Chapter 8 Cellular Energy *Photosynthesis *Cellular Respiration Cellular Energy Cellular Energy.
Topic 1 Cellular Abberation
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Transcript of Topic 1 Cellular Abberation
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1. CELLULAR ABERRATION
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OVERVIEW
Cell appearance (morphology)a. Each normal mature cell type is
differentiated, with a distinct and recognizable appearance, size, and shape
b. The size of a normal cell nucleus is usually small compared with the size of the rest of the cell, including the cytoplasm
c. Normal cells generally have a small N:C ratiod. As cell matures, the nucleus:cytoplasm ratio
decrease
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Anatomy of the Generalized CellAnatomy of the Generalized Cell
Slide 3.2Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Cells are not all the same
All cells share general structures
Cells are organized into three main regions Nucleus
Cytoplasm
Plasma membrane
Figure 3.1a
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The NucleusThe Nucleus
Slide 3.3Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Control center of the cell
Contains genetic material (DNA)
Three regions
Nuclear membrane
Nucleolus
Chromatin Figure 3.1b
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Nuclear Membrane – double membrane or Nuclear Membrane – double membrane or envelopeenvelope
Slide 3.4Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Barrier of nucleus
Consists of a double phospholipid membrane
Contain nuclear pores that allow for exchange of material with the rest of the cell – selectively permeable
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NucleoliNucleoli
Slide 3.5Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Nucleus contains one or more nucleoli
Sites of ribosome production
Ribosomes then migrate to the cytoplasm through nuclear pores
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Chromatin (when not dividing)Chromatin (when not dividing)
Slide 3.6Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Composed of DNA and protein
Scattered throughout the nucleus
Chromatin condenses to form chromosomes when the cell divides
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Plasma MembranePlasma Membrane
Slide 3.7aCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Barrier for cell contents
Double phospholipid layer (fat – water) Hydrophilic heads
Hydrophobic tails
Other materials in plasma membrane Protein
Cholesterol
Glycoproteins
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Plasma MembranePlasma Membrane
Slide 3.7bCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 3.2
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Plasma Membrane SpecializationsPlasma Membrane Specializations
Slide 3.8aCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Microvilli
Finger-like projections that increase surface area for absorption
Small intestine and nephrons of kidney
Figure 3.3
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Cytoplasm Cytoplasm
Slide 3.9Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Material outside the nucleus and inside the plasma membrane Cytosol
Fluid that suspends other elements
Organelles
Metabolic machinery of the cell
Inclusions
Non-functioning units – fat, pigments…..
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.10Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 3.4
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.11Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Ribosomes Made of protein and RNA
Sites of protein synthesis
Found at two locations
Free in the cytoplasm
Attached to rough endoplasmic reticulum
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.12Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Endoplasmic reticulum (ER) Fluid-filled tubules for carrying substances
Two types of ER
Rough Endoplasmic Reticulum Studded with ribosomes
Site where building materials of cellular membrane are formed
Smooth Endoplasmic Reticulum Functions in cholesterol synthesis and
breakdown, fat metabolism, and detoxification of drugs
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.13aCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Golgi apparatus Modifies and packages proteins
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.13bCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 3.5
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.14Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Lysosomes Contain enzymes that digest nonusable
materials within the cell
Peroxisomes Membranous sacs of oxidase enzymes
Detoxify harmful substances
Break down free radicals (highly reactive chemicals)
Replicate by pinching in half
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.15Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Mitochondria
“Powerhouses” of the cell
Change shape continuously
Carry out reactions where oxygen is used to break down food
Provides ATP for cellular energy
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.16aCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Cytoskeleton
Network of protein structures that extend throughout the cytoplasm
Provides the cell with an internal framework
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.16bCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Cytoskeleton
Three different types
Microfilaments
Intermediate filaments
Microtubules
Figure 3.6
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Cytoplasmic OrganellesCytoplasmic Organelles
Slide 3.17Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Centrioles
Rod-shaped bodies made of microtubules
Direct formation of mitotic spindle during cell division
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Cellular ProjectionsCellular Projections
Slide 3.18Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Not found in all cells
Used for movement
Cilia moves materials across the cell surface
Flagellum propels the cell
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OVERVIEW
Epithelial (glandular) tissues: breast (ductal), colon, liver
Connective (mesenchymal) tissue – adipose, blood vessel, bone, skeletal and smooth muscle
Hematopoietic cells – blood cells
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Body TissuesBody Tissues
Slide 3.41Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Cells are specialized for particular functions
Tissues Groups of cells with similar structure and
function
Four primary types Epithelium Connective tissue Nervous tissue Muscle
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Epithelial TissuesEpithelial Tissues
Slide 3.42Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Found in different areas Body coverings Body linings Glandular tissue
Functions Protection Absorption Filtration Secretion
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Epithelium CharacteristicsEpithelium Characteristics
Slide 3.43Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Cells fit closely together
Tissue layer always has one free surface
The lower surface is bound by a basement membrane
Avascular (have no blood supply)
Regenerate easily if well nourished
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Classification of EpitheliumClassification of Epithelium
Slide 3.44aCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Number of cell layers
Simple – one layer
Stratified – more than one layer
Figure 3.16a
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Classification of EpitheliumClassification of Epithelium
Slide 3.44bCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Shape of cells
Squamous – flattened
Cuboidal – cube-shaped
Columnar – column-like
Figure 3.16b
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Simple EpitheliumSimple Epithelium
Slide 3.45Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Simple squamous Single layer of flat
cells
Usually forms membranes
Lines body cavities
Lines lungs and capillaries
Figure 3.17a
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Simple EpitheliumSimple Epithelium
Slide 3.46Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Simple cuboidal Single layer of
cube-like cells
Common in glands and their ducts
Forms walls of kidney tubules
Covers the ovaries Figure 3.17b
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Simple EpitheliumSimple Epithelium
Slide 3.47Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Simple columnar
Single layer of tall cells
Often includes goblet cells, which produce mucus
Lines digestive tract
Figure 3.17c
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Simple EpitheliumSimple Epithelium
Slide 3.48Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Pseudostratified Single layer, but
some cells are shorter than others
Often looks like a double cell layer
Sometimes ciliated, such as in the respiratory tract
May function in absorption or secretion
Figure 3.17d
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Stratified EpitheliumStratified Epithelium
Slide 3.49Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Stratified squamous Cells at the free edge
are flattened
Found as a protective covering where friction is common
Locations Skin Mouth Esophagus Figure 3.17e
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Stratified EpitheliumStratified Epithelium
Slide 3.50Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Stratified cuboidal Two layers of cuboidal cells
Stratified columnar Surface cells are columnar, cells
underneath vary in size and shape
Stratified cuboidal and columnar Rare in human body
Found mainly in ducts of large glands
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Stratified EpitheliumStratified Epithelium
Slide 3.51Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Transitional epithelium
Shape of cells depends upon the amount of stretching
Lines organs of the urinary system
Figure 3.17f
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Glandular EpitheliumGlandular Epithelium
Slide 3.52Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Gland – one or more cells that secretes a particular product
Two major gland types Endocrine gland
Ductless
Secretions are hormones
Exocrine gland
Empty through ducts to the epithelial surface
Include sweat and oil glands
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Connective TissueConnective Tissue
Slide 3.53Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Found everywhere in the body
Includes the most abundant and widely distributed tissues
Functions
Binds body tissues together
Supports the body
Provides protection
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Connective Tissue CharacteristicsConnective Tissue Characteristics
Slide 3.54Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Variations in blood supply
Some tissue types are well vascularized
Some have poor blood supply or are avascular
Extracellular matrix
Non-living material that surrounds living cells
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Connective Tissue TypesConnective Tissue Types
Slide 3.56Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Bone (osseous tissue) Composed of:
Bone cells in lacunae (cavities)
Hard matrix of calcium salts
Large numbers of collagen fibers
Used to protect and support the body Figure 3.18a
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Connective Tissue TypesConnective Tissue Types
Slide 3.57Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Hyaline cartilage Most common
cartilage
Composed of:
Abundant collagen fibers
Rubbery matrix
Entire fetal skeleton is hyaline cartilage Figure 3.18b
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Connective Tissue TypesConnective Tissue Types
Slide 3.58aCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Elastic cartilage
Provides elasticity
Example: supports the external ear
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Connective Tissue TypesConnective Tissue Types
Slide 3.58bCopyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Fibrocartilage
Highly compressible
Example: forms cushion-like discs between vertebrae
Figure 3.18c
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Connective Tissue TypesConnective Tissue Types
Slide 3.59Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Dense connective tissue Main matrix element
is collagen fibers
Cells are fibroblasts
Examples Tendon – attach
muscle to bone
Ligaments – attach bone to bone Figure 3.18d
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Connective Tissue TypesConnective Tissue Types
Slide 3.60Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Areolar connective tissue Most widely
distributed connective tissue
Soft, pliable tissue
Contains all fiber types
Can soak up excess fluid Figure 3.18e
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Connective Tissue TypesConnective Tissue Types
Slide 3.60Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Areolar connective tissue Most widely
distributed connective tissue
Soft, pliable tissue
Contains all fiber types
Can soak up excess fluid Figure 3.18e
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Connective Tissue TypesConnective Tissue Types
Slide 3.62Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Reticular connective tissue Delicate network of
interwoven fibers
Forms stroma (internal supporting network) of lymphoid organs Lymph nodes Spleen Bone marrow
Figure 3.18g
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Connective Tissue TypesConnective Tissue Types
Slide 3.63Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Blood
Blood cells surrounded by fluid matrix
Fibers are visible during clotting
Functions as the transport vehicle for materials
Figure 3.18h
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Muscle TissueMuscle Tissue
Slide 3.64Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Function is to produce movement
Three types Skeletal muscle
Cardiac muscle
Smooth muscle
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Muscle Tissue TypesMuscle Tissue Types
Slide 3.65Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Skeletal muscle Can be controlled
voluntarily
Cells attach to connective tissue
Cells are striated
Cells have more than one nucleus
Figure 3.19b
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Muscle Tissue TypesMuscle Tissue Types
Slide 3.66Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Cardiac muscle Found only in the
heart
Function is to pump blood (involuntary)
Cells attached to other cardiac muscle cells at intercalated disks
Cells are striated
One nucleus per cell Figure 3.19c
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Muscle Tissue TypesMuscle Tissue Types
Slide 3.67Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Smooth muscle Involuntary muscle
Surrounds hollow organs
Attached to other smooth muscle cells
No visible striations
One nucleus per cell Figure 3.19a
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Nervous TissueNervous Tissue
Slide 3.68Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Neurons and nerve support cells
Function is to send impulses to other areas of the body
Irritability
Conductivity Figure 3.20
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OVERVIEW
Normal cell functionsa. Gastric cells – secrete HClb. Nerve cells – generate action potential and
conduct impulsesc. Beta cells of the pancreasd. Type II pneumocytese. Immune system
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OVERVIEW
Immunity – the body’s specific protective response to a foreign agent or organism
Immune system – part of the body’s defense mechanism against invasion and allows a rapid response to foreign substance
Genetic and cellular responses result when the immune system is activated
Tolerance – mechanism by which the immune system is programmed to eliminate foreign substances such as microbes, toxins, and cellular mutations but maintains the ability to accept self-antigens
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OVERVIEW Immunopathology – the study of diseases
that result from dysfunctions within the immune system
Immune function is affected by a variety of factors
1. Central nervous system integrity2. General physical status3. General emotional status4. Stress5. Illness6. Trauma7. Surgery
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IMMUNE SYSTEM DISORDERS
Autoimmunity - is the failure of an organism to recognize its own constituent parts as ''self'', which allows an immune response against its own cells and tissues.
Hypersensitivity - refers to excessive, undesirable (damaging, discomfort-producing and sometimes fatal) reactions produced by the normal immune system.
Gammopathies - abnormal proliferation of the lymphoid cells producing immunoglobulins. Ex: hodgkins disease
Immune deficiencies - is a state in which the immune system's ability to fight infectious disease is compromised or entirely absent.
a. Primary b.Secondary
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ANATOMIC AND PHYSIOLOGIC OVERVIEW Epitopes – antigenic determinants that are
present on foreign materials, initiating a series of action in a host, including the inflammatory response, the lysis of microbial agents, and the disposal of foreign toxins
Bone marrow (B lymphocytes originates) Lymphoid tissues – spleen, lymph nodes WBCs, antibodies Types of immunity1. Natural immunity – or innate immunity is
nonspecific and is present at birth (intact skin, phagocytes, compliment system)
2. Acquired or adaptive immunity – specific and develops after birth (humoral & Cellular immunity)
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BASIC CONCEPTS
Components of the Immune System Immune cells Central immune structures: bone marrow
and thymus (where immune cells are produced and mature)
Peripheral immune structures: lymph nodes, spleen (where the immune cells interact with the antigen)
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BASIC CONCEPTS
Components of the Immune System Immune cells: T and B lymphocytes
(primary cells), macrophages (accessory cells) which aid in processing and presentation of antigens to the lymphocytes
Cytokines: molecules that form a communication link between immune cells and other tissues and organs of the body
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Lymph NodesLymph Nodes
Slide 12.6b
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 12.3
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Lymph Node StructureLymph Node Structure
Slide 12.7b
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 12.4
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Other Lymphoid OrgansOther Lymphoid Organs
Slide 12.9Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Several other organs contribute to lymphatic function
Spleen
Thymus
Tonsils
Peyer’s patchesFigure 12.5
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The SpleenThe Spleen
Slide 12.10
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Located on the left side of the abdomen
Filters blood
Destroys worn out blood cells
Forms blood cells in the fetus
Acts as a blood reservoir
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The ThymusThe Thymus
Slide 12.11
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Located low in the throat, overlying the heart
Functions at peak levels only during childhood
Produces hormones (like thymosin) to program lymphocytes
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TonsilsTonsils
Slide 12.12
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Small masses of lymphoid tissue around the pharynx
Trap and remove bacteria and other foreign materials
Tonsillitis is caused by congestion with bacteria
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Peyer’s PatchesPeyer’s Patches
Slide 12.13
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Found in the wall of the small intestine
Resemble tonsils in structure
Capture and destroy bacteria in the intestine
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Mucosa-Associated Lymphatic Mucosa-Associated Lymphatic Tissue (MALT)Tissue (MALT)
Slide 12.14
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Includes:
Peyer’s patches
Tonsils
Other small accumulations of lymphoid tissue
Acts as a guard to protect respiratory and digestive tracts
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Body DefensesBody Defenses
Slide 12.15a
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
The body is constantly in contact with bacteria, fungi, and viruses (pathogens)
The body has two defense systems for foreign materials
Nonspecific defense system
Mechanisms protect against a variety of invaders
Responds immediately to protect body from foreign materials
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Body DefensesBody Defenses
Slide 12.15b
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Specific defense system
Specific defense is required for each type of invader
Also known as the immune system
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Nonspecific Body DefensesNonspecific Body Defenses
Slide 12.16
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Body surface coverings
Intact skin
Mucous membranes
Specialized human cells
Chemicals produced by the body
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Surface Membrane Barriers – Surface Membrane Barriers – First Line of DefenseFirst Line of Defense
Slide 12.17a
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
The skin
Physical barrier to foreign materials
pH of the skin is acidic to inhibit bacterial growth
Sebum is toxic to bacteria
Vaginal secretions are very acidic
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Surface Membrane Barriers – Surface Membrane Barriers – First Line of DefenseFirst Line of Defense
Slide 12.17b
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Stomach mucosa
Secretes hydrochloric acid
Has protein-digesting enzymes
Saliva and lacrimal fluid contain lysozyme
Mucus traps microogranisms in digestive and respiratory pathways
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Defensive CellsDefensive Cells
Slide 12.18a
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Phagocytes (neutrophils and macrophages)
Engulfs foreign material into a vacuole
Enzymes from lysosomes digest the material
Figure 12.6b
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Macrophage attacking e-coli.
•
Macrophage attacking e-coli.
•
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Defensive CellsDefensive Cells
Slide 12.18b
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Natural killer cells
Can lyse and kill cancer cells
Can destroy virus- infected cells
Figure 12.6b
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Inflammatory Response - Inflammatory Response - Second Line of DefenseSecond Line of Defense
Slide 12.19
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Triggered when body tissues are injured
Produces four cardinal signs Redness
Heat
Swelling
Pain
Results in a chain of events leading to protection and healing
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Functions of the Inflammatory Functions of the Inflammatory ResponseResponse
Slide 12.20
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Prevents spread of damaging agents
Disposes of cell debris and pathogens
Sets the stage for repair
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Steps in the Inflammatory ResponseSteps in the Inflammatory Response
Slide 12.21
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 12.7
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Antimicrobial ChemicalsAntimicrobial Chemicals
Slide 12.22a
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Complement A group of at
least 20 plasma proteins
Activated when they encounter and attach to cells (complement fixation) Figure 12.8
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Antimicrobial ChemicalsAntimicrobial Chemicals
Slide 12.22b
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Complement (continued)
Damage foreign cell surfaces
Will rupture or lyse the foreign cell membrane
Figure 12.8
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Antimicrobial ChemicalsAntimicrobial Chemicals
Slide 12.22c
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Interferon
Secreted proteins of virus-infected cells
Bind to healthy cell surfaces to inhibit viruses binding
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Interferons are a family species-specific proteins synthesized by eukaryotic cells in response to viruses and a variety of natural and synthetic stimuli. There are several different interferons commonly used as therapeutics, termed alpha, beta, and gamma. These peptides are used to treat hairy cell leukemia, AIDS-related Kaposi's sarcoma, laryngeal papillomatosis, genital warts, and chronic granulomatous disease. Side effects include black tarry stools, blood in the urine, confusion, and loss of balance.
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FeverFever
Slide 12.23
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Abnormally high body temperature
Hypothalmus heat regulation can be reset by pyrogens (secreted by white blood cells)
High temperatures inhibit the release of iron and zinc from liver and spleen needed by bacteria
Fever also increases the speed of tissue repair
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Specific Defense: The Immune Specific Defense: The Immune System – Third Line of DefenseSystem – Third Line of Defense
Slide 12.24
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Antigen specific – recognizes and acts against particular foreign substances
Systemic – not restricted to the initial infection site
Has memory – recognizes and mounts a stronger attack on previously encountered pathogens
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Types of ImmunityTypes of Immunity
Slide 12.25
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Humoral immunity
Antibody-mediated immunity
Cells produce chemicals for defense
Cellular immunity
Cell-mediated immunity
Cells target virus infected cells
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Antigens (Nonself)Antigens (Nonself)
Slide 12.26
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Any substance capable of exciting the immune system and provoking an immune response
Examples of common antigens Foreign proteins
Nucleic acids
Large carbohydrates
Some lipids
Pollen grains
Microorganisms
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Self-AntigensSelf-Antigens
Slide 12.27
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Human cells have many surface proteins
Our immune cells do not attack our own proteins
Our cells in another person’s body can trigger an immune response because they are foreign
Restricts donors for transplants
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AllergiesAllergies
Slide 12.28
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Many small molecules (called haptens or incomplete antigens) are not antigenic, but link up with our own proteins
The immune system may recognize and respond to a protein-hapten combination
The immune response is harmful rather than protective because it attacks our own cells
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Cells of the Immune SystemCells of the Immune System
Slide 12.29
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Lymphocytes Originate from hemocytoblasts in the red bone
marrow
B lymphocytes become immunocompetent in the bone marrow
T lymphocytes become immunocompetent in the thymus
Macrophages Arise from monocytes
Become widely distributed in lymphoid organs
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Activation of LymphocytesActivation of Lymphocytes
Slide 12.30
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 12.9
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Humoral (Antibody-Mediated) Humoral (Antibody-Mediated) Immune ResponseImmune Response
Slide 12.31a
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
B lymphocytes with specific receptors bind to a specific antigen
The binding event activates the lymphocyte to undergo clonal selection
A large number of clones are produced (primary humoral response)
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Humoral (Antibody Mediated) Humoral (Antibody Mediated) Immune ResponseImmune Response
Slide 12.31b
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Most B cells become plasma cells
Produce antibodies to destroy antigens
Activity lasts for four or five days
Some B cells become long-lived memory cells (secondary humoral response)
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Humoral Immune ResponseHumoral Immune Response
Slide 12.32
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 12.10
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Active ImmunityActive Immunity
Slide 12.34
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Your B cells encounter antigens and produce antibodies
Active immunity can be naturally or artificially acquired
Figure 12.12
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Passive ImmunityPassive Immunity
Slide 12.35
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Antibodies are obtained from someone else Conferred naturally from a mother to her
fetus
Conferred artificially from immune serum or gamma globulin
Immunological memory does not occur
Protection provided by “borrowed antibodies”
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Antibodies (Immunoglobulins) (Igs)Antibodies (Immunoglobulins) (Igs)
Slide 12.37
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Soluble proteins secreted by B cells (plasma cells)
Carried in blood plasma
Capable of binding specifically to an antigen
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Antibody ClassesAntibody Classes
Slide 12.39
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Antibodies of each class have slightly different roles
Five major immunoglobulin classes – (Do Not Need to know!) IgM – can fix complement
IgA – found mainly in mucus
IgD – important in activation of B cell
IgG – can cross the placental barrier
IgE – involved in allergies
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Cellular (Cell-Mediated) Immune Cellular (Cell-Mediated) Immune ResponseResponse
Slide 12.42
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Antigens must be presented by macrophages to an immunocompetent T cell (antigen presentation)
T cells must recognize nonself and self (double recognition)
After antigen binding, clones form as with B cells, but different classes of cells are produced
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Cellular (Cell-Mediated) Immune Cellular (Cell-Mediated) Immune ResponseResponse
Slide 12.43
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 12.15
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T Cell ClonesT Cell Clones
Slide 12.44a
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Cytotoxic T cells
Specialize in killing infected cells
Insert a toxic chemical (perforin)
Helper T cells
Recruit other cells to fight the invaders
Interact directly with B cells
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T Cell ClonesT Cell Clones
Slide 12.44b
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Suppressor T cells
Release chemicals to suppress the activity of T and B cells
Stop the immune response to prevent uncontrolled activity
A few members of each clone are memory cells
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Summary of the Immune ResponseSummary of the Immune Response
Slide 12.45
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Figure 12.16
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Organ Transplants and RejectionOrgan Transplants and Rejection
Slide 12.46a
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Major types of grafts
Autografts – tissue transplanted from one site to another on the same person
Isografts – tissue grafts from an identical person (identical twin)
Allografts – tissue taken from an unrelated person
Xenografts – tissue taken from a different animal species
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Organ Transplants and RejectionOrgan Transplants and Rejection
Slide 12.46b
Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings
Autografts and isografts are ideal donors
Xenografts are never successful
Allografts are more successful with a closer tissue match
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BASIC CONCEPTS
Components of the Immune System Major Histocompatibility Complex (MHC) –
membrane molecules that help the immune system recognise the self from the non-self
HLA – (Human Leukocyte Antigens) are human MHC proteins that were first detected on white blood cells; play a role in transplant rejection and are detected in immunologic tests
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BASIC CONCEPTS
Major Histocompatibility Complex Key recognition molecules which is an
essential feature of adaptive or specific immunity
Able to discriminate between the body’s own molecules against foreign antigens
Coded by closely linked genes in chromosome 6
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BASIC CONCEPTS
Major Histocompatibility Complex (Two Classes): MHC I - differentiate viral infected and
abnormal cells from normal cells MHC II - allow appropriate interactions among
immune cells
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Properties HLA antigens Distribution Functions
Class I MHC HLA-A, HLA-B, HLA-C(Human Leucocyte Antigen - helps the immune system distinguish the body's own proteins from proteins made by foreign invaders such as viruses
and bacteria. )
Virtually all nucleated cells
Present processed antigen to cytotoxic CD8 T-cells; restrict cytolysis to virus-infected cells, tumor cells and transplanted cells
Class II MHC HLA-DR, HLA-DP, HLA-DQ
Immune cells, antigen-presenting cells, and macrophages
Present processed antigenic fragments to CD4 T-cells; necessary for effective interaction among immune cells
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OVERVIEW Normal cells and functionsa. Most normal human cells have 23 pairs of
chromosomesb. All normal cells (except the sex cells and the
mature red blood cells) have the entire human genome in every cell
c. Normal cells have about 35,000 genes, and about 50 of these genes are very active during embryonic life
d. Normal cells undergo mitosis either to develop normal tissue during embryonic development, childhood, and adolescence or to replace lost or damaged normal tissue
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THE CELL CYCLE
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THE CELL CYCLE
The Cell Cycle – consists of 4 phases:1. Gap 1 (G1) – the cell enlarges and
synthesizes proteins to prepare for DNA replication
2. Synthesis (S) phase – DNA is replicated and the chromosomes in the cell are duplicated
3. Gap 2 (G) – the cell prepares itself for mitosis4. Mitosis (M) phase – final step, where the
parent cell divides into two exact copies called daughter cells, each having identical genetic material
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THE CELL CYCLE
The cells after the M phase immediately enter the G1 where they begin another cell cycle again
Or the cells divert into a resting phase called G0
The cell cycle is controlled by cyclin-dependent kinases
Some cyclins cause a “braking” action and prevent the cycle from proceeding
Checkpoints in the cell cycle ensure that it proceeds in the correct order
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THE CELL CYCLE
A malfunction of any of these regulators of cell growth and division can result in the rapid proliferation of immature cells
In some cases these proliferating immature cells are considered cancerous (malignant)
Knowledge of the cell cycle events is used in the development of chemotherapeutic drugs, which are designed to disrupt the cancer cells during different stages of their cell cycle
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OVERVIEW
In embryonic life, there are early development genes called proto-oncogenes, and their activity is not needed after embryonic life
Other genes are called tumor suppressor genes, which slow down cell division, repair DNA mistakes, and tell cells when to die (apoptosis, or programmed cell death)
Tumor suppressor genes can also reduce expression of proto-oncogenes by negative feedback mechanisms
Proto-oncogenes are not abnormal genes, and are part of every human’s normal cellular DNA
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Normal Cell (homeostasis)
Reversible Injury
Adaptation Cell Injury
Irreversible Injury
Necrosis Apoptosis
Stress Injurious stimulus
Inability to adapt Severe,
progressive
CELL DEATH
Mild, transient
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OVERVIEW
Adaptations are reversible changes in the size, number, phenotype, metabolic activity, or functions of cells in response to changes in their environment
a. Hypertrophy – increase in the size of cells, resulting in an increase in the size of the organ
b.Hyperplasia – an increase in the number in an organ or tissue, usually resulting in increased mass of the organ or tissue
c. Atrophy – reduced size of an organ or tissue resulting from a decrease in cell size and number
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OVERVIEW
e. Metaplasia – reversible change in which one differentiated cell type (epithelial or mesenchymal) is replaced by another cell type
f. Necrosis – cell deathg. Apoptosis – programmed cell deathh. Differentiation - process by which cells or
tissues undergo a change toward a more specialized form or function, especially during embryonic development
i. Dysplasiaj. Anaplasia
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OVERVIEW
e. Dysplasia - abnormal development or growth of tissues, organs, or cells
f. Anaplasia - abnormal development or growth of tissues, organs, or cells
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EPIDEMIOLOGY OF CANCER
2004 – The American Cancer Society estimates that 1,368,030 people will be diagnosed with cancer in the US
Cancer continues to be the second leading cause of death in the US
62% of those diagnosed with cancer can expect to be alive in 5 years
Incidence and mortality rates for cancer have dropped approximately 1% per year since 1991
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EPIDEMIOLOGY OF CANCER The American Cancer Society has established
the goal of a 25% reduction in the overall age-adjusted cancer incidence rate and a 50% reduction in the overall age-adjusted cancer mortality rate by 2015
Nurses should play a pivotal role in the attainment of these goals through active involvement in cancer prevention and early detection activities
Survival rate represents the percentage of persons alive 5 years from now after diagnosis, whether cured, in remission, or with evidence of disease
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Estimated New Cases Estimated New Deaths
Male Female Male Female
Prostate (38%)Lung and bronchus (13%)Colon and rectum (10%)Urinary bladder (7%)Melanoma of the skin (5%)Non-Hodgkin lymphoma (4%)Kidney and renal pelvis (3%)Leukemia (3%)Oral cavity and pharynx (3%)Pancreas (2%)All sites (100%)
Breast (32%)Lung and bronchus (12%)Colon and rectum (11%)Uterine corpus (6%)Non-Hodgkin lymphoma (4%)Melanoma of the skin (4%)Ovary (3%)Thyroid (3%)Urinary bladder (2%)Pancreas (2%)All sites (100%)
Lung and bronchus (31%)Prostate (10%)Colon and rectum (10%)Pancreas (5%)Leukemia (4%)Esophagus (4%)Liver and intrahepatic bile duct (3%)Non-Hodgkin lymphoma (3%)Kidney and renal pelvis (3%)All sites (100%)
Lung and bronchus (27%)Breast (15%)Colon and rectum (10%)Ovary (6%)Pancreas (6%)Leukemia (4%)Non-Hodgkin lymphoma (3%)Uterine corpus (3%)Multiple myeloma (2%)Brain and other nervous system (2%)All sites (100%)
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Estimated Incidence (2008) Estimated Deaths (2008)
Male Female Male Female
Melanoma of the skin (5%)Oropharynx (3%)Lung (15%)Pancreas (3%)Kidney (4%)Colon and rectum (10%)Urinary bladder (7%)Prostate (25%)Leukemia (3%)Hon-Hodgkin lymphoma (5%)All others (20%)
Melanoma of the skin (4%)Thyroid (4%)Lung (14%)Breast (26%)Kidney (3%)Colon and rectum (10%)Ovary (3%)Uterus (6%)Leukemia (3%)Non-Hodgkin lymphoma (4%)All others (23%)
Lung (31%)Esophagus (4%)Liver (4%)Pancreas (6%)Kidney (3%)Colon and rectum (8%)Urinary bladder (3%)Prostate (10%)Leukemia (4%)Non-Hodgkin Lymphoma (3%)All others (24%)
Brain (2%)Lung (26%)Breast (15%)Liver (2%)Pancreas (6%)Colon and rectum (9%)Ovary (6%)Uterus (3%)Leukemia (3%)Non-Hodgkin Lymphoma (3%)All others (25%)
Robbins Pathologic Basis of Disease 8th edition
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EPIDEMIOLOGY OF CANCER Risk factors1. Heredity – 5 to 10% of cancers have a hereditary
component2. Age – 76% of cases occur after age 55; hormonal
changes, immune system changes3. Gender 4. Poverty5. Stress6. Diet7. Occupation 8. Infection9. Tobacco use 10.Alcohol use11.Recreational drug use12.Obesity – increased risk of hormone-dependent cancers13.Sun exposure
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EPIDEMIOLOGY OF CANCER Endogenous risk factors:1. Genetic predisposition2. Sex3. Age4. Race5. Family history Exogenous risk factors:1. Alcohol2. Diet3. Exercise4. Occupational exposure5. Cigarette smoking6. Sexual activity
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EPIDEMIOLOGY OF CANCERRisk Factors and Signs and Symptoms of Common Cancers
Cancer Site Risk Factors Signs and Symptoms
Breast Female genderAge >50 yearsFamily historyPersonal history of breast cancer2 or more first-degree relativesKnown BRCA1 or BRCA2 mutationBiopsy historyAtypical hyperplasiaDCIS or LCISPostmenopausal obesityEarly menarche/late menopauseLate first pregnancy/nulliparousOCPRadiation to chest wallAlcoholObesity and high fat dietHormone replacement therapy
Lump or massThickening in breast or axillaChange in size or contour or textureSkin dimpling or retractionPeau d’orange skinNipple discharge, retraction, or scalinessErythemaPain or tenderness
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EPIDEMIOLOGY OF CANCERRisk Factors and Signs and Symptoms of Common Cancers
Cancer Site Risk Factors Signs and Symptoms
Prostate Male genderAge >50 yearsAfrican American ethnicityFamily history of first-degree relative (greater if first-degree relative diagnosed before age 40)High-fat diet
Weak urinary stream and urinary frequencyDifficulty in initiating stream or stopping urinary streamPain or burning on urinationUrinary retentionHematuria
Colorectal Age >60 yearsInflammatory bowel conditionsSedentary lifestyleDiet high in fat and low in fruits and vegetablesHeavy alcohol consumptionFamily history of colorectal cancer especially if before the age of 40
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EPIDEMIOLOGY OF CANCERRisk Factors and Signs and Symptoms of Common Cancers
Cancer Site Risk Factors Signs and Symptoms
Prostate Male genderAge >50 yearsAfrican American ethnicityFamily history of first-degree relative (greater if first-degree relative diagnosed before age 40)High-fat diet
Weak urinary stream and urinary frequencyDifficulty in initiating stream or stopping urinary streamPain or burning on urinationUrinary retentionHematuria
Colorectal Familial genetic syndromes, e.g., familial adenomatous polyposis (FAP) and hereditary nonpolyposis colon cancer (HNPCC)
Change in bowel habitsRectal bleedingAbdominal painDecreased diameter of stoolsAnemiaRectal pressure or painWeight lossanorexia
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EPIDEMIOLOGY OF CANCER
Risk Factors and Signs and Symptoms of Common Cancers
Cancer Site Risk Factors Signs and Symptoms
Lung Cigarette smokingOccupational exposure to asbestos, arsenic, chromium, coal products, nickel refining, smelter workers, ionizing radiation, radon
Chronic cough and wheezingPersistent respiratory infectionsDull chest painHemoptysisDyspneaWeight loss
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EPIDEMIOLOGY OF CANCER
Carcinogens a. Virusesb. Drugs and hormones – can be either
genotoxic or promotionalc. Chemical agents – both genotoxic and
promotionald. Physical agents – for example radiation
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Chemical Carcinogens and Relationship to Occupation
Chemical Agent Action Occupation
Polycyclic hydrocarbons (smoke, soot, tobacco, smoked foods)
Genotoxic Miners, coal/gas workers, chimner sweeps, migrant worker, workers in offices where smoking is allowed
BenzopyreneArsenic
Genotoxic Pesticide manufacturers, mining
Vinyl chloride Promotional Plastic workersArtistis
Methylaminobenzine Genotoxic Fabric workersRubber and glue workers
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Chemical Carcinogens and Relationship to Occupation
Chemical Agent Action Occupation
Asbestos Promotional Construction workers, workers in old, run-down buildings with asbestos insulation, insulation makers
Wood and leather dust Promotional Woodwrokers, carpenters, leather toolers
Chemotherapy drugs Genotoxic Drug manufacturers, pharmacists, nurses
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Occupational Cancers
Agent Cancer Typical use or occurrence
Arsenic and arsenic compounds
Lung, skin, hemangiosarcoma
Byproduct of metal smelting; component of alloys, electrical and semiconductor devises, medications and herbicides, fungicides, and animal dips
Asbestos Lung, mesothelioma, esophagus, stomach, large intestine
Formerly used for many applications because of fire, heat and friction resistance, still found in existing construction as well as fire-resistant textiles, friction materials (brake linings), underlayment and roofing papers, floor tiles
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Occupational Cancers
Agent Cancer Typical use or occurrence
Benzene Leukemia, Hodgkin lymphoma
Principal component of light oil, despite known risk, many applications exist in printing and lithography, paint, rubber, dry cleaning, adhesives and coatings, and detergents, formerly widely used as solvent and fumigant
Beryllium and beryllium compounds
Lung Missile fuel and space vehicles, hardener for lightweight metal alloys, particularly in aerospace applications and nuclear reactors
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Occupational Cancers
Agent Cancer Typical use or occurrence
Chromium compounds Lung Component of metal alloys, paints, pigments, and preservatives
Nickel compounds Nose, lung Nickel plating, component of ferrous alloys, ceramics, and batteries, by-product of stainless steel arc welding
Radon and its decay products
Lung From decay of minerals containing uranium, potentially serious hazard in quarries and underground mines
Vinyl chloride Angiosarcoma Refrigerant, monomer for vinyl polymers, adhesive for plastics, formerly inert aerosol propellant un pressurized containers
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Occupational Cancers
Agent Cancer Typical use or occurrence
Cadmium and cadmium compounds
Prostate Uses include yellow pigments and phosphors; found in solders; used in batteries and as alloy and in metal platings and coatings
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EPIDEMIOLOGY OF CANCER
HSV types I and IIa. Carcinoma of the lipb. Cervical carcinomac. Kaposi sarcoma Human CMVa. Kaposi sarcomab. Prostate carcinoma
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EPIDEMIOLOGY OF CANCER
EBVa. Burkitt lymphoma HBVa. Primary HCC Papillomavirusa. Malignant melanomab. Cervical, penile, and laryngeal cancers HTLVa. Adult T-cell leukemia and lymphomab. Kaposi sarcoma
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EPIDEMIOLOGY OF CANCER
Approximately three fourths of all cancers occur in people over the age of 55
Overall cancer incidence in males has stabilized in recent years when compared with that in females
Men have a higher lifetime probability of developing and dying of cancer than women, but men have a greater recent decline in death rates
Children – overall, cancer is the leading cause of death due to disease in children between 1 and 14 years of age
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EPIDEMIOLOGY OF CANCER
Cause of Death by Age
Age (years) Males Females
20-39 1. Brain/CNS2. Leukemia 3. Lung
1. Breast2. Uterine/cervix3. Leukemia
40-59 1. Lung2. Colorectal3. Pancreas
1. Breast2. Lung3. Colorectal
60-79 1. Lung2. Colorectal3. Prostate
1. Lung2. Breast3. Colorectal
>80 1. Lung2. Prostate3. Colorectal
1. Lung2. Colorectal3. Breast
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THE ROLE OF THE NURSE
Education Monitoring Documentation Proper referral Being up to date
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