tissues tissues are closely associated cells that are similar in structure and perform a common...
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Tissues
Tissues are closely associated cells that are similar in structure and perform a common function.
Principle Types of Tissue
There are four primary tissue
types that interweave to form the
fabric of the body.
Principle Types of Tissue1. Epithelial tissue:
Primary function is protection
2. Connective tissue:
Primary function is support
3. Muscle:
Primary function is movement
4. Nervous:
Primary function is control
Developmental Aspects of Tissue
Embryonic and Fetal Development
Primary Germ Layer Formation
Development of Tissues Through Adolescents
By the end of the second month of development, the primary tissues have developed and most organs are laid down. Most tissue cells, except neurons, continue to undergo mitosis until body size is achieved, after which only epithelial and connective tissues are routinely mitotic.
Effects of Aging on Tissue
With increasing age, epithelial sheets become thin and more easily breached. The amount of collagen in the body decreases, making tissue repair less efficient. Bone, muscle and nervous tissue begin to atrophy.
Epithelial Tissue
Epithelial tissue, or epithelium, is subdivided into two types:
1. membranous (covering or lining) epithelium and
2. glandular epithelium
Functions of Epithelial Tissue
1. Protection
2. Absorption
3. Filtration
4. Secretion
Glandular epithelium’s chief function is secretion.
Special Characteristics of Epithelia
1. Cellularity: composed almost entirely of cells
2. Specialized Contacts: fit close together to form continuous sheets; bound by tight junctions and desmosomes
3. Polarity: has one free (apical) surface; the portion exposed to the body exterior or the cavity of an internal organ
Special Characteristics of Epithelia
4. Avascular: it has no blood vessels within it; receives nourishment by diffusion of substances from blood vessels in the underlying connective tissue
5. Regenartion: able to replace cells rapidly by mitotic division
Special Characteristics of Epithelia
6. Basement Membrane: reinforces the epithelial sheets, helping it to resist stretching and tearing, defines the space that may be occupied by epithelial cells; made up of a thin supporting basal lamina (nonliving adhesive material) which separates epithelial tissue from the underlying connective tissue (secretes a similar extracellular material called reticular lamina); these two together for the basement membrane
Classification of Epithelia
Membranous Epithelium
Criteria for Classification • Cellular Shape: Irregularly polyhedral (many-sided) in
a cross section, differ in cell height; 4 common shapes are:
– Squamous: flattened and scale-like; nucleus is thin and flattened
– Cuboidal: as tall as they are wide; nucleus is spherical– Columnar: tall and column shaped; nucleus is elongated from
top to bottom– Pseudostratified columnar: one layer of oddly shaped
columnar cells that don’t always extend to the surface of the membrane; some nuclei are located toward the top and some toward the bottom
Membranous Epithelium
Criteria for Classification• Cellular Arrangement (layers)
a. simple epithelia: composed of a single layer of cells
b. stratified epithelia: multiple cell layers stacked on top of each other
c. transitional epithelia: differing cell shapes in a stratified, or layered sheet
Simple Epithelium
• Simple Squamous Epithelium: function is filtration and diffusion; single layer of thin flattened cells, like floor tiles; nucleus is broad and thin; lines air sacs of lungs, forms walls of capillaries, lines the inside of the blood and lymph vessels, and covers the surfaces of the pleura, pericardium, and peritoneum
Simple Epithelium
• Simple Cuboidal Epithelium: function is secretion and absorption; single layer of cube-
shaped cells; centrally located, spherical nucleus; covers the ovaries and lines most of the kidney tubules and ducts of certain glands such as salivary, thyroid, pancreas, and liver
Simple Epithelium
Simple Columnar Epithelium: specialized for protection, secretion, and absorption; single layer of elongated cells; nucleus is located at the same level near the basement membrane; lines the uterus and most organs of the digestive tract; flask-shaped glandular cells called “goblet cells” are scattered among columnar cells of this tissue and secrete a protective mucus onto the tissue’s surface
Simple Epithelium
Pseudostratified Columnar Epithelium: appear stratified or layered, but are not; possess cilia and goblet cells; one nucleus that is located at two or more levels within the cells; lines the passages of respiratory and reproductive systems
Stratified Epithelium: two or more cell layers; major function is protection because they are
considerably more durable
• Stratified Squamous Epithelium: many cell layers make this tissue thick; cells reproduce
in the deeper layer pushing older ones farther and farther outward; forms the outer layer of skin (epidermis), lines the mouth, throat, vagina, and anal canal
Stratified Epithelium
Stratified Cuboidal Epithelium: consist of two to three layers that line a lumen (space within a tubular structure); lines the larger ducts of the mammary glands, sweat glands, salivary glands, and pancreas; also lines developing ovarian follicles and seminiferous tubules
Stratified Epithelium
Stratified Columnar Epithelium: layers of cells; superficial cells are elongated, while the basal layers consist of cube-shaped cells; found in male urethra and vas deferens, and in parts of the pharynx
Stratified Epithelium
Stratified Transitional Epithelium: specialized to change in response to increased tension; forms the inner lining of urinary bladder and the passageways of the urinary system; the walls consist of several layers of cuboidal cells, when distended they flatten
Covering and Lining Epithelia• Endothelia: simple epithelial
sheet composed of a single layer of squamous cells attached to a basement membrane; provides a slick, friction-reducing lining in all hollow circulatory system organs (lymphatic vessels, blood vessels, and the heart; capillary walls consist only of endothelia because its extreme thinness encourages the exchange of nutrients and wastes across capillary walls
Covering and Lining Epithelia• Mucous Membrane: epithelial membranes that line body
cavities that open to the exterior, such as those of the digestive, respiratory, and urogenital tracts; they are “wet”, or moist membranes bathed by secretions or, in the case of the urinary mucosae, urine
• Cutaneous Membrane: your skin; exposed to air and is a dry membrane
• Serous Membrane: moist membranes found in closed ventral cavities; parietal layer that lines the cavity wall and visceral layer that covers the outer surface of the organs within the cavity; each layer secretes serous fluid which lubricates the facing surfaces of the parietal and visceral layers, so that they slide across each other; named according to site and specific organ association
Glandular Epithelium
Glandular Epithelia is made up of one or more cells that produce and secrete a particular product called a secretion (aqueous fluid, containing proteins). Secretion can refer to both the process of secretion formation and the release of the product of glandular activity. Glandular epithelium are classified according to the route of secretion and the general function of their products, and as unicellular or multicellular on the basis of their structure.
Glandular Epithelium
• Endocrine Glands: lose their ducts and are called ductless glands; produce hormones which they secrete directly into the extracellular space; not all endocrine glands are derivatives of epithelia
Glandular Epithelium• Exocrine Glands: more
numerous than endocrine glands; secrete their products through a duct onto body surfaces or into body cavities; include sweat glands, salivary glands, the liver (which secretes bile), the pancreas (which synthesizes digestive enzymes), mammary glands, mucous glands, and many others
Exocrine Glands
• Unicellular Glands: single cells interposed in epithelial tissue between cells with other functions; have no ducts; all such glands produce mucin ( a complex glycoprotein that dissolves in water and forms a slimy coating (mucus) that protects and lubricates surfaces; includes the goblet cells of the intestinal and respiratory mucosae as well as mucin-producing cells found in other body regions
Exocrine Glands
Multicellular Glands: classified according to the composition of their secretions and the method by which secretion occurs
1. Merocrine Glands: secrete watery, protein rich serous fluid by exocytosis ( salivary glands, pancreatic glands, certain sweat glands)
2. Apocrine Glands: lose small portions of their cytoplasm as fluid –filled packets (mammary glands, certain sweat glands)
3. Holocrine Glands: the whole cell lyses during secretion (sebaceous glands)
Exocrine Glands
Merocrine GlandApocrine Gland Holocrine Gland
Connective Tissue
Connective tissue is found throughout the body. It is the most abundant and widely distributed of all the tissues.
Connective Tissue
Chief subclasses include:
1. Connective tissue proper
2. Cartilage
3. Bone
4. Blood
Connective Tissue
Major functions include:
1. Binding
2. Support
3. Protection
4. Insulation
5. Transportation of substances within the body
Common Characteristics of Connective Tissue
Common Origin: arise from mesenchyme (an embryonic tissue derived from the mesoderm germ layer
Degrees of Vascularity: cartilage is avascular; dense connective tissue poorly vascularized; other types have a rich supply of blood vessels
Matrix: composed largely of nonliving extracellular matrix, which separates the living cells of the tissue; makes connective tissue able to bear weight, withstand great tension, and endure abuses such as physical trauma and abrasions
Structural Elements of Connective Tissue
Connective tissues are placed into different categories or types according to the structural characteristics of the intercellular material. The consistency of the intercellular material varies from fluid to semisolid to solid.
Fibers• Collagenous: thick threads made from
molecules of the protein collagen; grouped in long, parallel bundles; they are flexible but only slightly elastic; they resist considerable pulling force (tendons that connect muscle to bone); tissues containing abundant fibers are called dense tissue which appear white and are referred to as white fibers.
• Elastic: composed of a protein called elastin; fibers branch, forming complex networks; stretch easily and can resume their original lengths and shapes (vocal chords); yellow fibers
• Reticular: very thin collagenous fibers; highly branched and form delicate supporting networks in a variety of tissues
Cells
Resident Cells1. Fibroblasts: most common; large and usually star-shaped; produce fibers by secreting proteins into the matrix around them2. Mast Cells: large and widely distributed; located near blood vessels; release heparin, which prevents blood clotting, and histamine, which promotes reactions associated with inflammation and allergies
Wandering Cells1. Macrophages: almost as numerous as fibroblasts; specialized to carry on phagocytosis; move about and function as scavengers and defense cells that clear foreign particles from tissue
Types of Connective Tissue
1. Embryonic Connective Tissue: Mesenchyme
a. Mesenchymal Tissue: first definitive tissue formed from the mesoderm germ layer; arises during
the early weeks of development and eventually differentiates into all other connective tissue; star-shaped cells and a fluid ground substance containing fine fibrilsb. Mucous Connective Tissue: temporary tissue; derived from mesenchyme and similar to it; appears In the fetus in very limited amounts (ex. Wharton’s jelly, which supports the umbilical cord)
Types of Connective Tissue
2. Connective Tissue Proper: Loose Fibrous
Areolar: soft and pliable; serves as a type of universal packing material between other tissues; the most widely distributed in the body; separates muscles, wraps small blood vessels and nerves, surrounds glands, and forms the subcutaneous tissue; present in all mucous membranes
Loose FibrousAdipose: (fat); develops when
certain cells store fat in droplets within their cytoplasm and enlarge; when such cells are so numerous that they crowd other cell types, adipose tissue results; cushions joints and some organs (kidneys), insulates beneath the skin, stores energy in fat molecules; located beneath the the skin, inspaces between muscles, around kidneys, behind eyeballs, in certain abdominal membranes, on surface of the heart, and around certain joints
Loose Fibrous
Reticular: delicate network of interwoven reticular fibers; limited to certain sites such as: forms the stroma, or internal supporting framework of lymph nodes, spleen, bone marrow, and liver; some are fibroblast-like, others differentiate into phagocytic macrophages
Dense Fibrous
Regular: primarily parallel collagen fibers, a few elastin fibers, and major cell type is the fibroblast; located in the tendons, most ligaments, and aponeuroses (sheet-like tendon that separates muscle from muscle); attaches muscle to bone or to muscles, bone to bone; withstands great tensil stress when pulling force is applied in one direction
Dense Fibrous
Irregular: primarily irregularly arranged collagen fibers, some elastin, major cell type is fibroblast; located in the dermis of the skin, submucosa of the digestive tract, fibrous capsules of organs and of joints, fascia (white sheets that surround the muscle); able to withstand tension exerted in many directions; provides structural strength
Dense Fibrous
Elastic: predominant fiber type is elastin; located in the walls of the aorta, some parts of the trachea and bronchi, forms the vocal cords and the ligamenta flava connecting the vertebrae; yields easily to a pulling force or pressure and then recoils to its original length
Cartilage
partly rigid, partly flexible connective tissue; provides support frameworks and attachements; protects underlying tissues and forms structural models for many developing bones; composed of collagenous fibers embedded in a gel-like ground substance; chondrocytes (cartilage cells) occupy small chambers called lacunae and are completely surrounded by matrix; avascular and devoid of nerve fibers; different types of matrix distinguish three types of cartilage
Cartilage
Hyaline: most common type; very fine collagenous fibers in its matrix and looks somewhat like white plastic; found on the ends of bones in many joints, in the soft part of the nose, and in supporting rings of the respiratory passages; important in development of most bones
Cartilage
Fibrocartilage: very tough tissue containing many collagenous fibers; shock absorber for structures subjected to pressure; forms pads (intervertebral diswks) between the individual parts of the backbone, cushions bones in the knees and in the pelvic girdle
Cartilage
Elastic: dense network of elastic fibers; more flexible than hyaline cartilage; provides framework for the external ears and parts of the larynx
Bone (Osseous Tissue)
hard, calcified matrix containing many collagen fibers; very well vascularized; supports and protects, provides levers for muscles to act on, stores calcium and other minerals and fat, marrow inside bones is site for blood cell formation (hematopoiesis); contains osteocytes (bone forming cells)
Blood (Vascular Tissue)
red and white blood cells in a fluid matrix (plasma); contained within blood vessels; transport of respiratory gases, nutrients, wastes, and other substances
Muscle Tissue
• highly cellular
• well vascularized
• elongated shape
• specialized myofilaments, composed of contractile proteins actin and myosin
• responsible for most types of body movement
Muscle Tissue
Skeletal Muscle: long, cylindrical, multinucleated cells with obvious striations;m located in skeletal muscles attached to bones or occasionally to skin; voluntary control; functions in locomotion, manipulation of environment, facial expressions
Muscle Tissue
Cardiac Muscle: branching, striated generally uninucleated cells that fit together tightly at unique junctions called intercalated discs; located only in the walls of the heart; propels blood into circulation as it contracts; involuntary control
Muscle Tissue
Smooth Muscle: spindle-shaped cells with central nuclei; cells arranged closely to form sheets; no striations; mostly in the walls of hollow organs; propels substances or objects (foodstuff, urine, a baby) along internal passages; involuntary control
Nervous Tissue
makes up the nervous system: the brain, spinal cord, and nerves that conduct impulses to and from the various body organs; branching cells, cytoplasmic extensions, that may be quite long, extend from the nucleus-containing cell body; transmits electrical signals from sensory receptors and to effectors (muscles and glands) which control their activity; types of cells:
Nervous Tissuetypes of cells:
Neurons: highly specialized cells that generate and conduct nerve impulses; branching cells cytoplasmic extensions allow conduction of electrical impulses over substantial distances
Nervous Tissuetypes of cells:
Neuroglial Cells: nonconducting cells that support, insulate, and protect the delicate neurons
Tissue Repair
The skin and mucosae, the ciliary activity of epithelial cells lining the respiratory tract, and strong acid (chemical barrier) produced by stomach glands represent three defenses exerted at the local tissue level.
Tissue Repair
When injury does occur it stimulates the body’s inflammatory and immune responses.
Replacement of destroyed tissue by proliferation of the same kind of cells is called regeneration.
Tissue Repair
Proliferation of fibrous connective tissue, that is scar tissue, is called fibrosis.
Tissue Repair
Organization is the process during which the temporary blood clot is replaced by the ingrowth of granulation tissue (a delicate pink tissue composed of several elements:
1. extremely permeable capillaries bud from undamaged capillaries and enter the damaged area; laying down a new capillary bed
2. scattered macrophages and large, immature fibroblast synthesize new collagen fibers to permanently bridge the gap
3. macrophages digest and remove the original blood clot4. secretes bacterium-inhibiting substances5. granulation tissue becomes scar tissue
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