Anaphy: Anatomy and Physiology - TISSUES PDF

Summary

This document provides an overview of tissues, covering histology, pathology, tissue types, and general features. It outlines different types of tissues, characteristics, and the extracellular matrix. Includes details on epithelial, connective, muscle, and nervous tissues.

Full Transcript

ANAPHY: ANATOMY AND PHYSIOLOGY
TOPIC: Tissue Level of Organization

1st Semester / BSN 1-Y1-33: Prelims
Transes By: Shann Mikaela J. Serrano

TISSUES - Tissues must be carefully prepared for examination
- Multiple factors influence the appearance of a tissu
- Are group of cells that function together in the body Stained used during preparation
- A group of cells that performs a specific function
CUTTING TISSUES FOR EAMINATION
- Four main types of tissue make up the human body.
- special blade is used to cut tissues
Cut into thin slides for examination
Histology
- Microscopic study of the appearance, function, and TISSUES PLACED ON SLIDES
organization of tissues.
- thin slices of tissue are placed on slides
- Is the study of tissue structure, organization and
function. TISSUES ARE STAINED FOR EXAMINATION
Pathology - many tissues are stained prior to examination
- Study of changes that occur with disease
- Study of changes associated with disease of tissues. RESULTS OF VARIOUS STAINS
- tissues may have different appearances and colors depending on
TISSUE TYPES
the stain used.
- The four types of tissue in the body are:
EPITHELIAL TISSUES
1. EPITHELIAL TISSUE
- Form, coverings, linings, and glands CHARACTERISTICS OF EPITHELIA
2. CONNECTIVE TISSUE
- Protection and support - form coverings, linings
3. MUSCLE TISSUE - basement membrane anchors epithelia to ECM
- Provides movement Two Surfaces of Epithelia:
4. NERVOUS TISSUE
Basal Surface – attached to basement membrane
- Allows communication
Apical Surface – exposed to external environment or
internal environment
GENERAL FEATURES OF TISSUES
- Avascular
- Highly regenerative
EXTRACELLULAR MATRIX (ECM) – material found outside of
a tissue
ANATOMY OF EPITHELIA
Major Components:
- Epithelia are:
- Collagen – tough, protective proteins fibers
- Proteoglycans - negatively charged protein, Highly cellular
carbohydrate molecules Polar (apical and basal surface)
Avascular
Cellular Connections – attachments between cells Innervated
Tight Junctions – allow no movement of substances Bound to basement membrane
between cells
Desmosomes – flexible connections that allow some THE EPITHELIAL CELL
movement of substances between cells
Gap Junctions – passageways that allow movement - Apical and basal membranes may have different functions
of certain substances between the cells - Apical surface modifications
Cilia – move materials across surface
CELLULAR CONNECTIONS Microvilli – increase surface area
- cells can be connected by;
CELLS OF EPITHELIA
Tight Junctions – fuse membranes of adjacent cells
Desmosomes – provide strong, flexible connections - Epithelial tissue is named after its shape and number of layers of
between cells cells on the apical surface.
- Based on Shape:
Hemidesmosomes connect cells to ECM
Squamous – flat cells
Gap Junctions – allows for intercellular passageways
between cells Cuboidal – box-shaped cells
Columnar – column-like cells
TISSUES FOR EXAMINATION - Based on number of layers;
Simple – one layer of cells
PREPARING TISSUES FOR EXAMINATION Stratified – two or more layers of cells
 GLANDS OF EPITHELIA
Pseudostratified – one layer of cells that
appears like more - Endocrine glands secrete hormones into the blood
- are ductless
EPITHELIA THAT DEFY NAMING CONVENTION Example: thymus, pituitary gland, adrenal glands
- Exocrine glands secrete substances locally through a duct
PSEUDOSTRATIFIED COLUMNAR EPITHELIUM - secrete mucus, sweat, saliva, and breastmilk
- May appear stratified Example: sweat glands and glands of digestive system
- All cells touch basement membrane because there is only a
- single layer EXOCRINE GLAND STRUCTURE

TRANSITIONAL EPITHELIUM - Tubular glands form tube s
- stratified tissue - acinar glands form pockets
- cells stretch and change shape - simple glands have one duct
- compound glands combine formats
GOBLET CELLS
EXOCRINE SECRETIONS

- Common feature of simple and pseudostratified epithelia
- secretes mucus MEXCRINE SECRETION: accomplished by exocytosis
APOCRINE SECRETION: material accumulates near apical
surface of the gland
STRATIFIED EPITHELIA
HOLOCRINE SECRETION: involves rupture and destruction of
- contain more than one layer of cells entire gland cell
- Cells of basal layer are stem cells that regenerate cells into apical
layers
- basal layers cells may be different in shape from apical layer cells
CONNECTIVE TISSUE
- Tissue is named based on shape cells in apical layer
ANATOMY OF CONNECTIVE TISSUE
SIMPLE SQUAMOUS EPITHELIUM
- connective tissue consists of cells and the extracellular matrix
- consists of a single layer of flat cells (ECM)
- found in the air sacs of lungs, the lining of the heart, blood vessels, - cells rarely touch each other
and lymphatic vessels. - ECM consists of ground substances and fibers
- Allows materials to pass through by diffusion and filtration - ground substances is between fibers
- secretes lubricating substances - vascularized

SIMPLE CUBOIDAL, SIMPLE COLUMNAR, PSEUDOSTRATIFIED CLASSIFICATION OF CONNECTIVE TISSUE
COLUMNAR EPITHELIA
- Twelve types of connective tissue are separated into three
SIMPLE CUBOIDAL EPITHELIUM categories:
- lines kidney tubules CONNECTIVE TISSUE PROPER
- secretes and absorbs substances (Na+, K+, glucose, etc.) - Areolar, adipose, reticular, dense regular, and
dense irregular connective tissue
SIMPLE COLUMNAR EPITHELIUM SUPPORTIVE CONNECTIVE TISSUE
- lines digestive and reproductive tracts - Hyaline cartilage, fibrocartilage. Elastic
- secretes and absorbs various materials cartilage, compact bone, spongy bone
FLUID CONNECTIVE TISSUE
PSEUDOSTRATIFIED COLUMNAR EPITHELIUM - blood and lymph
- lines trachea and respiratory tract
- secretes and moves mucus CELLS AND FIBERS OF CONNECTIVE TISSUES

STRATIFIED AQUAMOUS, STRATIFIED CUBOIDAL, AND STRATIFIED Fibroblasts produce fibers in the ECM
COLUMNAR EPITHELIA
Collagen – strongest fiber
Elastic – provide elasticity
STRATIFIED SQUAMOUS EPITHELIUM Reticular – branching fibers that support internal Organs
- lines esophagus, mouth, vagina Adipocytes – store energy and provide cushioning
- protects against abrasion WBC – provide immune function
Red Blood Cells – carry gases such as oxygen and carbon dioxide
STARTIFIED CUBOIDAL EPITHELIUM
- found in sweat glands, salivary glands CONNECTIVE TISSUE TYPES
- secretes and protects
CONNECTIVE TISSUE PROPER
STRATIFIED COLUMNAR EPITHELIUM Loose Connective Tissue
- found in male urethra - Areolar
- secretes and protects - Reticular
SIMPLE SQUAMOUS EPITHELIUM
SUPPORTIVE CONNECTIVE TISSUE
- Lines bladder, urethra, and ureters Hyaline Cartilage
- allows urinary organs to expand and stretch - located within joints, ribs
- most abundant cartilage
 Fibrocartilage Contains Striations – alternating light and dark
- located din intervertebral discs bands under light microscope
- strongest cartilage - voluntarily controlled

Elastic Cartilage Involuntary Muscle – unconscious control
- located in external ear Cardiac Muscle
- most flexible type or cartilage - Found within internal organs
- associated with digestive, respiratory, urinary,
FLUID CONNECTIVE TISSUE and reproductive systems
Blood and lymph - lack striations
- transport molecules and cells throughout the body - involuntary controlled
- blood contains cells:
Erythrocytes, leukocytes, and platelets NERVOUS TISSUE
- lymph is primarily acellular
- lymph is a fluid connective tissue
- unlike blood, lymph is mainly acellular ANATOMY OF NERVOUS TISSUE

LOOSE CONNECTIVE TISSUES - nervous tissue make sup the brain, spinal cord, and peripheral
nerves
AREOLAR CONNECTIVE TISSUE - neurons conduct action potentials to communicate with other cells
Subcutaneous layer - Glial cells support neural functioning
Supports nearby tissues
NEURONS AND NERVOUS TISSUE
ADIPOSE TISSUE
Subcutaneous layer - Neurons generate action potentials
Energy, store, cushioning
Anatomical Structure of Neurons:
RETICULAR CONNECTIVE TISSUE Dendrites – short branches that receive signals
Framework of internal organs Cell body – houses nucleus and organelles
Lymphatic tissues, spleen, liver Axon – long projection used to send action potentials
- Synapses is a gap between neuron and its target cell
DENSE CONNECTIVE TISSUES
GLIAL CELLS
DENSE REGULAR CONNECTIVE TISSUE - there are various types of glial cells associated with
nervous tissue
Tendons, ligaments
- many perform support functions for neurons
DENSE IRREGULAR CONNECTIVE TISSUE
- some form myelin that insulates axons
Skin
Allows for faster movement of action potentials
Application: The Ribcage
- The ribcage merges two supporting connective tissue MEMBRANES
- bone makes up most of the ribcage
- protects lungs and heart TISSUE MEMBRANES
- cartilage allows for expansion during breathing

BONE MUCOUS MEMBRANE
- Mucous membranes line body cavities that are open to the
- the most rigid of the connective tissues
outside
- provides protection and support internal organs
- Line body cavities that are exposed to the external
Compact Bone:
- solid with greater strength than spongy bone environment
Spongy Bone - Usually contain goblet cells that secrete mucus
Associated with:
- empty spaces contain red bone marrow
1. Digestive tract
2. Respiratory tract
MUSCLE TISSUE 3. Urinary tract
4. Reproductive tract
ANATOMY OF MUSCLE TISSUE
SEROUS MEMBRANES
- Muscle tissue is responsible for movement - Serous membranes line body cavities and surrounds some
organs
- cells are tightly packed
- Cover and line internal organs
- differs in location and manner of control
- Reduce friction created as organs move
- skeletal muscle, cardiac muscle, smooth muscle
Examples include:
Characteristics of Muscle Tissue: Pericardium of the heart
- the major function of muscle is movement Pleura of the lungs
Voluntary Muscle – conscious control Peritoneum of the abdominal cavity
Skeletal muscle
- attached to bone CUTANEOUS MEMBRANE
- allows body movement and maintains posture - Cutaneous membrane is the skin and covers the body
- Essentially the skin
 - Protects body from desiccation and pathogens
- Made of stratified squamous epithelium and connective
tissue
- Keratin provides a thick barrier for protection against
pathogens

SYNOVIAL MEMBRANE
- Synovial membranes line joints
- Found inside freely moveable joints like the elbow, hip, and
knee
- Cells secrete synovial fluid
- Helps lubricate and nourish the cartilage at the joint
- Reduces friction as bones move

TISSUES GROWTH AND HEALING

INFLAMMATION
- The body’s initial response to injury
- Limits extent of injury and begins the repair process
- Acute inflammation is short-term
- Chronic inflammation persists for long periods of time

TISSUE HEALING
- Begins with removal of debris and toxins
- Clotting stops the bleeding
- Granulation tissue forms to allow epithelial cells to
regenerate lost tissue
- Scar tissue may form due to rapid repair and replacement
of collagen fibers

TISSUE AND AGING
- Tissue changes as the body ages
- Rate of mitosis slows down
Leads to slower tissue healing
- Number of elastic fibers decreases
Structures are less elastic
Contributes to wrinkles, joint stiffness, and high
blood pressure

TISSUE AND CANCER
- Mutation may alter the regulatory signals cell receives
- Altered signals lead to uncontrolled replication of cells
- Mass of cells is a tumor
Malignant tumor – cancerous, cause diseases,
and can spread to other areas of the body
Benign tumor – do not cause disease in the body
or metastasize (spread to other areas of the body)