Chapter 4 Tissue: The Living Fabric G.R. Pitts, Ph.D, J.R. Schiller, Ph.D. & James F. Thompson,...
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Transcript of Chapter 4 Tissue: The Living Fabric G.R. Pitts, Ph.D, J.R. Schiller, Ph.D. & James F. Thompson,...
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Chapter 4
Tissue: The Living Fabric
G.R. Pitts, Ph.D, J.R. Schiller, Ph.D. & James F. Thompson, Ph.D.
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General Tissues - groups of cells with similar basic
structures which cooperate to perform a related function
Four basic types of tissues Epithelial – linings for protection, coordination,
synthesis, absorption, elimination
Connective – support
Muscle – for movement muscle tissue is a highly specialized connective tissue
Nervous – for control and coordination nervous tissue is a highly specialized epithelial tissue
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Epithelial Tissue Characteristics1. Cellularity - densely packed2. Polarity
apical surface basal surface (or basolateral)
3. Specialized contacts - tight junctions and desmosomes
4. Supported by connective tissue basal lamina (epithelial “glue”) reticular lamina (connective tissue “glue”) basement membrane - reticular and basal
laminae together
5. Innervated but avascular (no direct blood supply)
6. Regeneration – high capacity for regeneration
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Simple
Stratified
Classifying Epithelial Tissues By number of cell
layers
Pseudostratified epithelium (from the respiratory tree) appears stratified, but actually is a single layer of cells of varying heights; each cell touches the basement membrane
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Classifying Epithelial Tissues
By cell shape
Transitional
Squamous
Columnar
Cuboidal
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Glandular Epithelial Tissues functions in secretion – a gland may be one cell
or a group of specialized cells two major types
exocrine glands have ducts leading to body surfaces
various products are synthesized and stored for release
secretions are secreted into the duct system e.g., sweat glands, salivary glands, etc.
endocrine glands are ductless hormones are synthesized and stored for release hormones are secreted into the tissue fluid and
then diffuse into the blood stream e.g., thyroid and parathyroid glands
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Exocrine Gland Classification
Unicellular glands single cell glands goblet cells
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Exocrine Gland Classification
Multicellular glands Structurally classified
by duct configuration and by the shape of the secretory units
simple glands have a single duct
compound glands have branched ducts
Merocrine glands Exocytosis
Holocrine glands Cell rupture
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Connective Tissue Characteristics1.Two basic components
Cells – fewer, rarely touching, surrounded by a matrix immature forms (-blasts) secrete the matrix and can still
divide once the matrix is secreted, the cells mature into -cytes
which have decreased cell divisions and secrete less matrix material
chondro- cartilage, osteo- bone, fibro – connective, etc.
Extracellular Matrix ground substance (gelatinous glycoproteins) structural fibers (fibrous proteins, e.g., collagen, elastin,
reticulin)
2.Common embryological origin (from mesoderm)
3. Innervated and Vascular (direct blood supply) Cartilage is the one exception with no capillary beds
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Connective Tissue Matrix1. Ground Substance
supports cells, binds them together may be solid, fluid, or gel interstitial fluid
Glycoproteins called proteoglycans - large polysaccharide molecules bound to a protein core (like a bottle brush) Hyaluronic acid – gelatinous, separates cells, traps
extracellular fluid; lubricates joints; gives shape to eyeballs; fills body spaces
Chondroitin sulfate – capable of being mineralized; cartilage, bones, skin, blood vessels
Dermatin sulfate – harder; skin, tendons, blood vessels, heart valves
Keratin sulfate - still harder; bone, cartilage, cornea of the eyes
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Connective Tissue Matrix2. Protein fibers are embedded in the ground substance
Used for structural support, adhesion, and to connect cells
Provide strength and support Collagen fibers
highly polymerized, gigantic molecules tough, moderate flexibility protein collagen - parallel bundles of fibers bone, cartilage, tendons, ligaments
Elastic fibers (elastin) branched; smaller, thinner fibers than collagen Very flexible and elastic but also strong can be stretched to 150% of its original length require special stains to be seen
Reticular fibers thin, less polymerized collagen fibers require special stains to be seen
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Connective Tissue Proper areolar (loose fibrous) connective tissue adipose tissue reticular connective tissue dense (fibrous) regular connective
tissue dense (fibrous) irregular connective
tissue
Cartilage hyaline cartilage elastic cartilage fibrocartilage
Bone
Blood
Types of Connective Tissues
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Classified by the characteristics of the matrix
Connective Tissue Types
Details covered in lab
Also see Table 4.1
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Connective Tissue Diseases Many diseases
Most of them very rare
They may involve the joints but primarily affect other organs
Cause(s) of these diseases unknown
But in all of them, the immune system seems to be activated and causes damage to different organs in the body
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Systemic Lupus Erythematosus Symptoms: skin rash, mild
arthritis, and generalized weakness or tiredness
Rarer symptoms: hair loss, mouth ulcers, headaches and poor circulation in the fingers
Serious complications of kidney, heart, and brain inflammation
9 times more likely in women
4 times more likely in African-Americans
http://www.niehs.nih.gov/health/topics/conditions/lupus/index.cfm
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Marfan Syndrome
Genetic defect on chromosome 15 that encodes the fibrilin protein
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Nervous Tissue Highly specialized
epithelial cells
Convert stimuli into electro-chemical signals for transfer of information
Structure cell body (soma) and
extensions dendrites (highly
branched) – carry incoming signal
axon (long, usually single strand) – carry outgoing signal
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Muscle Tissue Characteristics a high degree of cellularity
cells contain contractile proteins
well vascularized
a highly specialized type of connective tissue
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Classification of Muscle Tissues two types are StriatedStriated:
Skeletal muscle attached to bones multinucleate voluntary fibers are parallel and
cylindrical
Cardiac muscle most of the heart wall single nucleus (usually) involuntary branched cylinders
connected by intercalated discs
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Classification of Muscle Tissues One type is non-striated
Smooth muscle located in the walls of
hollow organs:• blood vessels• digestive tract• airways• bladder
involuntary single nucleus spindle shaped
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Epithelial Membranes
A particular Epithelium and its underlying Connective Tissue support
skin trachea
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Cutaneous Membrane – The Skin
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Mucous Membranes
Line body structures which open directly to the exterior
Viscous mucus secretions lubricate surfaces and provide a defensive barrier that traps particles and microbes
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Line closed body cavities and their organs
Watery serous fluid lubricates the cavity and its organs
pleura – lungs
pericardium - heart
peritoneum - abdominal organs
parietal visceral
Serous Membranes
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Tissue Injury & Repair1. Inflammation
redness swelling heat pain loss of function
2. Organization restores blood supply Blood clot replaced by
granulation tissue
3. Regeneration and Fibrosis Epithelium regenerates Fibrous conn. tissue
matures and contracts
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Tissue Repair During development some cells lose their ability
to divide with specialization Some cells maintain the ability to replace others
Stem cells immature, undifferentiated cells hide in protected areas in skin/GI tract to replace
cells Tissue repair
new cells come from parenchyma (functioning portion) or stroma (connective tissue)
if parenchyma cells proliferate then repair nearly complete; if not, then we get scar tissue formation
fibroblasts will produce collagen and other matrix materials during fibrosis – a less functional tissue
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Conditions Affecting Repair Nutrition
adequate protein in the diet for repair necessary vitamins and other nutrients
Blood circulation transport oxygen, nutrients, antibodies and other
defensive molecules and cells to the site WBCs remove debris which would otherwise
interfere with healing Age
young people heal faster and have less obvious scars
young people have a better nutritional status, a better blood supply, and a higher metabolism
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Embryonic Germ Layers
We’ll see the embryonic tissues again in Chapter 28 next semester
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End Chapter 4
Exam 1 covers Chapters 1-4
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Connective Tissue Structure
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Embryonic Structure