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Steps for preparing light microscope slide
- fixed (preserved)
- cut into think sections
- stained with coloured dyes
Steps for preparing electron microscope slide
- fixed (preserved)
- cut into think sections
- stained with heavy metal salts
Image produced by TEM vs SEM
2D image vs 3D image
2 forms of epithelial tissue in the body
- covering and lining epithelium
- glandular epithelium
Functions of epithelial tissue
- protection
- absorption
- filtration
- excretion
- secretion
- sensory receptors
Polarity of epithelial tissue
- Apical surface (not attached to surrounding tissue and is exposed)
- Basal surface ( attached to underlying connective tissue)
Where are microvilli found in epithelial cells?
apical surface of epithelial cells
Where is the basal lamina found
Adjacent to the Basal surface
description of basal lamina
- thin supporting layer
- contains glycoproteins and collagen fibres
function of basal lamina
- Acts as a selective filter ( determines which molecules enter epithelial tissues from underlying connective tissue)
- Acts as a scaffolding ( epithelial cells can migrate to and repair wounds)
What are epithelial cells tied together by
- tight junctions
- desmosomes
What is the brush border?
- the microvilli are often so dense that the cell apices have a fuzzy appearance called a brush border.
Can epithelial cells regenerate?
Yes, they can reproduce rapidly
What does the basement membrane consist of?
- Basal lamina
- reticular lamina
What is the position of reticular lamina to the basal lamina
Reticular lamina is deep to the Basal lamina
Do epithelial tissues contain blood vessels and nerves?
They are avascular and innervated
Types of epithelial tissues based on number of layers
- simple
- stratified
description of stratified epithelium
- several layers of cells
- commonly present in areas with high abrasion rate
- cell shape differs in different layers
- named according to the cells in the apical surface
Types of epithelial cells
- squamous
- cuboidal
- columnar
Description of simple squamous epithelium
- single layer of flattened cells
- disc shaped nuclei
function of simple squamous epithelium
- allow diffusion of substances where protection is unimportant
- secretes lubricating substance in serosae ( lining of ventral body cavity)
Location of simple squamous epithelium
- Kidney glomeruli
- air sacs of lungs
- lining of blood vessels
- lining of lymphatic vessels
description of simple cuboidal cells
- Single layer of cube like cells
- spherical central nuclei
Function of simple cuboidal epithelium
secretion and absorption
location of simple cuboidal epithelium
- Kidney tubules
- ducts
- secretory portions of small glands (thyroid etc.)
- ovary surface
description of simple columnar epithelium
- single layer of tall cells
- round/oval nuclei
- many bear microvilli
- some bear cilia
- may contain goblet cells
function of simple columnar epithelium
- absorption
- secretion of mucus and enzymes
location of simple columnar epithelium
- non ciliated lines most of digestive tract and gallbladder, excretory ducts
- ciliated lines small bronchi and uterine tubes (oviduct, fallopian tube), uterus
Description of Pseudostratified Columnar Epithelium
- Single layer of cells which differ at different heights
Function of Pseudostratified columnar epithelium
- secret substances such as mucus
location of pseudostratified columnar epithelium
- non ciliated type in the male sperm carrying ducts, large gland ducts
- ciliated in the trachea, upper respiratory tract
What are the 2 types of simple squamous epithelial cells
- Endothelium (slick with low friction present in lymphatic vessels , hollow organs in cardiovascular system)
- mesothelium ( epithelium found in serous membranes and membranes lining the ventral body cavity)
Description of stratified squamous epithelium
- multilayer of cells with several cell types
- basal cells are cuboidal or columnar epithelium while surface is squamous
- basal cells active in mitosis
function of stratified squamous epithelium
Protect tissues in areas subjected to abrasion
location of stratified squamous epithelium
- non keratinized present in mouth, oesophagus and vagina (wet)
- keratinized present in skin (dry)
description of transitional epithelium
- Basal cells contain columnar or cuboidal cells
- Surface cells either dome shaped or squamous depending on degree of stretch
Function of transition epithelium
Stretches readily as it allows stored urine to distend urinary organ
location of transitional epithelium
Urinary bladder, ureter and part of urethra
What is a secretion
a water based fluid that usually contains proteins while some release lipids or steroid secretions
How are glands classified?
- either endocrine (internally secreting) or exocrine (externally secreting)
- either unicellular or multicellular
Unicellular glands Vs Multicellular glands
- Unicellular are single celled glands scattered within epithelial cells
- multicellular contain many cells and are formed by inward growth of an epithelial sheet into underlying connective tissue
Endocrine glands Vs exocrine glands
- Exocrine glands retain connecting cells and form ducts
- Endocrine glands lose the connecting cells and are "ductless" therefore release hormone into the interstitial fluid which then enters the blood
where are stratified cuboidal epithelium found?
ducts of some glands (mammary, sweat)
Where are stratified columnar epithelium found?
pharynx and male urethra
Examples of exocrine glands
mucous, sweat, oil, and salivary glands
structural classification of multicellular exocrine glands
Classification of multicellular exocrine glands by mode of secretion
- merocrine ( releases substance by exocytosis)
- holocrine ( releases substance and dead fragments by cell rupturing)
- apocrine ( pinches off portion of cells and cell heals itself)
Types of connective tissue
- connective tissue proper
- Bone
- cartilage
- blood
functions of connective tissue
- binding and support
- protection
- insulation
- storing reserve fuel
- transporting substances
common characteristics of connective tissue
- contain extracellular matrix
- have a common origin, they arise from embryonic mesenchyme
What are the main components of connective tissue
- ground substance
- fibres
- cells
Components of the ground substance of connective tissue
- Interstitial fluid ( contains large amounts of fluid which allows dissolved substances to fuse between blood and cells)
- cell adhesion proteins ( allows connective tissue cells to attach to the extracellular matrix)
- proteoglycans ( consists of protein core to which GAG's attach to it and controls viscosity)
Three types of connective tissue fibres
- Collagen fibres (strongest and most abundant)
- elastic fibres
- reticular fibres
Types of connective tissue cells
- Fibroblasts in CT proper which become fibrocytes
- Chondroblasts in cartilage which become chondrocytes
- Osteoblasts in bones which become osteocytes
Cell types which are found within the connective tissue
- Adipocytes (fat cells)
- white blood cells
- Mast cells ( detect foreign microorganisms and initiate an inflammatory response, contains histamine, heparin, proteases and other enzymes )
- macrophages
purpose of heparin and histamine
- heparin : an anticoagulant chemical that prevents blood clotting when free in the bloodstream
- histamine: a substance that makes capillaries leaky
types of connective tissue proper
- Loose ( areolar, adipose, reticular)
- Dense ( regular, irregular, elastic)
Description of Areolar Connective Tissue
- gel like matrix containing all 3 fibre ( collagen, reticular and elastic) types as well as containing the cells, fibrocytes, macrophages, mast cells and WBC's
function of areolar connective tissue
- wraps and cushions organs
- phagocytize bacteria
- involved in inflammatory response
- holds and conveys tissue fluid
location of areolar connective tissue
- Under epithelia ( forms lamina propria of mucus membrane)
- surrounds capillaries
- packages organs
Description of Adipose Connective Tissue
- gel like matrix containing closely packed adipocytes
Function of Adipose connective tissue
- provide reserve fuel
- provide insulation against heat
- support and protect organs
location of adipose connective tissue
- under skin in subcutaneous tissue
- around eyeball and kidney
- abdomen
- breast
What are white and brown fat cells?
White fat stores nutrients (mainly for other cells), but brown fat contains abundant mitochondria that use the lipid fuels to generate heat (instead of generating ATP molecules).
Description of Reticular Connective Tissue
- loose network of reticular fibres in a gel like substance
- main cell type is fibroblasts
function of reticular connective tissue
forms a soft internal skeleton which supports other cell types
location of reticular connective tissue
Lymphoid organs (lymph nodes, bone marrow, and spleen).
description of regular dense connective tissue
Primarily parallel collagen fibers, a few elastic fiber, major cell type is the fibroblast.
function of regular dense connective tissue
-Attaches muscles to bones/muscles
-Attaches bones to bones
-Withstands great tensile stress when pulling force is applied in one direction.
location of regular dense connective tissue
- tendons
- most ligaments
- aponeuroses
description of irregular connective tissue
- primarily irregularly arranged collagen fibres
- main cell type is fibroblasts
function of irregular connective tissue
- withstand tension from many different directions
location of irregular connective tissue
- Fibrous capsules of organs and of joints
- dermis of the skin
- submucosa of digestive tract.
description of elastic dense connective tissue
- dense regular connective tissue containing alot of elastic fibres
function of elastic dense connective tissue
- allows tissue to recoil after stretching
- maintains pulsatile flow of blood through arteries; aids
- passive recoil of lungs following inspiration
location of elastic dense connective tissue
- walls of large arteries
- walls of bronchial tubes
Description of Hyaline cartilage
- amorphous but firm matrix
- chondrocytes made in matrix and lie in lacuna when theyre mature
function of Hyaline cartilage
- supports and reinforces
- resists compressive stress
- serves as a resilient cushion
location of Hyaline cartilage
- forms costal cartilage of ribs
- forms cartilage of nose, trachea and larynx
- forms most of the embryonic skeleton
- covers ends of long bones in joint cavities
description of elastic cartilage connective tissue
- similar to hyaline but contains more elastic fibres
function of elastic cartilage connective tissue
- maintains the shape of the structure while maintaining good flexibility
location of elastic cartilage connective tissue
- external ear
- epiglottis
description of fibrocartilage
- matrix similar to hyaline but less firm
- thick collagen fibres predominate
function of fibrocartilage
- tensile strength allows it to absorb compressive shock
location of fibrocartilage
- intervertebral discs
- pubic symphysis
- discs of knee joint
description of bone tissue
- hard calcified matrix with alot of collagen fibres
- osteocytes lie in lacunae
- very well vascularized
description of blood
RBC and WBC in a fluid matrix
Function of blood
Transports respiratory gases, nutrients, wastes, and other substances
location of blood
within blood vessels
description of skeletal muscle tissue
- long cylindrical and multinucleate
- contains obvious striations
- poor regeneration
function of skeletal muscle tissue
- voluntary movement
- locomotion
- manipulation of the environment
- facial expressions
location of skeletal muscle tissue
attached to bones
description of cardiac muscle tissue
- striated, branching and uninucleate
- connects at intercalated discs
- no regeneration
function of cardiac muscle tissue
- as it contracts it propels blood into circulation
- involuntary control
location of cardiac muscle tissue
walls of the heart
description of smooth muscle
- cells are spindle shaped with central nuclei
- no striations
- cells are arranged closely to form sheet
- moderate regeneration
function of smooth muscle
- propels substances along internal passageways
- involuntary movement
Location of smooth muscle
Walls of hollow organs
Description of nervous tissue
- Neurons are branching cells
- cell processes that may be quite long extend from the nucleus-containing cell body
- also contributing to nervous tissue are non excitable supporting cells. (neurogelia)
Function of nervous tissue
- Neurons transmit electrical signals from sensory receptors and to effectors
- Supporting cells support and protect neurons.