41 terms

Chapter 4: Tissue: The Living Fabric (B)

Connective, Muscular, Nervous Tissue
Connective Tissue
found everywhere in the body, it is the most abundant and widely distributed tissue type. 3 main elements: ground substance, fibers, and cells. (ground fibers and cells make up the extracellular matrix

4 main types/classes (Connective Tissue Proper, Cartilage, Bone Tissue, Blood)

Major Functions: binding and support, protection, insulation, and as blood transportation
Characteristics of Connective Tissue
1. Common Origin ( all connective tissue arise from mesenchyme [an embryonic tissue] and hence have a kinship)
2. Varying Degrees of vascularity (all vascular except for cartilage)
3. Extracellular matrix (cells seperated by nonliving extracellular matrix [ground substances and fiber])
Ground Substance
the unstructured material that fills the space between the cells and contains the fibers. Medium through which solutes diffuse between blood capillaries and cells.

Composed of interstitial (tissue) fluid, cell adhesion protiens, and proteoglycans.
Cell Adhesion Protiens
fibronectin, laminim, and others. Serve mainly as a connective tissue glue that allows connective tissue cells to attach themselves to matrix elements
protein core and large polyssacharides (chrondroitin sulfate and hyaluronic acid). Trap water in varying amounts, affecting the viscosity of the ground substance
provide support of connective tissue. 3 types: Collagen (white fibers), Elastic, Reticular
Collagen Fibers
white fibers; are by far the strongest and most abundant. Provides high tensile strength
Elastic Fibers
long, thin fibers that form branching networks in the extracellular matrix. Contain rubber like protien, elastin, that allows them to stretch and recoil like rubberbands.

ex: skin, lungs, blood vessels
Reticular Fibers
short, fine, collagenous fibers with a slightly different chemistry and form. They are continous with collagen fibers and are higly branched forming delicate vessles. Abundant where connective tissue abuts other tissue types. Has ability to catch water.

ex: basement membrane of epithelial tissues, and ground capillaries, high degree in plasma
mitotically active and secretory cells = blast (imature) [create more cells for that particular tissue]. Mature cells = cytes ( In all 4 types of connective tissue)

Fibroblasts in connective tissue proper
Chondroblasts and Chondrocytes in cartilage
Osteoblasts and Osteocytes in bone (osteo means bone)
Hematopoietic stem cells in bone marrow
Fat cells, white blood cells, mast cells and macrophages
Cells Types
Classes of Connective Tissue
Connective Tissue Proper
Types: Loose Connective tissue and Dense Connective tissue

Loose: Aerolar, Adipose, Reticular
Dense: Dense regular, Dense irregular, Elastic
Connective Tissue Proper: loose connective tissue, aerolar
Description: Gel-like matrix with all three fiber types; cells: fibroblasts, macrophages, mast cells, and some white blood cells

Function: Wraps and cushions organs; its macrophages phagocytize bacteria; plays important role in inflammation; holds and conveys tissue fluid

Location: Widely distributed under epithelia of body, ex: forms lamina propria of mucous membranes; packages organs; surrounds capillaries
Areolar Connective Tissue
functions: supporting and binding other tissues (the job of the fibers), holding body fluids (ground substances role), defending against infection (via the activity of white blood cells and macrophages), and storing nutrients as fat (in fat cells)
Adipose (fat) Tissue
similar to Areolar Connective Tissue in structure and function, but nutrient storing ability is much greater. 90% of fat cells accounts for tissues mass.
Connective Tissue Proper: loose connective tisse, adipose
Description: Matrix as in Aerolar, but very sparse; closely packed adipocytes, or fat cells, have nucleus pushed to the side by large fat droplet

Function: Provides reserve a food fuel; insulates against heat lose; supports and protects organs

Location: Under skin in the hypodermis; around kidneys and eyeballs; within abdomen; in breasts
Connective Tissue Proper: loose connective tissue, reticular
Network of reticular fibers in a typical loose ground substance, reticular cells lie on the network

Function: Fibers form a soft internal skeleton (stroma) that supports other cell types including white blood cells, mast cells, and macrophages

Location: Lymphoid organs (lymph nodes, bone marrow, and spleen)
Connective Tissue Proper: dense connective tissue. dense regular
Description: primarily parallel collagen fibers; a few elastic fibers; major cells type is the fibroblast

Function: attaches muscles to bones or to muscles; attaches bones to bones; withstands great tensile stress when pulling force is applied in one direction

Location: Tendons, most ligaments, aponeuroses
Connective Tissue Proper: dense connective tissue: dense irregular
Description: Primarily irregularly arranged collagen fibers; some elastic fibers; major cell type is the fibroblast

Function: able to withstand tension exerted in many directions; provides structural strenght

Location: fibrous capsules of organs and of joints; dermis of the skin; submucosa of digestive tract. Can also be found in dermis layer of skin
Connective Tissue Proper: dense connective tissue, elastic
Description: dense regular connective tissue containing a high proportion of elastic fibers

Function: allows recoil of tissue following stretching; maintains pulsatile flow of blood through arteries; aids passive recoil of lungs following inspiration

Cartilage: hyaline
Description: Amorphous but firm matrix; collagen fibers form an imperceptible network; chonodroblasts produce the matrix and when mature (chondrocytes) lie in lacunae

Functions: Supports and reinforces; has resilient cushioning properties; resists compressive stress

Location: Forms most of the ends of the embryonic skeleton; covers the ends of long bones in joint cavities; forms costal cartilage of the ribs; cartilages of the nose, trachea, and larnyx
Cartilage: elastic
Description: Similar to hyaline cartilage, but more elastic fibers in matrix

Function: Maintains the shapes of a structure while allowing great flexibility.

Location: Supports the external ear (pinna); epiglottis
Cartilage: fibrocartilage
Description: Matrix similar to but less firm than that in hyaline cartilage; thick collagen fibers predominate

Function: Tensile strength with the ability to absorb compressive shock

Location: Intervertebral discs; pubic symphysis; discs of knee joint
Others: bone (osseous tissue)
Description: hard, calcified matrix containing many collagen fibers; osteocytes lie in lacunae. Very well vascularized

Function: bone supports and protects (by enclosing); provides levers for the muscles to act on; stores calcium and other minerals and fat; marrow inside bones is the site for blood cell formation (hematopoiesis)

Location: (bones)
Others: blood
Description: red and white blood cells in a fluid matrix (plasma)

Function: Transport of respiratory gases, nutrients, wastes, and other substances

Location: contained within blood vessels
Nervous Tissue
the main component of the nervous system - the brain, spinal cord, and nerves - which regulates and controls body functions

Description: Neurons are branching cells; cell processes that may be quite long extend from the nucleus-containing cell body; also contributing to nervous tissue are nonirritable supporting cells (not illustrated)

Function: transmit electrical signals from sensory receptors and to effectors (muscled and glands) which control their activity

Location: brain, spinal cord, and nerves
Muscle Tissue
highly cellular, well vascularized tissues that are responsible for most types of body movement. Muscle cells contain mayofilaments, elaborate versions of actin and myosin filaments that bring about movement or contraction in all cell types.
Skeletal Muscle
Description: long, cylindrical, multinucleate cells; obvious stritations

Function: Voluntary movement; locomotion; manipulation of the environment; facial expression; voluntary control

Location: in skeletal muscles attached to bones or occasionally to skin
Cardiac Muscle
Description: Branching striated, generally uninucleate cells that interdigitate at specialized junctions (intercalated discs)

Function: as it contracts it propels blood into the circulation, involuntary control

Location: the walls of the heart
Smooth Muscle
Description: Spindle-shaped cells with central nuclei; no striations; cells arranged closely to form sheets

Function: propels substances or objects (foodstuffs, urine, a baby) along internal passageways; involuntary control

Location: mostly in the walls of hollow organs
Covering and Lining Membranes
A body membrane that incorpotates more then one type of tissue. 3 types: Cutaneous, Mucous, and Serous
Cutaneous Membrane
is your skin. Organ system consisting of keratinized stratified squamous epithelium (epidermis) firmly attached to a thick layer of dense irregular connective tissue (dermis). Dry membrane
Mucous Membranes
line body cavities that open to the exterior, such as those of the hollw organs of the digestive, respiratory and urogenital tracts. Wet or moist membranes.
Serous Membranes
are the moist membranes found in closed ventral body cavities. Consisits of simple squamous epithelium resting on a thin layer of loose connective (aerolar) tissue.

Serosae—membranes (mesothelium + areolar tissue) in a closed ventral body cavity.
Parietal serosae line internal body walls
Visceral serosae cover internal organs
Tissue Repair
Steps of tissue repair: Inflammation sets the stage, Organization restores the blood supply, Regeneration
Release of inflammatory chemicals, Dilation of blood vessels, Increase in vessel permeability, Clotting occurs
Organization and Restored Blood Supply
The blood clot is replaced with granulation tissue
Epithelium begins to regenerate, Fibroblasts produce collagen fibers to bridge the gap, Debris is phagocytized
Regeneration and Fibrosis
The scab detaches, Fibrous tissue matures; epithelium thickens and begins to resemble adjacent tissue, Results in a fully regenerated epithelium with underlying scar tissue
Developmental Aspects of Tissue
first event of embryonic develpoment is the formation of three primary germ layers. (Superficial to deep) ectoderm, mesoderm, and endoderm. These germ layers specialize to form the four primary tissues (epithelium, connective, nervous, and muscle)
Germ Layers
Nerve tissue arises from ectoderm, Muscle and connective tissues arise from mesoderm, Epithelial tissues arise from all three germ layers