Histology of Cartilage PDF
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Dr Omotoyo H A
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This presentation describes the histology of cartilage, including its types (hyaline, elastic, and fibro), components (cells, fibers, ground substance), and features. It also covers cartilage growth, regeneration, and examples of its use in the body.
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## Histology of Cartilage ### Definition Cartilage is a specialized type of dense connective tissue designed to give support, bear weight and withstand tension, torsion and bending. ### General Features - Cartilage support regions of the body that require flexibility. - Avascular-nourished by? - N...
## Histology of Cartilage ### Definition Cartilage is a specialized type of dense connective tissue designed to give support, bear weight and withstand tension, torsion and bending. ### General Features - Cartilage support regions of the body that require flexibility. - Avascular-nourished by? - Non-nervous structure. - Poor regeneration capacity. - Growth takes place by 2 methods-appositional growth and interstitial growth. - Usually surrounded by perichondrium (except articular cartilage and fibro cartilage). ### Perichondrium - Cartilage is covered externally by a dense connective tissue sheath known as perichondrium except articular cartilage and fibro cartilage. - Has two layers-outer fibrous layer (vascular) and inner chondrogenic layer (cellular). - Has cells which can regrow cartilage to some extent if the cartilage is damaged. ### Components - **Cells**: mesenchymal cells, chondroblasts and chondrocytes - **Fibres**: collagen and elastic - **Ground Substance**: mucopolysaccharides (chondroitin sulphate) ### Cells of the Cartilage - They are derived from undifferentiated mesenchymal cells. - Young cells are small with branched cytoplasmic processes known as chondroblasts, they multiply to chondrocytes. - Older and mature cells are known as chondrocytes. - Chondrocytes are bigger in size and are found in spaces called as lacunae. - They are found groups of 2-4 cells together known as cell nest. - They are responsible for production of fibres and ground substance of the cartilage. - Old mature cells are incapable of multiplication. ### Classification/Types - Hyaline Cartilage - Elastic Cartilage - Fibro Cartilage ### Areas Found | Cartilage | Occurence | |---|---| | Hyaline Cartilage | Epiphyseal growth plate, ribs, respiratory tract, articular cartilage | | Elastic Cartilage | Pinna, epiglottis, external auditory meatus, arytenoid corniculate, cuneiform cartilage. | | Fibro Cartilage | Intervertebral discs. | ### Histological Features or Microscopic Features or Microscopic Anatomy #### Hyaline Cartilage - Characterized by the presence of highly basophilic homogeneous matrix. - Appear homogeneous as the collagen fibres present in them have the same refractive index as ground substance. - Perichondrium present. - Cells encapsulated in groups of 2-4 cells. - Matrix around the cells is brighter and deep in colour than other areas, this matrix is known territorial matrix. - Two groups of cells are separated by a lightly coloured matrix known inter-territorial matrix. - In embryo, hyaline cartilage forms temporary skeleton that is replaced by bone. - Osteo-arthritis occurs during ageing which involves gradual loss or changed physical properties of hyaline cartilage that lines articular ends of bones on joints. - Joints that are weight bearing, heavily used are more prone to cartilage degeneration. - Fragments released by wear and tear to articular cartilage trigger secretion of matrix metallo -proteases from macrophages which cause damage, pain and inflammation with the joint. - **Matrix of hyaline cartilage:** - Dry weight of hyaline cartilage is 40% which is embedded in hydrated gel of proteoglycans and structural glycoproteins. - Proteoglycans cause matrix to be basophilic. - Most of the collagen in hyaline cartilage is type II collagen. - Most abundant proteoglycan of hyaline cartilage is aggrecan (core protein) which consists of 150 GAG's side chains of chondroitin sulphate, keratin sulphate. - Proteoglycans non-covalently bound by link proteins to long polymers of hyaluronic acid. - Proteoglycan complexes bind to type II collagen. - Water bound to GAG's in proteoglycans constitute 60-80% of fresh weight of fresh hyaline cartilage. - Another important component of matrix is chondronectin which is a multi adhesive protein that binds specifically to GAG's, collagen II and integrins. - **Two types of matrix:** - **Territorial matrix**: immediately around lacunae housing chondrocytes, matrix stains deeper giving capsule like appearance. - **Interterritorial matrix**: pale staining matrix separating cell nests. - **Chondrocytes of hyaline cartilage:** - Occupy little in hyaline cartilage mass. - Two types of chondrocytes are present. - Young chondrocytes or chondroblast which have elliptical shape present at periphery of cartilage. - Chondrocytes which are round present deeper in cartilage appear in groups up to 8 cells that originate from mitotic divisions of single chondrocyte called as isogenous aggregates or cell nests. - Due to devoid of capillaries, chondrocytes respire under low oxygen tension. - So hyaline cartilage metabolize glucose mainly by anaerobic glycolysis to produce lactic acid as end product. - Chondrocyte synthesis of sulphated GAG's and secretion of proteoglycans is accelerated by hormones and growth factors. - Major regulator of hyaline cartilage growth is pituitary derived growth hormone. - **Perichondrium of hyaline cartilage:** - Except in articular cartilage of joints, hyaline cartilage is covered by a layer of dense connective tissue called as perichondrium. - Perichondrium is essential for growth and maintenance of cartilage. - Perichondrium consists type I collagen and fibroblast. - Among these fibroblasts, inner layer of perichondrium are progenitor cells for chondroblasts. - There are two types of hyaline cartilages: - **Costal cartilage:** These are bars of hyaline cartilage that connect the ventral ends of ribs to sternum. Cellularity of costal cartilages decrease by age. - **Articular cartilages:** The articular surfaces of most synovial joints are lined by hyaline cartilage. These are not covered by perichondrium. Acts as shock absorbers. #### Elastic Cartilage - Perichondrium present. - Characterized by the presence of elastic fibres in abundance which branch and anastomose. - Chondrocytes are larger than those of hyaline cartilage and present in singly. #### Fibro Cartilage - Perichondrium is characteristically absent. - Has thick bundles of collagen fibres. - Chondrocytes are seen between these fibres in singly in narrow rows. ### Features of Identification | Hyaline Cartilage | Elastic Cartilage | Fibro Cartilage | |---|---|---| | 1. Perichondrium present. | 1. Perichondrium present. | 1. Perichondrium absent. | | 2. Ground substance highly basophilic and homogeneous | 2. Numerous elastic fibres | 2. Bundles of collagen fibres | | 3. Chondrocytes in lacunae and in groups | 3. Single chondrocytes in lacuna | Few chondrocytes seen | ### Chondrogenesis - Cartilage forms from embryonic mesenchyme by the process called as chondrogenesis. - First indication of this process is rounding up of mesenchymal cells which have extensions and divide rapidly called as chondroblast and chondrocytes. - When proliferation is ceased, these cells have basophilic cytoplasm, rich in RER for collagen synthesis. - Production of ECM encloses these cells in cavities called lacunae. ### Applied Histology - Osteoarthritis - Slip disc - Hyaline cartilage have a tendency to ossify with age. A diagram of a synovial joint was provided to illustrate the above. ### Questions - What are the types of cartilage? Give examples. - What is perichondrium? - What are cell nest? How are they formed? - What are the components of cartilage - Give the identifying features of each variety of cartilage - What is calcification of cartilage? ### Thank You **Note:** This is a transcription and summarization of the document. The images were not included in the markdown output.