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Chapter 4 Connective Tissue • • Most abundant and widely distributed of primary tissues Four main classes – Connective tissue proper – Cartilage – Bone – Blood Major Functions of Connective Tissue • • • • • Binding and support Protecting Insulating Storing reserve fuel Transporting substances (blood) Characteristics of Connective Tissue – Have varying degrees of vascularity (blood vessels) – Have extracellular matrix • Connective tissue not composed mainly of cells • Largely nonliving extracellular matrix separates cells – So can bear weight, withstand tension, endure abuse Structural Elements of Connective Tissue • Three elements – Ground substance – Fibers – Cells • Composition and arrangement varies in different connective tissues Ground Substance • Unstructured material that fills space between cells • Components – Interstitial fluid – Cell adhesion proteins ("glue" for attachment) • Trap water in varying amounts, affecting viscosity of ground © 2013 Pearson Education, Inc. substance Connective Tissue Fibers • Three types of fibers provide support – Collagen • Strongest and most abundant type • Tough; provides high tensile strength – Elastic fibers • Networks of long, thin, elastin fibers that allow for stretch and recoil – Reticular • Short, fine, highly branched collagenous fibers (different chemistry and form than collagen fibers) • Branch, forming networks that offer more "give" Cells • "Blast" cells – Immature form; mitotically active; secrete ground substance and fibers – Fibroblasts in connective tissue proper – Chondroblasts in cartilage – Osteoblasts in bone – Hematopoietic stem cells in bone marrow • "Cyte" cells – Mature form; maintain matrix – Chondrocytes in cartilage – Osteocytes in bone Other Cell Types in Connective Tissues • Fat cells – Store nutrients • White blood cells – Neutrophils, eosinophils, lymphocytes – Tissue response to injury • Mast cells – Initiate local inflammatory response against foreign microorganisms they detect © 2013 Pearson Education, Inc. • Macrophages – Phagocytic cells that "eat" dead cells, microorganisms; function in immune system Types of Connective Tissues: Connective Tissue Proper • All connective tissues except bone, cartilage and blood • Two subclasses – Loose connective tissues • Areolar • Adipose • Reticular – Dense connective tissues (also called fibrous connective tissues) • Dense regular • Dense irregular • Elastic Areolar Connective Tissue • Support and bind other tissues – Universal packing material between other tissues • • • • • • • • Most widely distributed Provide reservoir of water and salts Defend against infection Store nutrients as fat Fibroblasts Loose arrangement of fibers Ground substance When inflamed soaks up fluid edema Adipose Tissue • White fat – Similar to areolar but greater nutrient storage – Cell is adipocyte • Stores nutrients – Scanty matrix – Richly vascularized – Shock absorption, insulation, energy storage © 2013 Pearson Education, Inc. • Brown fat – Use lipid fuels to heat bloodstream not to produce ATP Reticular Connective Tissue • • • Resembles areolar but fibers are reticular fibers Fibroblasts called reticular cells Supports free blood cells in lymph nodes, the spleen, and bone marrow Dense Regular Connective Tissue • Closely packed bundles of collagen fibers running parallel to direction of pull – White structures with great resistance to pulling – Fibers slightly wavy so stretch a little • • • Fibroblasts manufacture fibers and ground substance Few cells Poorly vascularized Dense Irregular Connective Tissue • • Same elements but bundles of collagen thicker and irregularly arranged Resists tension from many directions – Dermis – Fibrous joint capsules – Fibrous coverings of some organs Elastic Connective Tissue • Some ligaments very elastic – Those connecting adjacent vertebrae • Many of larger arteries have in walls Cartilage • • • • • Chondroblasts and chondrocytes Tough yet flexible Lacks nerve fibers Up to 80% water - can rebound after compression Avascular – Receives nutrients from membrane surrounding it • Perichondrium © 2013 Pearson Education, Inc. • Three types of cartilage: – Hyaline cartilage – Elastic cartilage – Fibrocartilage Bone • • • • • • • • • Also called osseous tissue Supports and protects body structures Stores fat and synthesizes blood cells in cavities More collagen than cartilage Has inorganic calcium salts Osteoblasts produce matrix Osteocytes maintain the matrix Osteons – structural units Richly vascularized Blood • • • • • Most atypical connective tissue – is a fluid Red blood cells most common cell type Also contains white blood cells and platelets Fibers are soluble proteins that precipitate during blood clotting Functions in transport Muscle Tissue • Highly vascularized • Responsible for most types of movement • Three types – Skeletal muscle tissue • Found in skeletal muscle • Voluntary – Cardiac muscle tissue • Found in walls of heart • Involuntary – Smooth muscle tissue • Mainly in walls of hollow organs other than heart • Involuntary © 2013 Pearson Education, Inc. Nervous Tissue • Main component of nervous system – Brain, spinal cord, nerves – Regulates and controls body functions • Neurons – Specialized nerve cells that generate and conduct nerve impulses • Neuroglia – Supporting cells that support, insulate, and protect neurons Covering and Lining Membranes • Composed of at least two primary tissue types – An epithelium bound to underlying connective tissue proper – Are simple organs • Three types – Cutaneous membranes – Mucous membranes – Serous membranes Cutaneous Membranes • • Skin • Dry membrane Keratinized stratified squamous epithelium (epidermis) attached to a thick layer of connective tissue (dermis) Tissue Repair • • • Necessary when barriers are penetrated Cells must divide and migrate Occurs in two major ways – Regeneration • Same kind of tissue replaces destroyed tissue • Original function restored – Fibrosis • Connective tissue replaces destroyed tissue • Original function lost © 2013 Pearson Education, Inc. Steps in Tissue Repair: Step 1 • Inflammation sets stage – Release of inflammatory chemicals – Dilation of blood vessels – Increase in vessel permeability – Clotting occurs Steps in Tissue Repair: Step 2 • Organization restores 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 Steps in Tissue Repair: Step 3 • 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 Regenerative Capacity in Different Tissues • Regenerate extremely well – Epithelial tissues, bone, areolar connective tissue, dense irregular connective tissue, blood-forming tissue • Moderate regenerating capacity – Smooth muscle and dense regular connective tissue • Virtually no functional regenerative capacity – Cardiac muscle and nervous tissue of brain and spinal cord © 2013 Pearson Education, Inc. – New research shows cell division does occur • Efforts underway to coax them to regenerate better Aging Tissues • Normally function well through youth and middle age if adequate diet, circulation, and infrequent wounds and infections • • • • Epithelia thin with increasing age so more easily breached Tissue repair less efficient Bone, muscle and nervous tissues begin to atrophy DNA mutations possible increased cancer risk © 2013 Pearson Education, Inc.