Chap 1-b- Tissues-ZD.pdf

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Introduction to Human Physiology
FHSC 203

Chap 1 - The Human Body:
the tissues
Tissues
Tissues are groups of cells with a common structure
(form) and function (job).

ü There are four main tissues in the body:

§ Epithelium
§ Muscle
§ Connective tissue
§ Nervous tissue
Tissues
a. Epithelial tissue

ü Often called epithelium, it is comprised of tightly
packed cells, arranged to form layers:

§ Epithelial cells are constantly renewing and replacing the
dead or inactive cells.
Tissues
ü The two main epithelial tissue types are:

§ Glandular: found in exocrine and endocrine glands
§ Lining epithelium: forms the outer layer of the skin and in
some internal organs
Tissues
ü They have
distinct inner and
outer surfaces:

§ Outer surfaces
= apical ends of
the epithelial
cells: Upper, free
Tissues
Ø Lumen of internal cavities:
- Microvilli: Increase surface area absorption or secretion
- Cilia: Move materials across cell surface

Ø Cell connections (cells binding cell communication,
permeability)
- Desmosomes, tight, gap
Tissues
Ø Supported by connective tissue underneath the basal lamina
- Reticular lamina
- BL + RL = basement membrane

Ø Avascular
Ø Innervated
Ø High rate of regeneration
Tissues
Tissues

§ Inner surfaces =
basal ends of the
epithelial cells
Tissues
ü The number of cell layers & the shape of the cells in
the top layer can classify epithelium.

i. By shape
a) squamous - flat and scale-like
b) cuboidal - as tall as they are wide
c) columnar - tall, column-shaped
Tissues
ii. By cell arrangement

a)simple epithelium - single layer of cells (usually for
absorption and filtration)

b)stratified epithelium - stacked up call layers (protection
from abrasion (rubbing) - mouth, skin.)
Tissues
Lining epithelium
1. Epithelial membranes consist of epithelial tissue
and the connective tissue to which it is attached:

Epithelial membrane

Cutaneous Mucous Serous
membrane membrane membrane
Lining epithelium
a. Cutaneous membranes= skin
Ø A dry membrane
Ø Outermost protective boundary

i. Superficial epidermis
Ø Keratinized stratified
squamous epithelium

ii. Underlying dermis
Ø Mostly dense
connective tissue
Lining epithelium
b. Mucous membranes

i. line the body cavities that open to the outside

ii. Often adapted for absorption or secretion

Ø The entire digestive tract is
lined with mucous membranes
Ø Other examples include the
respiratory, excretory, and
reproductive tracts
Lining epithelium
c. Serous membranes

i. line body cavities that do not open directly to the
outside, and they cover the organs located in those
cavities

ii. are covered by
a thin layer of
serous fluid that
is secreted by the
epithelium.
Lining epithelium

iii. Serous membranes have special names given
according to their location

Ø Peritoneum: Abdominal cavity
Ø Pleura: Around the lungs
Ø Pericardium: Around the heart
Glandular epithelium
ü A gland is one or more cells that makes and
secretes an aqueous fluid
Glandular epithelium
ü Classified by:

1. Site of product release

§ Endocrine: internally secreting:

- Ductless glands
- Exocytosis into extracellular space
- Secrete hormones that travel through lymph or blood to
target organs
- Most are multicellular
Glandular epithelium
§ Exocrine: externally secreting

- More numerous than endocrine glands
- Secretions released onto body surfaces (skin) or into
body cavities
- Secrete products into ducts
- Examples include mucous, sweat, oil, and salivary
glands
Glandular epithelium
2. Relative number of cells forming the gland

§ Unicellular:
e.g., goblet cells
Glandular epithelium
§ Multicellular: Most have ducts
Glandular epithelium secretion mode
Glandular epithelium
Tissue repair
a. Tissue Repair – Step 1: Inflammation

§ Release of inflammatory chemicals
§ Dilation of blood vessels
§ Increase in vessel permeability
§ Clotting occurs
§ Debris is phagocytized by macrophages
Tissue repair
Tissue repair
b. Tissue Repair – Step 2: Organization and
restored blood supply

§ The blood clot is replaced with granulation tissue
§ Epithelium begins to regenerate
§ Fibroblasts produce collagen fibers to bridge the gap
§ Blood clot is phagocytized
Tissue repair
Tissue repair
c. Tissue Repair – Step 3: Regeneration and fibrosis

§ The scab detaches
§ Fibrous tissue matures; epithelium thickens and
begins to resemble adjacent tissue
§ Results in a fully-regenerated epithelium with
underlying scar tissue
Tissue repair
Tissues
b. Connective tissue

ü Connective tissue is made up of cells and protein
fibers and provides support for other body tissues.

ü The main proteins in connective tissue are:

§ collagen
§ elastin
Tissues
ü There are five types of connective tissue:

§ Loose connective tissue- Including adipose tissue
(Insulation); fibers & many cell types in gelatinous
matrix, found in skin, & surrounding blood vessels,
nerves, and organs

§ Dense connective tissue- Bundles of parallel collagen
fibers& fibroblasts, found in tendons& ligaments
(binding)
Tissues
§ Blood (Transportation)

§ Bone- Provides rigid, structural (support) (Protection)

§ Cartilage- Occurs in the human body in the ears, tip of the
nose, and at joints such as the knee and between bones of
the spinal column (Protection)
Tissues
Tissues
Tissues
Tissues
ü Characteristics of the Connective tissue

§ Originate from the mesenchyme

Ø Embryonic connective tissue
Ø Mesenchymal/undifferentiated connective tissue
Ø Gel-like ground substance with fibers and star-shaped mesenchymal
cells
Ø Gives rise to all other connective tissues
Tissues
§ Varying degrees of vascularity

Ø E.g Cartilage is avascular

§ Cells separated by non-living extracellular matrix

Ø Major part of CT
Ø Ground substance
Ø Fibers
Tissues
Tissues
1. Ground Substances

ü Medium through which solutes (e.g. nutrients)
diffuse between blood capillaries and cells

ü Components:
§ Interstitial fluid
Tissues
§ Adhesion proteins (“glue”)
Ø Fibronectin and laminin
Ø Allow cells to attach to the matrix

§ Proteoglycans
Ø Protein core + large polysaccharides (chrondroitin sulfate and
hyaluronic acid)
Ø Trap water in varying amounts → affects the viscosity of the
ground substance
Tissues
2. Fibers

ü Three types of fibers that provide support

a) Collagen (white fibers)
Ø Collagen → fibrous
Ø Strongest and most abundant type
Ø Provides high tensile strength
Ø Resist longitudinal stress
Tissues
b) Elastic (yellow fibers)
Ø Elastin → rubber-like
Ø Networks of long, thin, elastin fibers that allow for stretch

c) Reticular
Ø Form networks (reticul = network)
Ø Short, fine, highly branched collagenous fibers
Tissues
3. Cells

ü Mitotically active and secretory cells = “blasts”
§ Secret ground substance and fibers

ü Mature cells = “cytes”
§ Less active
§ Maintain health of matrix
Tissues
i. Fibroblasts in connective tissue proper
ii. Chondroblasts and chondrocytes in cartilage
iii. Osteoblasts and osteocytes in bone
iv. Hematopoietic stem cells in bone marrow
v. Fat cells, white blood cells, mast cells, and
macrophages
Tissues
Tissues
Tissues
Tissues
Tissues
Tissues
Tissues
Tissues
Tissues
Tissues
Tissues
1. Cartilage
§ Avascular
§ Lacks nerve fibers
§ 80% water
§ Ability to rebound after being compressed

ü Three types of cartilage:
§ Hyaline cartilage
§ Elastic cartilage
§ Fibrocartilage
Tissues
Tissues
Tissues
Tissues
Tissues
Introduction
ü Physical Characteristics and Volume

§ Blood is a sticky, opaque fluid with a metallic taste
§ Color varies from scarlet to dark red
§ The pH of blood is 7.35–7.45
§ Temperature is 38°C
§ Blood accounts for approximately 8% of body weight
§ Average volume: 5–6 L for males, and 4–5 L for females
Introduction
ü Functions of Blood:

§ Substance distribution
§ Regulation of blood levels of particular substances
§ Body protection
Introduction
1. Distribution

ü Blood transports:

§ Oxygen from the lungs and nutrients from the digestive
tract
§ Metabolic wastes from cells to the lungs and kidneys for
elimination
§ Hormones from endocrine glands to target organs
Introduction
2. Regulation

ü Blood maintains:

§ Appropriate body temperature by absorbing and
distributing heat
§ Normal pH in body tissues using buffer systems
§ Adequate fluid volume in the circulatory system
Introduction
3. Protection
ü Blood prevents blood loss by:
§ Activating plasma proteins and
platelets
§ Initiating clot formation when
a vessel is broken

ü Blood prevents infection by:
§ Synthesizing and utilizing antibodies
§ Activating complement proteins
§ Activating WBCs to defend the body against foreign
invaders
Introduction
ü Blood is a highly specialized tissue composed of
many different kinds of components.

ü Blood has two distinct parts to it:

§ Plasma
§ Cellular elements

ü All humans produce
these blood components:
there are no populational or regional differences.
Introduction
Introduction
1. Plasma
ü Plasma is the relatively clear liquid water, sugar,
fat, protein and salt solution which carries the red
cells, white cells, platelets, and some other
chemicals.

ü Normally, 55% of our
blood's volume is made
up of plasma.

ü About 95% of it consists
of water.
1. Plasma
ü As the heart pumps blood to cells throughout the
body, plasma brings nourishment to them and
removes the waste products of metabolism.

ü Blood plasma contains over 100 solutes, including:
§ Proteins – albumin, globulins, clotting proteins, and
others
§ Lactic acid, urea, creatinine
§ Organic nutrients – glucose, carbohydrates, amino acids
§ Electrolytes – sodium, potassium, calcium, chloride,
bicarbonate
§ Respiratory gases – oxygen and carbon dioxide
2. Cellular elements
White blood  
cells

Platelet

Red blood  
cells
2. Cellular elements
A. Red blood cells: RBCs

ü Normal RBCs are biconcave
discs having a mean diameter
of approximately 7.5µm.
2. Cellular elements
ü The shape of RBCs can change as the cells pass
through capillaries.

ü Actually the RBC is a “bag” that can be deformed
into almost any shape because they contain the
plasma membrane protein spectrin and other
proteins.
2. Cellular elements
ü The concentration of RBCs in the blood:

5,200,000 (± 300,000) /mm3

4,700,000 (± 300,000) /mm3

ü It is mainly affected by the altitude at which the
person lives.
2. Cellular elements

Areas of the body that produces RBCs
Period Organ
Early embryonic life Yolk sac
Middle trimester gestation Liver (major)
Spleen, Lymph node
Latter part of the gestation Exclusive bone marrow
and after birth!
2. Cellular elements
ü The major function of RBCs, also known as
erythrocytes, is:

1. To transport hemoglobin
(Hb), which in turn
carries oxygen from
the lungs to the tissues
2. Cellular elements
ü Hb is composed of the protein globin, made up of:

§ two alpha chains
§ two beta chains
§ each bound to a heme group
2. Cellular elements
ü Hematopoiesis: blood cell formation

§ Occurs in red bone marrow of axial skeleton, girdles and
proximal epiphyses of humerus and femur

§ Hemocytoblasts (hematopoietic stem cells)
Ø Give rise to all formed elements
Ø Hormones and growth factors push the cell toward a specific
pathway of blood cell development

§ New blood cells enter blood sinusoids
Ø A small blood vessel similar to a capillary but has pores
2. Cellular elements
2. Cellular elements
ü Erythropoiesis: red blood cell production

A hemocytoblast →transform into a proerythroblast →
develop into early erythroblasts → transform into
anucleated reticulocytes → become mature erythrocytes
2. Cellular elements
Tissues
c. Muscle tissue

ü Muscle tissue provides stability to the skeleton and
internal organs and allows body movement.

ü Muscle tissue makes up approximately 60% of the
body’s mass and there are three types of muscle
tissue.
Tissues
ü These are:

§ Cardiac: found in the heart
§ Skeletal: usually attached to bone
§ Smooth: found in walls of blood vessels in digestive
system, respiratory system
and the eye
Tissues
Tissues
d. Nervous tissue

ü The nervous system is made up of the:

§ Central Nervous System (CNS)
§ Peripheral Nervous System (PNS)

ü Comprised of neural and nervous tissue, the CNS
and PNS transmit signals from the brain to the body
parts (muscles, glands, sense organs) to activate a
response.
Tissues
ü Consists of only two cell types in the central
nervous system (CNS) & peripheral nervous system
(PNS):

§ Neurons - Cells that convert stimuli into electrical
impulses to the brain
§ Neuroglia – supportive
cells