a watery fluid for lubrication, support of
internal organs, and prevent infections
 NAME: according to location: pleurae (line lungs)

pericardium (line heart) and peritoneal
lines the abdominal cavity
3. Synovial membranes:
composed of loose connective tissue
line joint cavities
secrete synovial fluid for lubricating bones.

4.Meninges:
composed of connective tissue
Line the dorsal cavity (brain and vertebral

canal)
 protect the brain and spinal cord.
 Organ systems carry out the major body
functions of most animals.
 Each organ system consists of several

organs and has specific functions.