CARTILAGE Dr Iram Tassaduq CARTILAGE Cartilage is a

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CARTILAGE Dr Iram Tassaduq

CARTILAGE Dr Iram Tassaduq

CARTILAGE • Cartilage is a type of connective tissue derived from mesenchyme, in which

CARTILAGE • Cartilage is a type of connective tissue derived from mesenchyme, in which the ground substance is hardened and provides support.

CARTILAGE • It is a form of connective tissue composed of cells called chondrocytes

CARTILAGE • It is a form of connective tissue composed of cells called chondrocytes and a highly specialized extracellular matrix

CARTILAGE • Matrix is solid and firm • Does not contain vessels or nerves.

CARTILAGE • Matrix is solid and firm • Does not contain vessels or nerves. • Is surrounded by a layer of dense connective tissue, the perichondrium

FUNCTIONS OF CARTILAGE TISSUE • Firm consistency of the extracellular matrix allows the tissue

FUNCTIONS OF CARTILAGE TISSUE • Firm consistency of the extracellular matrix allows the tissue to bear mechanical stresses without permanent distortion • Supports soft tissues. • Shock-absorbing because it is resilient. • Smooth surface allows sliding. • Essential for growth, development of bone.

TYPES OF CARTILAGE • Hyaline cartilage • Elastic cartilage • Fibrous cartilage

TYPES OF CARTILAGE • Hyaline cartilage • Elastic cartilage • Fibrous cartilage

HYALINE CARTILAGE • Cells embedded in clear matrix(hyalos meaning glass) • Perichondrium on surface

HYALINE CARTILAGE • Cells embedded in clear matrix(hyalos meaning glass) • Perichondrium on surface • Chondrocytes are located in lacunae

HYALINE CARTILAGE • Bluish white color. • Strong, rubbery, flexible tissue.

HYALINE CARTILAGE • Bluish white color. • Strong, rubbery, flexible tissue.

CHONDROCYTES • Produce and maintain extra cellular matrix. • Either single or in isogenous

CHONDROCYTES • Produce and maintain extra cellular matrix. • Either single or in isogenous groups. • Fat droplets, glycogen granules are found in cytoplasm. • Active ones are more basophilic.

TERRITORIAL MATRIX • Contain high concentration of bound sulfate so stains with basic dyes.

TERRITORIAL MATRIX • Contain high concentration of bound sulfate so stains with basic dyes. • Rich in water(70 -80%) • Three classes of molecules are present; Collagen, Proteoglycans and glycoproteins.

INTERTERRITORIAL MATRIX • Region that surrounds the territorial matrix • Sulphated proteoglycans are in

INTERTERRITORIAL MATRIX • Region that surrounds the territorial matrix • Sulphated proteoglycans are in low concentration

LOCATION Found at • ends of bones • nose • trachea • larynx

LOCATION Found at • ends of bones • nose • trachea • larynx

PERICHONDRIUM • Dense CT that covers cartilage • Contains blood, nerve supply, lymphatics. •

PERICHONDRIUM • Dense CT that covers cartilage • Contains blood, nerve supply, lymphatics. • Source of new cartilage cells

PERICHONDRIUM • Divided into two layers Inner cellular Outer fibrous

PERICHONDRIUM • Divided into two layers Inner cellular Outer fibrous

ELASTIC CARTILAGE • Similar to hyaline cartilage but has elastic fibers running in all

ELASTIC CARTILAGE • Similar to hyaline cartilage but has elastic fibers running in all directions in addition to collagen.

ELASTIC CARTILAGE • The properties of elastin and the fibers it forms give elastic

ELASTIC CARTILAGE • The properties of elastin and the fibers it forms give elastic cartilage its ability to be deformed and to spring back into shape immediately. The chondrocytes are more tightly packed together than is the case in hyaline cartilage

ELASTIC CARTILAGE ELASTIN STAIN

ELASTIC CARTILAGE ELASTIN STAIN

ELASTIC CARTILAGE • Elastic cartilage is found in • pinna of the Ear •

ELASTIC CARTILAGE • Elastic cartilage is found in • pinna of the Ear • walls of the Eustachian tube • Epiglottis all places in which the maintenance of a specific shape is important to proper function

FIBROCARTILAGE • Chondrocytes with dense connective tissue. • No surrounding perichondrium. • Rounded nuclei

FIBROCARTILAGE • Chondrocytes with dense connective tissue. • No surrounding perichondrium. • Rounded nuclei belong to chondrocytes. • In fibrous areas some nuclei are flat, they are of fibroblasts. • Contain type I and type II collagen.

FIBROCARTILAGE • Chondrocytes may lie singly or in pairs, but most often they form

FIBROCARTILAGE • Chondrocytes may lie singly or in pairs, but most often they form short rows between dense bundles of collagen fibers.

FIBROCARTILAGE • Collagen type I is dominant in fibrous cartilage

FIBROCARTILAGE • Collagen type I is dominant in fibrous cartilage

FIBROCARTILAGE is typically found in relation to joints • intra-articular lips, disks and menisci

FIBROCARTILAGE is typically found in relation to joints • intra-articular lips, disks and menisci • intervertebral disks • symphysis pubis.

GROWTH OF CARTILAGE • Growth is attributable to two processes: – Interstitial growth •

GROWTH OF CARTILAGE • Growth is attributable to two processes: – Interstitial growth • • Mitotic division of preexisting chrondrocytes Synthesis of matrix Expands cartilage matrix from within Occurs in epiphyseal plates, articular cartilage – Appositional growth • Differentiation of perichondrial cells chondroblasts • Synthesis of matrix • Increase in girth

REPAIR OF HYALINE CARTILAGE • • Can tolerate considerable amount of stress Limited ability

REPAIR OF HYALINE CARTILAGE • • Can tolerate considerable amount of stress Limited ability to repair Because of 1. Immobility of chodrocytes 2. Less ability of chodrocytes to proliferate 3. Avascularity 4. When hyaline cartilage calcifies it is replaced by bone