Summary

This document provides an introduction to epithelial tissue, detailing its types, functions, and characteristics. It covers cells to tissues, the function of epithelial tissue, and classifications of epithelial tissue. Various types of tissues, such as simple squamous, cuboidal, columnar, and stratified, are examined.

Full Transcript

Tissue Introduction & Epithelial Tissue Cells to Tissues ◼ As human body develops from single to multicellular, cells specialize. ◼ Body is interdependent system, malfunction of one group of cells is catastrophic. ◼ Cells specialize into types of tissues, then intersp...

Tissue Introduction & Epithelial Tissue Cells to Tissues ◼ As human body develops from single to multicellular, cells specialize. ◼ Body is interdependent system, malfunction of one group of cells is catastrophic. ◼ Cells specialize into types of tissues, then interspersed into organs. Tissues = groups of cells that are similar in structure and function. ◼ Epithelium ◼ Muscle ◼ Coverings ◼ Movement ◼ Linings of surfaces ◼ Connective ◼ Nervous ◼ Support ◼ Control ◼ Bone, ligaments, ◼ Brain, nerves, fat spinal cord Function of Epithelial Tissue ◼ Protection ◼ Skin protects from sunlight & bacteria & physical damage. ◼ Absorption ◼ Lining of small intestine, absorbing nutrients into blood ◼ Filtration ◼ Lining of Kidney tubules filtering wastes from blood plasma ◼ Secretion ◼ Different glands produce perspiration, oil, digestive enzymes and mucus Characteristics of Epithelial Tissue ◼ Form continuous sheets (fit like tiles) ◼ Apical Surface ◼ All epithelial cells have a top surface that borders an open space – known as a lumen ◼ Basement Membrane ◼ Underside of all epithelial cells which anchors them to connective tissue ◼ Avascularity (a = without) ◼ Lacks blood vessels ◼ Nourished by connective tissue ◼ Regenerate & repair quickly Classification of Epithelial Tissue ◼ Cell Shape ◼ Squamous – flattened like fish scales ◼ Cuboidal - cubes ◼ Columnar - columns ◼ Cell Layers ◼ Simple (one layer) ◼ Stratified (many layers) ◼ Named for the type of cell at the apical surface. Simple Squamous Epithelium ◼ Structure ◼ Single Layer of flattened cells ◼ Function ◼ Absorption, and filtration ◼ Not effective protection – single layer of cells. ◼ Location ◼ Walls of capillaries, air sacs in lungs ◼ Form serous membranes in body cavity Simple Cuboidal Epithelium ◼ Structure ◼ Single layer of cube shaped cells ◼ Function ◼ Secretion and transportation in glands, filtration in kidneys ◼ Location ◼ Glands and ducts (pancreas & salivary), kidney tubules, covers ovaries Simple Columnar Epithelium ◼ Structure ◼ Elongated layer of cells with nuclei at same level ◼ Function ◼ Absorption, Protection & Secretion ◼ When open to body cavities – called mucous membranes ◼ Special Features ◼ Microvilli, bumpy extension of apical surface, increase surface area and absorption rate. ◼ Goblet cells, single cell glands, produce protective mucus. ◼ Location ◼ Linings of entire digestive tract Pseudostratified Epithelium ◼ Structure ◼ Irregularly shaped cells with nuclei at different levels – appear stratified, but aren’t. ◼ All cells reach basement membrane ◼ Function ◼ Absorption and Secretion ◼ Goblet cells produce mucus ◼ Cilia (larger than microvilli) sweep mucus ◼ Location ◼ Respiratory Linings & Reproductive tract Cilia Basement Membrane Stratified Squamous Epithelium ◼ Structure ◼ Many layers (usually cubodial/columnar at bottom and squamous at top) ◼ Function ◼ Protection ◼ Keratin (protein) is accumulated in older cells near the surface – waterproofs and toughens skin. ◼ Location ◼ Skin (keratinized), mouth & throat Keratin Stratified Cubodial (layers of cubodial only) Transitional Epithelium ◼ Structure ◼ Many layers ◼ Very specialized – cells at base are cuboidal or columnar, at surface will vary. ◼ Change between stratified & simple as tissue is stretched out. ◼ Function ◼ Allows stretching (change size) ◼ Location ◼ Urinary bladder, ureters & urethra Glands ◼ One or more cells that make and secrete a product. ◼ Secretion = protein in aqueous solution: hormones, acids, oils. ◼ Endocrine glands ◼ No duct, release secretion into blood vessels ◼ Often hormones ◼ Thyroid, adrenal and pituitary glands ◼ Exocrine glands ◼ Contain ducts, empty onto epithelial surface ◼ Sweat, Oil glands, Salivary glands, Mammary glands. Shapes of Exocrine glands ▪Branching ▪ Simple – single, unbranched duct ▪ Compound – branched. ▪Shape: tubular or alveolar ▪ Tubular – shaped like a tube ▪ Alveolar – shaped like flasks or sacs ▪ Tubuloalveolar – has both tubes and sacs in gland Modes of Secretion ◼ (How the gland’s product is released) ◼ Merocrine ◼ Just released by exocytosis without altering the gland at all. ◼ Ex: Sweat glands and salivary glands ◼ Holocrine ◼ The gland ruptures and releases secretion and dead cells as well. ◼ Sebaceous (oil glands on the face) only example

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