Connective Tissue Lecture Notes PDF

Summary

These lecture notes cover connective tissue proper, including loose connective tissue (areolar, adipose, reticular) and dense connective tissue (regular and irregular). They also detail cartilage, including hyaline, fibrocartilage, and elastic cartilage.

Full Transcript

 Presentation
September 30, 2024
 Connective tissue proper
Loose connective tissue
Areolar
Adipose
Reticular
Dense connective tissue
Regular
Irregular
 Areolar See a lot of
↓
ground substance

quite loose

shows little specialization.
It contains all the cell types and fibers
previously described
is distributed in a random, web-like
fashion.
Areolar tissue underlies most epithelia
and represents the connective tissue
component of epithelial membranes
as keep It loose cells
you
have more room to more
which
gives you mid support
 Adipose tissue
very specific

consists mostly of fat storage
cells, with little extracellular
matrix
Fat cell elipocyte adipocyte
,

Lipid

#
 Reticular Connective Tissue

supportive framework of reticular
fibers for soft organs such as
lymphatic tissue, the spleen, and the
liver

delicate support
 made up
Of tendon
collagen fibers& muscle
Dense Connective Tissue: Regular ligament
to bone

bone to bone

Dense connective tissue contains
more collagen fibers than does loose
connective tissue. collagenous
Fibers
Dense regular connective tissue
fibers are parallel to each other,
enhancing tensile strength and
resistance to stretching in the
direction of the fiber orientations.
Fibroblasts
Ligaments and tendons are made of makeagenous
dense regular connective tissue fibers
dense not sho is eX

ohened
-

regular ecollagen
rmIS
as
regular de Skin
 CHONDRO = cartilage
~

Cartilage

The distinctive appearance of cartilage is due to glycosaminoglycans called chondroitin
sulfates, which bind with proteins to form proteoglycans.
Embedded within the cartilage matrix are chondrocytes, or cartilage cells, and the space
they occupy are called lacunae (singular = lacuna).
A layer of dense irregular connective tissue, the perichondrium, encapsulates the
cartilage. bloenood
nodrect vessels
Cartilaginous tissue is avascular, thus all nutrients need to diffuse through the matrix to
reach the chondrocytes. This is a factor contributing to the very slow healing of
cartilaginous tissues.

#
 Types of Cartilage

The three main types of cartilage tissue are:
1. hyaline cartilage
2. fibrocartilage
3. elastic cartilage
 Hyaline Cartilage
the most common type of cartilage
under the microscope, tissue samples appear
clear /homogenous
the surface of hyaline cartilage is smooth
strong and flexible, it is found in the rib cage
and nose and covers bones where they meet to
form moveable joints end of bone articular
cartilage)
embryonic skeleton before bone formation nucle
a plate (growth plate) embryonic Skeleton chondrocytes
growth Cepiphyseal
place
 Fibrocartilage
pink = hyaline

Fibrocartilage is tough because it has
thick bundles of collagen fibers dispersed
through its matrix.
Menisci in the knee joint and the
intervertebral discs are examples of
fibrocartilage.
 Elastic Cartilage
Elastic cartilage contains elastic fibers
as well as collagen and proteoglycans.
This tissue gives rigid support as well
as elasticity.
The external ear contains elastic
cartilage
dark fibers
= elastic

fibers

-
ear
-
epiglottis
* answer on exams
Is never all of
the above

Presentation
October 04, 2024
 Skin-Integumentary

Skin
* location all on exam

The skin is composed of two main
layers
* on exam3 cornifed protection
1. epidermis, made of a keratinizedwater prevent
loss
stratified squamous epithelium
* know what its made of
2. dermis, mostly made of dense, epithelium

irregular connective tissue that
houses blood vessels, hair
dent
Vascular
as

follicles, and sweat glands
Beneath the dermis lies the
superficial Fascia
hypodermis, which is composed
mainly
wh
of adipose tissue. below
Skin
filled ↑
lipocytes primarily made of
 Thin

Epidermis ThICK

composed of keratinized,
stratified squamous epithelium.
made of four or five layers of dead a
cel an

epithelial cells, depending on its epidermis
location in the body. dermis

does not have any blood vessels
within it (i.e., it is avascular).
Can be classified as thin or thick
skin
Histology of Thick Epidermis: Five Layers
TICK Skin
-

large
lot of Keratin where
layers
of dead theres lots of function
cell In body
filled wh
palm of
-
soleof
veratin
-

hands feet

Thin & variations
In
both
most parts of
-

Skin
 dermis
Layers of
① Stratum basale
Keratinocytes
Stratum Basale divide

single layer of mostly basal cells
A basal cell is a cuboidal-shaped stem cell
that is a precursor of the keratinocytes of
↑ objective is to fill
the epidermis. cells with Keratin
All of the keratinocytes are produced from
this single layer of cells, which are
constantly going through mitosis to
produce new cells.
As new cells are formed, the existing cells
are pushed superficially away from the
stratum basale.
ncuboidal
 ② stratum spinosum
held by desmosomes

Stratum Spinosum
spiny in appearance due to the protruding cellcells Shrink
processes that join the cells via desmosomes.through
preparation
desmosomes strengthen the bond between the
cells. strong
cells neid
don't really exist together
the “spiny” nature of this layer is an artifact of by ↳
the staining process. desmosomes
composed of eight to 10 layers of keratinocytes,
formed as a result of cell division in the stratum
--

basale
 ③ stratum granulosum

Stratum Granulosum
Granular appearance
The cells (three to five layers deep) become flatter,
their cell membranes thicken, and they generate
large amounts of the keratin filaments, which is
fibrous, and keratohyalin granules
· significantentual formation
ara
keratohyalin granules binds keratin filamentsveratin
together to form keratin
 Lamellar Bodies

rele a
ased
get
Cells of granulosum contain and
secrete lamellar bodies (placing made prod
lipids and proteins) into the extracellular
space.
This results in the formation of preventsfrom
the hydrophobic lipid envelope watermoving
in

responsible for the skin's barrier + too much
properties. evaporation
a
fromcoming
 e cells are dead
above stratum granulosum
and filled wh

Stratum Lucidum Keratin
thick skin
only present in

translucent layer of the epidermis
located just above the stratum
granulosum
found only in the thick skin
The keratinocytes are dead and
flattened
Contains eleiden (an intermediate
form of keratin), a clear protein rich
in lipids, derived from keratohyalin,
 Stratum Corneum
has most variability in thickness

The stratum corneum is the most superficial layer of the epidermis
The increased keratinization (also called cornification) of the cells in this layer gives it its
name.
In thick skin, there are usually 15 to 30 layers of cells in the stratum corneum.
far from any blood supply
This dry,&dead layer helps prevent the penetration of microbes and the dehydration of
underlying tissues, and provides a mechanical protection against abrasion.
Cells in this layer are shed periodically and are replaced by cells pushed up from the
stratum granulosum (or stratum lucidum in the case of the palms and soles of feet).
The entire layer is replaced during a period of about 4 weeks.
callus caused
by thickening
Of
A stratum
corneum

hypodermis
↓ superficial to
deep fasad

articular carriage made
of hyaline cartilage
Presentation
October 07, 2024
 Dermis

The dermis might be considered the
“core” of the integumentary system
(derma- = “skin”),
Distinct from the epidermis (epi- =
“upon” or “over”) and hypodermis (hypo-
= “below”).
vascular
Contains blood and lymph vessels,
nerves, and other structures, such as
hair follicles and sweat glands.
Made of two layers of connective tissue
 appearance
Layers of Dermis gooda ent
wavyds
↑
Papillary Layer Immediately below dermis

The papillary layer is made of loose, areolar connective
tissue.
This superficial layer of the dermis projects into the stratum loose
connective
basale of the epidermis to form finger-like dermal papillae tissue
usually
under
epithelium

Reticular Layer
Underlying the papillary layer is the much thicker reticular
most of
layer, composed of dense, irregular connective tissue. dermis-

Elastic fibers provide some elasticity to the skin E

Collagen fibers provide structure and tensile strength P'stuff
Is
collagen
 Hypodermis
The hypodermis (also called the subcutaneous layer
or superficial fascia) is a layer directly below the
dermis and serves to connect the skin to the
underlying tissue.
It is not strictly a part of the skin,
the border between the hypodermis and made
dermis can be difficult to distinguish. mostly
consists of well-vascularized, loose, areolar
connective tissue and adipose tissue, which
aposea
functions as a mode of fat storage and provides
insulation and cushioning for the integument.
 Pigmentation

The color of skin is influenced by a number of pigments:
melanin
carotene
hemoglobin
 Melanin
Melanin is a complex polymer that originates from the amino acid tyrosine.
Types in skin
 Eumelanin – varying degrees of brown to black
 gives color to skin
 absorbs harmful UV rays and protects against cellular damage from UV light
exposure
 Typically, all humans have the same number of melanocytes. However, the amount of
melanin produced by these melanocytes varies.
 Melanin
produced by cells called melanocytes
melanocytes are found throughout the
stratum basale of the epidermis.
melanin is transferred into the
keratinocytes via a cellular granules
called a melanosome
gives skin its color and also helps
protect the living cells of the epidermis
from ultraviolet (UV) radiation damage. in
-deepbasal
ePh
dermis
In layer
Melanocytes

(melanosomes
 Melanosomes

membrane-bound spherical to
elliptical granules within
a melanocyte
functions in the storage, and
transport of melanin
transfer melanin from melanocytes
to keratinocytes in skin to form
perinuclear melanin caps
/form
umbrella
covering
nucleus
 Melanin
Melanin occurs in two primary forms.
black and brown associatedsome hairs
red color - Pheomelanin is a reddish-yellow pigment
Dark-skinned individuals produce more melanin than
those with pale skin. genetics has a lot to
do w/ It
Exposure to the UV rays increases melanin production
Protects the DNA of epidermal cells from UV ray
damage
Too much melanin can interfere with the production of tanning-making melanin
vitamin D: important nutrient for immunity and calcium freckles-making blotches
absorption. of melanin
 Hairs
hair originate in an epidermal penetration of the dermis
called the hair follicle.
the hair bulb forms the base of the hair follicle and
includes a layer of mitotically active basal cells called is
signal
the hair matrix. vascular here Sends
very
loose issue to
matux ecoma
The hair bulb surrounds the hair papilla, which is made
of connective tissue and contains blood capillaries and lessthe - epidermatterms
nerve endings from the dermis makes
hair
matrx cells-divide-push follicle
upwards
and eventually
become
Keratinized to roof
+ shaft
 Arrector Pili
Each hair root is connected to a smooth
muscle called the arrector pili that
contracts in response to nerve signals
from the sympathetic nervous system, works
better
making the external hair shaft “stand up.” in animals
The primary purpose for this is to trap a
layer of air to add insulation.
This is visible in humans as goose bumps smooth
musce
and even more obvious in animals ↓

involuntary
connects at angle
+ when it contracts
makes hair stand
 Glands >
-
make product
enhe gladse product on sureare
located

Two Types
1. Suderiferous (Sweat)
1. Eccrine
2. Apocrine
2. Sebaceous
 Sweat Glands - Eccrine
An eccrine sweat gland is type of gland that
produces a hypotonic sweat for
thermoregulation.
abundant on the palms of the hand, the soles of
the feet, and the forehead
They are coiled glands with the duct rising up to not
a pore on the skin surface. associated [
W/
exocytosis hair follicle
Utilizes merocrine secretion
composed mostly of water, with some salt and associated
some antibodies hypotonic evaporation + wh hair follicles
certain areas
In

phmary function =
themoregulation #
under arms, genital region
 Sweat Gland - Apocrine
associated with hair follicles in hairy areas, such
as armpits and genital regions.
larger than eccrine sweat glands with the duct
normally emptying into the hair follicle.
contains protein, lipid, other organic get ena
do
compounds. likes
It

the sweat thicker and subject to bacterial
decomposition and subsequent smell.
release of this sweat is under both nervous and
hormonal control
 most Skin is important
Sebaceous Glands ↳ more prone
to cracking
sebaceous glands are associated with hair
follicles.
excrete sebum, a mixture of lipids, onto the
skin surface, thereby naturally lubricating
the dry and dead layer of keratinized cells
of the stratum corneum, keeping it pliable.
The fatty acids of sebum also have
antibacterial properties
Uses holocrine secretion
~
I whole cells
becomes

parto f sebumporta Skinba,as
Histology of Sebaceous Gland

O
 -

llgaments +tendons
↓ dense regular
connective tissue
strongest

penchonanuma
cartilage
Surround
Presentation
October 09, 2024
 Bone Cells
Although bone cells compose a small
amount of the bone volume, they are
crucial to the function of bones.
Four types of cells are found within
bone tissue:- -make
> something (bone)
1. osteoblasts,
-bone

2. osteocytes, more mature bone
>
-

3. osteogenic cells, phmitare
>
-

cells that
4. osteoclasts form osteoblasts
 Bone Cells and Tissue
The osteoblast is the bone cell responsible for forming new bone and is
found in the growing portions of bone, including the periosteum and
endosteum. Osteoblasts synthesize and secrete the collagen matrix and
calcium salts.
As the secreted matrix surrounding the osteoblast calcifies, the osteoblast
become trapped within it and becomes as an osteocyte, the primary cell of
mature bone.
Each osteocyte is located in a space called a lacuna and is surrounded by
bone tissue.
costeoblasts bony

me ↑
lacuna
ye
 Osteocytes
Osteocytes make up 90–95% of cells
in bone tissue in contrast to
osteoclasts and osteoblasts making up
~5% (40)....
Residing within the lacuna of the
mineralized bone matrix
osteocytes form dendritic processes Lospocytes
that extend out from their cell bodies reside
here
in

into spaces known as canaliculi.
 remodel
Osteoclast -get
>
-
- removes bone
more calcium

The cell responsible for bone resorption, or
breakdown, and calcium release is 'breaking
down bone
the osteoclast.
They are found on bone surfaces, are
not completely
multinucleated, and originate from surrounded
-

only & multi nucleated
bone
-

cell monocytes and macrophages, by bone much larger
that Is
Osteoclasts are continually breaking down
old bone while osteoblasts are continually
forming new bone. Osteoblasts

The dynamic nature of bone means that new
tissue is constantly formed, and old, injured, or
unnecessary bone is dissolved.

M
 Osteogenic Cells <
primative

Osteogenic cells are the only bone cells that
divide.
Osteogenic cells differentiate and develop
into osteoblasts which, in turn, are
responsible for forming new bones.
harder to identify bes look like other phmative cell
 Summary
Osteogenic cells are the only bone cells that divide.
Osteogenic cells differentiate and develop into osteoblasts which, in turn,
are responsible for forming new bones.
Osteoblasts synthesize and secrete a collagen matrix and calcium salts.
When the area surrounding an osteoblast calcifies, the osteoblast becomes
trapped and transforms into an osteocyte, the most common and mature
type of bone cell.
Osteoclasts, the cells that break down and reabsorb bone, stem from
monocytes and macrophages rather than osteogenic cells..
There is a continual balance between osteoblasts generating new bone and
osteoclasts breaking down bone.
 Compact and Spong Bone
Two basic structural bone types.
compact bones
Spongy bone

Most bones contain compact and spongy osseous tissue, but their distribution and
concentration vary based on the bone’s overall function.
The differences between compact and spongy bone are best explored via their
histology.
 Compact and Spongy Bone
Compact Bone
Compact bone is the
denser, stronger of the
Osteon/haversion m blood
vessels ,

surrounded
by bone
etc

as

Istorgara
two types of bone tissue to
lent

It can be found under the
periosteum and in the
lamellae
diaphyses of long bones, used of
where it provides support
central
canal-centerston
makescompateng
ground
and protection. section of compact bone
what
compact be
- osteocyles

↑ eriosteum
- dense Irregular connective +issue placed brin
lamellae

circumferential lamellae-circular layer of bone that completely surround
bone central
canal
 Microscopic Structure of Compact Bone
The microscopic structural unit of
compact bone is called an osteon, or
Haversian system.
Each osteon is composed of concentric
rings of calcified matrix called lamellae
(singular = lamella). connective
tissue
Running down the center of each osteon
is the central canal, or Haversian canal,
which contains blood vessels, nerves, and
lymphatic vessels.
If you break bone , It will bleed
bone =
Vascular
Osteon (histology)
 Canaliculi
The osteocytes are located inside spaces
called lacunae (singular = lacuna), found at the
borders of adjacent lamellae. -nutuents
+
info
hom

centraa
little channels run from central canal to lacuna
Canaliculi connect with the canaliculi of other
lacunae and eventually with the central canal.
This system allows nutrients to be transported
 Spongy Bone
Spongy bone, also known as cancellous bone or
a
trabecular bone, is a very porous type of bone found
in animals. surr
Still
o unded
highly vascularized and contains red bone marrow.
usually located at the ends of the long bones (the
epiphyses), with the harder
compact bone surrounding it.
*
consists of plates (trabeculae)* flied witharrow
bone
canaliculi connect to the adjacent cavities, instead
usually
lighter space between
of a central haversian canal, to receive their blood ,
which contain RBC
supply. red color-active no haversian
in trabecullae-see
WBC
system components but don't
organize
themselves
 z.
endosteum

Spongy Bone cover trabeculae
loose connective tissue

Trabeculae are covered by the
endosteum
Trabecula forms along lines of stress to
direct forces out to the more solid
compact bone providing strength to the
bone.
Spaces of the trabeculated network
make bones lighter so that muscles can
move them more easily.
Spaces in many spongy bones contain
red marrow (hematopoiesis occurs).
 Chemical Composition of Bone
Bone is made up of:
organic component – 40%
z

flexibility
Consists of:
Cells
Osteod-maten all e cels

hylauronic acid
Collagen and GAGs (chondroitin sulfate (CS) and small amounts of
hyaluronic acid.
inorganic fro
component – 60%
enter
z

comes calcification
erage m

-major inorgan
Hardness
*
Calcium Phosphate combined with hydroxyl (OH) to form hydroxyapatite
Interstitial and Appositional Growth of
Cartilage
Cartilage can grow in two ways:

Interstitial growth - chondrocytes grow and divide and lay
down more matrix inside the existing cartilage.

Appositional growth - new surface layers of matrix are added
to the pre-existing matrix by new chondroblasts from the
perichondrium.

 Bone Formation
1. Endochondral requires initial
In endochondral ossification, bone develops by replacing hyaline hyaline
cartilage. cartilage
cartilage does not become bone.
cartilage serves as a template to be completely replaced by new bone.
2. Intramembranous Ossification some don't start as cartilage
In Intramembranous ossification a cartilage model is not used
melanin cell
projects
by
covering
theucleus

Presentation
October 11, 2024
 Gross Anatomy of a Long Bone
A long bone has two parts: the diaphysis and the epiphysis.
The diaphysis is the tubular shaft that runs between the
proximal and distal ends of the bone.
internala
The epiphysis is the wider section at each end of the bone
(plural = epiphyses),
dontharassop growing
Each epiphysis meets the diaphysis at the metaphysis, the
narrow area that contains the epiphyseal plate (growth plate), a
layer ofuhyaline cartilage in a growing bone.
When the bone stops growing (approximately 18–21 years),
the cartilage is replaced by osseous tissue and the
epiphyseal plate becomes an epiphyseal line.
 Gross Anatomy of a Long Bone
(Continued)
The hollow region in the diaphysis is called
the medullary cavity, which is filled with yellow
marrow.
The walls of the diaphysis are composed of compact

alwaysnaMom
bone. a
The epiphysis (plural is filled with spongy bone.-

Covering the epiphysis is articular (hyaline) cartilage
-

hyaline cartilage
forms articular
cartilage
 Endosteum and Periosteum
The medullary cavity is lined by a delicate membrane called
the endosteum (end- =covers“inside”; oste-of= “bone”).
Loose aredit trabeculae spongy bone
The outer surface of the bone is covered with a fibrous
,

membrane called the periosteum (peri- = “around” or
“surrounding”). ↳aroundbeearct
contains blood vessels, nerves, and lymphatic vessels
that nourish compact bone. Tendons and ligaments also
attach to bones at the periosteum. VASCULAR
The periosteum covers the entire outer surface except at
joints. In this region, the epiphyses are covered
with articular cartilage, a thin layer of hyaline cartilage that
reduces friction and acts as a shock absorber.
 Bone Formation
1. Endochondral
In endochondral ossification, bone develops by replacing hyaline
cartilage. embryonic
cartilage does not become bone. most bones are endochondral cartilage
cartilage serves as a template to be completely replaced by new bone.
2. Intramembranous Ossification
In Intramembranous ossification a cartilage model is not used
Interstitial and Appositional Growth of
Cartilage
Cartilage can grow in two ways:

Interstitial growth - chondrocytes grow and divide and lay
down more matrix inside the existing cartilage.

Appositional growth - new surface layers of matrix are added
to the pre-existing matrix by new chondroblasts from the
perichondrium. laying something on
top of something
 endroblasts
afreventat
Endochondral Bone Formation -
-
into
mesenchymal cells
~
at about 6 to 8 weeks mesenchymal cells mesenchyme
differentiate into chondroblasts that form ↓

connective
the hyaline cartilage model of the bones. early
tissue which

Perichondrium surrounds the cartilage contain stem cells

model that takes the shape of the future
bone and grows by
both interstitial and appositional growth.
have mesenchymal cells that will create
The perichondrium produces a thin collarOsteo its
Monavas
-

of bone around the shaft of the cartilage /

chondrocytes tes
model and is referred to as periosteum ↓

messenchyal
enlarge
bis formed a to
cells

bone around create
It
chondroblasts
 Endochondral Bone Formation
(Continued)
The chondrocytes in the center of the
cartilage model become
larger (hypertrophy) and the surrounding
cartilage matrix becomes calcified.

These chondrocytes undergo programmed
death leaving behind cavities within the
cartilage matrix.
 Endochondral Bone Formation
(Continued)
Blood vessels and osteoblasts and osteoclasts
from the periosteum (periosteal buds)
migrate into the cavities within the calcified
cartilage matrix.

The calcified cartilage breaks down but before
doing so provides a surface on
which osteoblasts can produce spongy bone.
things happening
This then becomes a primary ossification at same
time
center.
 Endochondral Bone Formation
(Continued)
As osteogenesis continues in the
primary ossification center, a cavity
results as the bone is remodeled.
This central cavity is called the marrow
medullary
cavity.
Further growth involves an increase in
both he length and diameter of the
bone. (pumanly
through
appositional
growth
 Secondary Center of Ossification
Secondary atossification
end of bone
centers appear
in the epiphyses in a manner similar to
that described above for the primary
ossification center. forms more
spongy bone
This occurs shortly after birth
 Remaining Cartilage
By the time the fetal skeleton is fully
formed, cartilage only remains at the uyaline

joint surface as articular cartilage and
between the diaphysis and epiphysis as
the epiphyseal plate
The epiphyseal plate is responsible for
the longitudinal growth of bones.
at ends of bones
particular cartilage

was there from
ocartilage beginning
of bone formation
 Grow in Length
The epiphyseal plate is the area of
growth in a long bone.
n length
It is a layer of hyaline cartilage where
ossification occurs in immature
bones.
On the epiphyseal side of plate,
cartilage is formed. On the diaphyseal
side, cartilage is ossified, and the
diaphysis grows in length.
The epiphyseal plate is composed of
four zones
 epiphysa
Growth in length continued
1. reserve zone: is the region closest to the epiphyseal
end and contains hyaline cartilage.
much
2. proliferative zone: is the next layer toward the as
diaphysis and contains stacks of slightly larger adding alsroving
start dividing
chondrocytes. chondrocytes bes stacking onto each other grow
grow
3. Hypertrophy zone: contain chondrocytes that are while maintaining
larger than those in the proliferative zone. size of
growth
4. zone of calcification/resorption: the zone closest to plate

the diaphysis becomes calcified.
The bone increases in length as long as the rate of
cartilage production equals the rate by which it is
replaced by bone.