Week 5 Tissues Highlights REVISED PDF

Summary

This document provides an overview of tissues in the human body. It includes diagrams and classifications, introducing the different types of tissue. It seems to be part of an anatomy course.

Full Transcript

Week 5
tutorial ANAT
1005
tissue level
For studying - Study guides
and practice questions under
content!
Quiz this week is NOT for
marks
Practice test is PPT under
“study guides, practice
tests…” module – download
and look in “notes” for
Types of Tissues (2 of 2)
Secrete and regulate EXTRACELLULAR
CELLS
MATERIAL AND FLUIDS

Combine to form

TISSUES
with special functions

EPITHELIAL TISSUE CONNECTIVE TISSUE MUSCLE TISSUE NERVOUS TISSUE
Covers exposed Fills internal Contracts to Propagates
surfaces spaces produce electrical
Lines internal active impulses
Provides movement
passageways Carries
structural
and chambers information
support
Produces
Stores
glandular
energy
secretions

Combine to form

ORGANS
with multiple functions

Interact in

ORGAN SYSTEMS
Chapters 5–20

Figure 4-1 An Orientation to the Body’s Tissues
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Surfaces of Epithelial cells
Cilia

Microvilli
Apical
surface

Lateral
surfaces

Golgi
apparatus

Nucleus

Mitochondria

Basement membrane
Basal
surface

Figure 4-3 The Surfaces of
Epithelial Cells
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Classification of Epithelia
By number of layers of cells Table 4-1 Classifying Epithelia
– Simple SQUAMOUS CUBOIDAL COLUMNAR

– Stratified
By shape of the exposed cells
Simple
Endoplasmic reticulum (ER)
Network of membranous Rough ER
channels extending

– Squamous
modifies and
throughout the cytoplasm packages newly
Functions synthesized proteins
Synthesis of secretory
Simple squamous epithelium Simple cuboidal epithelium Simple columnar epithelium

– Cuboidal products; intracellular
storage and transport Smooth ER
synthesizes lipids
and carbohydrates

– Columnar Stratified

Stratified squamous epithelium Stratified cuboidal epithelium Stratified columnar epithelium

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Three Major Types of Connective Tissue
1. Connective tissue proper
2. Fluid connective tissues
3. Supporting connective tissues
CONNECTIVE TISSUES

CONNECTIVE TISSUE PROPER FLUID CONNECTIVE TISSUES SUPPORTING CONNECTIVE TISSUES

LOOSE DENSE BLOOD LYMPH CARTILAGE BONE
Fibers loosely Fibers densely Flows within Flows within
Solid, rubbery Solid, crystalline
packed, create packed cardiovascular lymphatic
matrix matrix
open framework system system

Figure 4-7 Major Types of Connective Tissue
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Figure 4-11 Types of Cartilage
a Hyaline Cartilage

LOCATIONS: Between tips of ribs
and bones of sternum; covering
bone surfaces at freely movable
(synovial) joints; supporting larynx
(voice box), trachea, and bronchi;
forming part of nasal septum

FUNCTIONS: Provides stiff but Chondrocytes
somewhat flexible support; in lacunae
reduces friction
between bony
surfaces

Matrix

LM × 500

Hyaline cartilage

b Elastic Cartilage

LOCATIONS: Auricle of external ear;
epiglottis; auditory tube; cuneiform
cartilages of larynx

FUNCTIONS: Provides support, but
tolerates distortion without
damage and returns Chondrocyte
to original shape in lacuna

Elastic fibers
in matrix

LM × 358
Elastic cartilage

c Fibrocartilage

LOCATIONS: Pads within knee joint;
between pubic bones of pelvis;
intervertebral discs

FUNCTIONS: Resists
compression;
prevents bone-to-bone
contact; limits
movement Chondrocytes
in lacunae

Fibrous
matrix

LM × 400

Fibrocartilage

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Membranes: 1. Mucous Membranes or Mucosae
Line passageways that open to
Mucous secretion

the exterior
a Mucous membranes
are coated with the
secretions of mucous
Epithelium
glands. These
membranes line the

– Examples: digestive,
digestive, respiratory,
urinary, and Lamina propria
reproductive tracts. (areolar tissue)

respiratory, urinary, and
reproductive tracts
Epithelial surfaces kept moist at
all times (typically by mucous
secretions)
Type of epithelium varies
Connective tissue layer
composed of areolar tissue
– Layer called lamina propria Figure 4-13a Mucous membranes

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2. Serous Membranes
Line cavities not open to the outside
Simple epithelium supported by areolar
tissue b Serous membranes
line the peritoneal,
Serous fluid
Epithelium
pleural, and
Areolar tissue
pericardial body

Consists of two layers
cavities.

– Parietal - lining the inner surface of the
cavity
– Visceral (serosa) - covering outer
surface of organs in the body cavity
Serous fluid reduces friction between the 2
layers Figure 4-13b Serous membranes
Pleura, pericardium, peritoneum

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3. The Cutaneous Membrane
The skin
Covers the surface of the
body
Epithelium is stratified c The cutaneous
membrane, or skin, Epithelium

squamous epithelium covers the outer
surface of the body. Areolar tissue
Dense irregular
connective tissue

Connective tissue consists of
areolar tissue and underlying
dense irregular connective
tissue
Thick and relatively Figure 4-13c The cutaneous
waterproof, and usually dry membrane

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4. Synovial Membranes
Line freely moving, articulating
joint cavities
Consist primarily of areolar
connective tissue
– Incomplete layer of
epithelial tissue
Articular (hyaline) cartilage

Protect the ends of bones
d Synovial membranes
line joint cavities and
Synovial fluid
produce the synovial
Fluid within the joint. Capsule
Capillary

Adipocytes

Produce viscous synovial
Areolar
tissue Synovial
Epithelium membrane

fluid
Bone

– Lubricates the joint and
Figure 4-13d Synovial membranes
allows smooth movement

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Muscle Tissue
Specialized for contraction
Slender individual cells called muscle fibers
Contract due to interactions between filaments of proteins
myosin and actin
Can be voluntarily controlled or primarily controlled by the
nervous system (involuntary)
Three types of muscle tissue in the body
1. Skeletal
2. Cardiac
3. Smooth
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Skeletal Muscle Tissue
Moves or stabilizes position of the skeleton
Contains very large and long, multinucleated cells
New muscle fibers produced by division of stem cells
Myosin and actin proteins arranged in repeating patterns, giving cells
striated appearance
Striated voluntary muscle
a Skeletal Muscle Tissue

Cells are long, cylindrical,
striated, and multinucleate.
LOCATIONS: Combined
Striations
with connective tissues
and neural tissue in
skeletal muscles Nuclei

FUNCTIONS: Moves or
stabilizes the position of
the skeleton; guards
Muscle
entrances and exits to the
fiber
digestive, respiratory, and
urinary tracts; generates
heat; protects internal
organs
LM × 180
Skeletal muscle

Figure 4-14a Skeletal Muscle Tissue

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Cardiac Muscle Tissue
Found only in the heart
Typical cell smaller than skeletal muscle fiber
One or two nuclei per cell
Cells show branching and interconnections at intercalated discs
– Allows efficient coordinated contraction
Very limited ability to repair
Striated involuntary muscle
b Cardiac Muscle Tissue

Cells are short, branched,
and striated, usually with a
Nuclei
single nucleus; cells are
interconnected by
intercalated discs. Cardiac
muscle
LOCATIONS: Heart cells

FUNCTIONS: Circulates
blood; maintains Intercalated
blood pressure discs

Striations

LM × 450
Cardiac muscle

Figure 4-14b Cardiac Muscle Tissue
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Smooth Muscle Tissue
Found:
– In walls of blood vessels
– Around hollow organs such as the urinary bladder
– In the walls of the stomach, uterus, bladder, trachea, etc.
Small, slender cells tapered or narrowed at the ends
Division and regeneration after injury
Nonstriated involuntary muscle
c Smooth Muscle Tissue

Cells are short, spindle-
shaped, and nonstriated,
with a single, central
nucleus.
LOCATIONS: Found in
the walls of blood vessels Nuclei
and in digestive, respiratory,
urinary, and reproductive organs
FUNCTIONS: Moves food,
urine, and reproductive
Smooth
tract secretions; controls
muscle
diameter of respiratory
cells
passageways; regulates
diameter of blood vessels
Smooth muscle LM × 235

Figure 4-14c Smooth Muscle Tissue
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Nervous Tissue
Also called nervous or nerve tissue
– Specialized for transmitting electrical impulses
– Most concentrated in brain and spinal cord
– Rapidly senses internal or external environment
– Processes information and controls responses

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So What?
What is the relevance of the tissue level of organization for nurses?

Next week = TEST #1 (0900-1000H) plus Integumentary System tutorial (1025-
1050H in T1003)

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