1 / 55

Chapter 5 Tissues

Chapter 5 Tissues. Intercellular Connections . Individual cells connect to form tissues 3 ways: Tight junctions- prevents permeability of ions through junction. Desmosome- adhesion between cells in spots. Allows from some permeability.

cleary
Download Presentation

Chapter 5 Tissues

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 5Tissues

  2. Intercellular Connections • Individual cells connect to form tissues 3 ways: • Tight junctions- prevents permeability of ions through junction. • Desmosome- adhesion between cells in spots. Allows from some permeability. • Gap junctions- cytoplasms of adjacent cells are connected through transport proteins. • Ions can pass freely through cells.

  3. Intercellular Connections

  4. Tissue Types A tissue is a group of cells with a common structure & function The human body is composed of four main tissue types: • 1. Epithelial • 2. Connective • 3. Muscle • 4. Nerve

  5. Epithelial Tissue Epithelial Tissue

  6. Characteristics • Always has a free (apical) surface exposed to outside or open space. • Lacks blood vessels • Readily divide and replicate • Has a basement membrane to anchor underlying tissue • Between epithelial and connective tissue

  7. Functions • Covers body surfaces • Makes up glands • Protects • Absorbs • Secretes • Excretes

  8. Classified by Shape • Squamous – flattened cells • Cuboidal – cube-shaped • Columnar – tall, column-shaped

  9. Classified by Shape May occur in layers: • Simple – 1 layer of cells • Stratified – 2 or more layers • Pseudostratified – appears to be layered, but is not • Example – simple cuboidal • Example – stratified columnar

  10. Examples of Epithelial Tissue

  11. s Simple Squamous- Thin, flattened cells. Allow for diffusion and filtration. Line air sacs of lungs and walls of capillaries.

  12. Simple cuboidal-single layer of cube shaped cells. Lines follicles of thyroid gland, kidneys and ducts of certain glands. Used for secretion and absorption

  13. Simple columnar- single layer of elongated cells. Can contain cilia, used for protection and absorption in digestive tract. Can contain goblet cells.

  14. Stratified squamous-Layers of squamous cells. Make up epidermis and line cavities exposed to external environment. Outer layer die and accumulate keratin.

  15. Stratified columnar- Several layers of columnar cells overlying cuboidal cells near the basement membrane. Found in male reprod. System and pharynx

  16. Pseudostratified ciliated columnar- Appear stratified but are not. Often contain cilia and goblet cells which secrete mucus. Line respiratory passages.

  17. Pseudostratified ciliated columnarw/goblet cells- Line Respiratory passages to trap unwanted particles

  18. Transitional tissue- Changes in response to change in tension (stretching). Line urinary bladder and urethra. Larger cells at surface, smaller cells deeper.

  19. Glandular Epithelium • Specialized to secrete substances • Usually glands are lined w/cuboidal or columnar epithelium • Those that secrete substances into ducts that open onto a surface are exocrine glands (salivary, oil glands, etc.) • Those that secrete into tissues or bloodare endocrine glands (pituitary)

  20. Classifying Glands by Structure • Simple- does not branch off before reaching secretory portion • Compound- duct that does branch before secretory portion.

  21. Classifying Glands by Type of Secretions 3 types: • Small portions of cells • in secretions • No loss of cytoplasm Ex. – mammary glands in secretions • Ex. – pancreas

  22. Classifying by Secretions • Secretions w/entire cells filled w/secretory products; ex. – sebaceous (oil) glands

  23. Connective Tissue

  24. Functions • 1. connects • 2. supports • 3. protects • 4. provides framework • 5. fills spaces

  25. Functions • 6. stores fat • 7. produces blood cells • 8. protects against infection • 9. transports nutrients • 10.helps repair damaged tissue

  26. Characteristics • 1. Consists of cells in a matrix (intercellular material) • 2. Cells some distance apart • 3. Most can divide • 4. Good blood supply

  27. Types of Fibers: • collagenous – composed of collagen (protein); have great tensile strength; slightly elastic; compose bones, tendons & ligaments

  28. Types of Fibers - continued • elastic – composed of elastin (protein); very elastic but weaker; compose vocal cords & air passages of lungs

  29. Types of Fibers - continued • Reticular – composed of very fine collagenous fibers. • Form support network.

  30. Types of Cells 1. Fixed cells – stay in one place & have stable numbers; 2 types: • fibroblasts – large & star-shaped; most prevalent

  31. Types of Cells - continued • mast cells – may release heparin (for blood clotting) & histamines (promotes allergic reactions & inflammation); usually located near blood vessel walls

  32. Types of Cells - continued 2. Wandering cells – • macrophages – travel through body; numbers change in response to infection; scavengers (Purple cells – macrophages, Green cells – T-lymphocytes)

  33. Examples of Connective Tissue

  34. Areolar tissue-binds the skin to underlying organs and under epithelium to provide bloodflow. Binds and protects. A- fibroblast, B-collagen, C- elastin

  35. Adipose tissue- connective tissue composed of fats, cushion joints and provide insulation. A- nuclei, B- fat globules

  36. Regular dense connective- strong fibers bind body parts together. Found in ligaments and tendons. Poor blood supply so slow healing. A- fibroblasts. B- collagen and elastin

  37. Irregular dense connective- disorganized and strong. Found in the dermis

  38. Hyaline cartilage- Most common, found on ends of bones, nose cavity and supporting rings of resp. system. A- chondrocytes, B- Matrix (fine collagen fibers), C- Lacunae

  39. Fibrocartilage- tough tissue containing collagenous fibers. Shock absorbers between vertebrae and pubic girdle. A- Chondrocyte, B- Collagen fibers

  40. Elastic cartilage- flexible cartilage make up ears and larynx. Used for flexible support. A- chondrocytes, B- elastin, C- Lacunae

  41. Blood – platelets, found in plasma. Used for blood clotting

  42. Blood – red cells & white cellRed- used for transport, white- immunity

  43. Elastic connective- allows for stretching, found in attachments between vertebrae. A- elastic fibers

  44. Reticular connective- walls of liver and spleen. Used for support.

  45. Bone- A- central canal (contains blood vessels) B- Canaliculi- minute tubes allow for movement between cells.

  46. Bone- D- Lamellae (layers of osetocytes), C- osteocytes (Bone Cells)

  47. Muscle & Nerve Tissue

  48. Muscle Tissue 3 types: • Skeletal- Attached to bone and controlled by conscious effort (Voluntary). • Used for movement • Striated • Long and thin with multiple nuclei

  49. Muscle Tissue Cont. • Smooth- lacks striations found in skeletal, used for involuntary movements • Ex- move food through digestive tract • Cardiac- striated muscle found only in the heart • At intercellular junction contain intercalated discs. • Allows for heart to contract as one unit

  50. 3 Types of Muscle Tissue

More Related