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ACTIVITIES 1. Finish Cells 15-16 Multiple Choice 2. Cells 23 Osmosis Concept Map 3. Cells 27 #1-9 Turn in #3 & show me #1 & 2 4. Osmosis Problem Set TISSUES Introduction, Epithelial & Connective TISSUES Definition Histology 100+ kinds in the human body TISSUES 4 primary tissue classes 1. Epithelial Covering 2. Connective Support 3. Muscle Movement 4. Nervous Communication Nervous tissue: Internal communication • Brain, spinal cord, and nerves Muscle tissue: Contracts to cause movement • Muscles attached to bones (skeletal) • Muscles of heart (cardiac) • Muscles of walls of hollow organs (smooth) Epithelial tissue: Forms boundaries between different environments, protects, secretes, absorbs, filters • Skin surface (epidermis) • Lining of GI tract organs and other hollow organs,glands Connective tissue: Supports, protects, binds other tissues together • Bones • Tendons • Fat and other soft padding tissue Blood Figure 4.1 TISSUES 2 components in all types 1. Cells 2. Nonliving extracellular matrix TISSUES Differences between classes and subclasses of tissues Types of cells Matrix Relative volume of cells to matrix EPITHELIAL TISSUE Membranes that cover and line Everything that enters or leaves body passes through or between epithelial cells Examples Skin Body cavity linings Glands EPITHELIAL TISSUE Characteristics a. b. c. d. e. Cells closely packed form continuous sheets Little space between cells Polarity Supported by connective tissue Avascular but innervated Exception = glandular tissue is vascular f. Regeneration EPITHELIAL TISSUE Subtypes 1. Covering and lining 2. Glandular EPITHELIAL TISSUE Glands One or more cells that produce secretions Multicellular glands a. Exocrine = ducts b. Endocrine = ductless Goblet Cell Microvilli Secretory vesicles containing mucin Rough ER Golgi apparatus (a) Nucleus (b) Figure 4.4 GLANDS Exocrine glands More numerous than endocrine glands Secrete products into ducts Secretions released onto body surfaces (skin) or into body cavities Examples Mucous, sweat, oil, digestive secretions and saliva Tubular secretory structure Simple duct structure Compound duct structure (duct does not branch) (duct branches) Simple tubular Simple branched tubular Example Example Compound tubular Intestinal glands Stomach (gastric) glands Duodenal glands of small intestine Example Alveolar secretory structure Simple alveolar Simple branched alveolar Compound alveolar Example Example Example No important example in humans Sebaceous (oil) glands Mammary glands Surface epithelium Duct Compound tubuloalveolar Example Salivary glands Secretory epithelium Figure 4.5 GLANDS Endocrine glands Ductless glands Secrete hormones that travel through lymph or blood Examples Pituitary, thyroid and pancreas SURFACE EPITHELIUM Sheets of cells overlying a non-cellular fibrous layer Named according to Number of layers Shape of mature cells (b) Simple cuboidal epithelium Description: Single layer of cubelike cells with large, spherical central nuclei. Simple cuboidal epithelial cells Function: Secretion and absorption. Basement membrane Location: Kidney tubules; ducts and secretory portions of small glands; ovary surface. Connective tissue Photomicrograph: Simple cuboidal epithelium in kidney tubules (430x). Figure 4.3b Apical surface Basal surface Simple Apical surface Basal surface Stratified (a) Classification based on number of cell layers. Figure 4.2a Squamous Cuboidal Columnar (b) Classification based on cell shape Figure 4.2b SURFACE EPITHELIUM Simple a. b. c. d. Squamous Cuboidal Columnar Pseudostratified Most concerned with absorption, secretion, and filtration (not protection) (a) Simple squamous epithelium Description: Single layer of flattened cells with disc-shaped central nuclei and sparse cytoplasm; the simplest of the epithelia. Air sacs of lung tissue Function: Allows passage of materials by diffusion and filtration in sites where protection is not important; secretes lubricating substances in serosae. Nuclei of squamous epithelial cells Location: Kidney glomeruli; air sacs of lungs; lining of heart, blood vessels, and lymphatic vessels; lining of ventral body cavity (serosae). Photomicrograph: Simple squamous epithelium forming part of the alveolar (air sac) walls (125x). Figure 4.3a (b) Simple cuboidal epithelium Description: Single layer of cubelike cells with large, spherical central nuclei. Simple cuboidal epithelial cells Function: Secretion and absorption. Basement membrane Location: Kidney tubules; ducts and secretory portions of small glands; ovary surface. Connective tissue Photomicrograph: Simple cuboidal epithelium in kidney tubules (430x). Figure 4.3b (d) Pseudostratified columnar epithelium Description: Single layer of cells of differing heights, some not reaching the free surface; nuclei seen at different levels; may contain mucussecreting cells and bear cilia. Cilia Mucus of mucous cell Pseudostratified epithelial layer Function: Secretion, particularly of mucus; propulsion of mucus by ciliary action. Location: Nonciliated type in male’s sperm-carrying ducts and ducts of large glands; ciliated variety lines the trachea, most of the upper respiratory tract. Trachea Photomicrograph: Pseudostratified ciliated columnar epithelium lining the human trachea (570x). Basement membrane Figure 4.3d SURFACE EPITHELIUM Stratified a. b. c. d. Squamous Transitional Columnar (rare) Cuboidal (rare) Protection is major role (e) Stratified squamous epithelium Description: Thick membrane composed of several cell layers; basal cells are cuboidal or columnar and metabolically active; surface cells are flattened (squamous); in the keratinized type, the surface cells are full of keratin and dead; basal cells are active in mitosis and produce the cells of the more superficial layers. Stratified squamous epithelium Function: Protects underlying tissues in areas subjected to abrasion. Nuclei Location: Nonkeratinized type forms the moist linings of the esophagus, mouth, and vagina; keratinized variety forms the epidermis of the skin, a dry membrane. Basement membrane Connective tissue Photomicrograph: Stratified squamous epithelium lining the esophagus (285x). Figure 4.3e (f) Transitional epithelium Description: Resembles both stratified squamous and stratified cuboidal; basal cells cuboidal or columnar; surface cells dome shaped or squamouslike, depending on degree of organ stretch. Transitional epithelium Function: Stretches readily and permits distension of urinary organ by contained urine. Location: Lines the ureters, urinary bladder, and part of the urethra. Basement membrane Connective tissue Photomicrograph: Transitional epithelium lining the urinary bladder, relaxed state (360X); note the bulbous, or rounded, appearance of the cells at the surface; these cells flatten and become elongated when the bladder is filled with urine. Figure 4.3f CONNECTIVE TISSUE A very diverse group of tissues Most abundant type of tissue in body Binds and supports other tissues CONNECTIVE TISSUE Other functions 1. Insulation 2. Transportation 3. Protection CONNECTIVE TISSUE Characteristics a. b. c. d. e. Fewer cells than epithelial tissue Cells all derived from mesenchyme Degrees of vascularity Increased amount of matrix Cells widely separated CONNECTIVE TISSUE Major subclasses a. b. c. d. Fibroconnective (a.k.a. connective tissue proper) Blood Osseous (bone) Cartilage Copyright © 2010 Pearson Education, Inc. Table 4.1 FIBROCONNECTIVE TISSUE a.k.a. connective tissue proper Subcategories 1. Loose connective tissue a. Areolar b. Adipose c. Reticular 2. Dense connective tissue a. Regular b. Irregular c. Elastic FIBROCONNECTIVE TISSUE Let’s look at loose connective tissue first… (a) Connective tissue proper: loose connective tissue, areolar Description: Gel-like matrix with all three fiber types; cells: fibroblasts, macrophages, mast cells, and some white blood cells. Elastic fibers Function: Wraps and cushions organs; its macrophages phagocytize bacteria; plays important role in inflammation; holds and conveys tissue fluid. Collagen fibers Location: Widely distributed under epithelia of body, e.g., forms lamina propria of mucous membranes; packages organs; surrounds capillaries. Fibroblast nuclei Epithelium Lamina propria Photomicrograph: Areolar connective tissue, a soft packaging tissue of the body (300x). Figure 4.8a (b) Connective tissue proper: loose connective tissue, adipose Description: Matrix as in areolar, but very sparse; closely packed adipocytes, or fat cells, have nucleus pushed to the side by large fat droplet. Function: Provides reserve food fuel; insulates against heat loss; supports and protects organs. Nucleus of fat cell Location: Under skin in the hypodermis; around kidneys and eyeballs; within abdomen; in breasts. Vacuole containing fat droplet Adipose tissue Mammary glands Photomicrograph: Adipose tissue from the subcutaneous layer under the skin (350x). Figure 4.8b FUN FACT (c) Connective tissue proper: loose connective tissue, reticular Description: 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). White blood cell (lymphocyte) Reticular fibers Spleen Photomicrograph: Dark-staining network of reticular connective tissue fibers forming the internal skeleton of the spleen (350x). Figure 4.8c FIBROCONNECTIVE TISSUE Now let’s look at dense connective tissue… (d) Connective tissue proper: dense connective tissue, dense regular Description: Primarily parallel collagen fibers; a few elastic fibers; major cell type is the fibroblast. Collagen fibers 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. Nuclei of fibroblasts Shoulder joint Ligament Photomicrograph: Dense regular connective tissue from a tendon (500x). Tendon Figure 4.8d (e) Connective tissue proper: dense connective tissue, dense irregular Description: Primarily irregularly arranged collagen fibers; some elastic fibers; major cell type is the fibroblast. Nuclei of fibroblasts Function: Able to withstand tension exerted in many directions; provides structural strength. Location: Fibrous capsules of organs and of joints; dermis of the skin; submucosa of digestive tract. Fibrous joint capsule Collagen fibers Photomicrograph: Dense irregular connective tissue from the dermis of the skin (400x). Figure 4.8e (f) 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. Elastic fibers Location: Walls of large arteries; within certain ligaments associated with the vertebral column; within the walls of the bronchial tubes. Aorta Heart Photomicrograph: Elastic connective tissue in the wall of the aorta (250x). Figure 4.8f CONNECTIVE TISSUE Components Extracellular (intercellular) material = matrix = ground substance The material located between the cells, non-living Variable composition Bone Blood Cartilage Substances present determine qualities of tissue (a) Connective tissue proper: loose connective tissue, areolar Description: Gel-like matrix with all three fiber types; cells: fibroblasts, macrophages, mast cells, and some white blood cells. Elastic fibers Function: Wraps and cushions organs; its macrophages phagocytize bacteria; plays important role in inflammation; holds and conveys tissue fluid. Collagen fibers Location: Widely distributed under epithelia of body, e.g., forms lamina propria of mucous membranes; packages organs; surrounds capillaries. Fibroblast nuclei Epithelium Lamina propria Photomicrograph: Areolar connective tissue, a soft packaging tissue of the body (300x). Figure 4.8a CONNECTIVE TISSUE Major subclasses a. b. c. d. Fibroconnective (a.k.a. connective tissue proper) Blood Osseous (bone) Cartilage (k) Others: blood Description: Red and white blood cells in a fluid matrix (plasma). Plasma Function: Transport of respiratory gases, nutrients, wastes, and other substances. Location: Contained within blood vessels. Neutrophil Red blood cells Lymphocyte Photomicrograph: Smear of human blood (1860x); two white blood cells (neutrophil in upper left and lymphocyte in lower right) are seen surrounded by red blood cells. Figure 4.8k (j) 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 Central canal Lacunae Lamella Photomicrograph: Cross-sectional view of bone (125x). Figure 4.8j (g) Cartilage: hyaline Description: Amorphous but firm matrix; collagen fibers form an imperceptible network; chondroblasts produce the matrix and when mature (chondrocytes) lie in lacunae. Function: Supports and reinforces; has resilient cushioning properties; resists compressive stress. Location: Forms most of the embryonic skeleton; covers the ends of long bones in joint cavities; forms costal cartilages of the ribs; cartilages of the nose, trachea, and larynx. Chondrocyte in lacuna Matrix Costal cartilages Photomicrograph: Hyaline cartilage from the trachea (750x). Figure 4.8g CONNECTIVE TISSUE Ground substance Between cells and fibers Fluid, semifluid, gelatinous, or calcified Functions Support and bind cells Store water Allow exchange between blood and cells Fibers Collagen fibers Elastic fibers Reticular fibers Cell types Extracellular matrix Macrophage Fibers • Collagen fiber • Elastic fiber • Reticular fiber Fibroblast Lymphocyte Fat cell Capillary Mast cell Neutrophil Figure 4.7 CONNECTIVE TISSUE Cells Bone Osteoblasts, osteoclasts, osteocytes Cartilage Chondroblasts, chondrocytes Loose connective tissue Fibroblasts, macrophages Blood Erythrocytes, leukocytes, platelets QUESTIONS? Due in Lab PreLab 5: HW Section 29-30 EPITHELIUM MATCHING 1. Simple squamous 2. Simple cuboidal 3. a) Ca pi llar y wa l ls a n d l un g a l veoli b) Li n i ng t h e o ra l c av i t y c) Co l lec t ing t ubul e s o f t h e k i dn ey d) Li n i ng t h e di g e st ive t ra c t e) Li n i ng t h e re s pi rator y t ra c t f) Li n i ng t h e bl a dde r Simple columnar 4. Pseudostratified ciliated columnar 5. Stratified squamous 6. Transitional