Transcript Slide 1

Periapical Granuloma
-Granulation tissue
(fibrovascular)
-Mononuclear
inflammatory cell
infiltrate
-“chronic inflammation”
Chronic inflammatory reaction in response to
a pulpal infection with bacteria.
All we can see here are tiny blue dots
sprinkled across the entire tissue section.
As we shall see next, These are blood
leukocytes that have migrated out of vessels
into tissue to form what is known as an
inflammatory cell infiltrate.
Periapical Granuloma
-Granulation tissue
(fibrovascular)
-Mononuclear
inflammatory cell
infiltrate
-“chronic inflammation”
Here we can see some small
vessels (arrow) and only faint,
immature collagen in the
background (pink).
The dots sprinkled all around are
leukocytes; at this magnification, we
can’t definitively identify what types
of whites cells they are.
Periapical Granuloma
-Granulation tissue
(fibrovascular)
-Mononuclear
inflammatory cell
infiltrate
-“chronic inflammation”
The red arrows point to small
round blue nuclei and represent
lymphocytes.
The blue arrows designate plasma
cells; you can see an eccentric
nucleous with a purple cytoplasm.
Elsewhere in this view, capillaries
are present, eosinophilic (pink)
collagen is in the background and
some of the more spindle shaped
cells are fibroblasts.
PA Gran, Subacute Inflammation
Notice that the inflammatory cell
infiltrate is somewhat different.
The background granulation tissue
(fibrovascular element) remains
unchanged.
In this photomicrograph one can
identify:
macrophages (yellow arrow)
plasma cells (blue)
neutrophils or PMNs (green)
This combination is referred to as
subacute inflammation (mononuclear
cells and granulocytes).
What controls this response? The
type of micro-organism does. Certain
microbes stimulate an acute
response, others a chronic one and
yet others, a subacute inflammatory
response.
Parulis, acute inflammation
This is a biopsy from a draining fistula
or parulis associated with an
abscessed tooth.
At this relatively low magnification one
can see a virtural sea of leukocytes
and numerous capillaries (red arrows).
The granulation tissue here shows
no collagen fibers…..only vessels.
Abscess/Parulis
This higher magnification discloses a few
vessels, some mononuclear cells (very
few) and mostly sheets of neutrophiles or
PMNs.
This is what is termed acute inflammation
and when localized under the gingiva it is
a submucosal abscess or parulis.
In such an instance, the pyogenic bacteria
coming out of the necrotic pulp have
invaded through bone and out the cortex.
Apical Periodontal Cyst, low
In some endodontic infections, not only is
there an inflammatory response, but the
Rests of Malassez in the apical PDL are
stimulated by inflammatory cytokines and
growth factors secreted by leukocytes to
proliforate.
As these epithelial cells increase in size,
they become necrotic in the center to create
a stratified squamous epithelial lined cavity
or cyst.
In this low power photomicrograph, the root
tips are evident at the top of the view and
below is a collapsed cavity. At this power
one cannot see the epithelial lining
Periapical Cyst, Medium
In this view, one sees the root surface
on the right (we cannot actually see the
necrotic root canal in this section)
To the left is an epithelial lining that still
shows proliferation with cords and
strands of anastomosing cells.
Interposed between the cyst and the
root is fibrous connective tissue, a
tissue that matured from preexisting
granulation tissue.
Adjacent to the cyst lining are
numerous leukocytes.
APC, Thin Wall
This photomicrograph is a low power
view of a large apical cyst where one can
observe the distended cyst wall, epithelial
lining and a lumen filled with amorphous
eosinophilic (pink) material that
represents the cyst contents of
proteinaceous coagulated fluid.
Inflammation in Wall
This is a higher magnification of
the previous image showing the
stratified squamous lining on the
left, fibrous connective tissue
wall in the center, and on the
outer edge is an inflammatory
cell infiltrate represented by
mononuclear leukocytes, mostly
lymphocytes (Chronic
inflammation).
Cholesterol Cleft, Multinucleated
Giant Cells
• In some apical inflammatory lesions, and for
reasons not understood, cholesterol
accumulates in the fibrous and granulations
tissues.
• The cholesterol crystallizes into “surf-board”
shaped clear cavities.
• They are clear because the processing of the
tissues for histology uses lipid solvents so all
we see are ghosts of the material.
• Cholesterol out in the tissues acts as a foreign
body and one then sees fused macrophages
or multinucleated foreign body type giant cells
stretched around the clefts in the process of
attempted (in vain we think) phagocytosis.
Pyogenic Granuloma, low mag
Now we will take a look at inflammation
out in the soft tissues of the gingiva and
periodontium. When food particles,
popcorn kernals or perhaps even calculus
become entrapped in the gingival sulcus,
they act as an irritant and stimulate an
overzealous proliferation of granulation
tissue accompanied by inflammation.
This low power photomicrograph was
obtained from a gingival mass arising in
the interdental papilla.
There is an epithelial layer over the top
and the mass is composed of granulation
tissue.
Pyogenic Granuloma, medium
In this medium power view, we can see an
epithelial layer on the left and on the right,
the mucosal epithelium is lost. This is
referred to as ulceration and the surface is
represented by a fibrin clot with entrapped
neutrophils.
The mass is represented by numerous
proliferating blood vessels with
intervening loose fibrous tissue - an
excellent example of very vascular
granulation tissue. Leukocytes are
distributed throughout.
Pyogenic Granuloma, high
This high magnification shows the
dilated vascular channels lined by
endothelial cells and interposed loose
fibrous tissue infiltrated with
neutrophils.
The term “pyogenic” implies an
infectious etiology. It is not. The
pyogenic granuloma is a reactive
proliferation; reacting to irritation,
not infection. This then is an
example of the host inflammatory
response forming in response to
injury.
Mucous Retention Phenomenon
Lower Lip
Mucous Escape Reaction
This low power view of a
mucocele shows a layer of
surface epithelium and an
underlying cystic mass filled with
purple fluid (mucin). Minor
salivary gland lobules are evident
on the lateroinferior margin.
The mucocele forms as a
consequence of ductal severage
with escape of secreted mucins
into the surrounding connective
tissues.
Mucocele Wall
When the mucous escapes, it
pools and is walled off by
granulation tissue. In this
medium power view, one can
observe the mucin on the top,
granulation tissue with
underlying dense collagenous
tissue in the center and minor
salivary glands along the bottom.
Phagocytosis of Mucin
At the interface between the
granulation tissue wall and the
pooled mucin, macrophages can be
seen, attempting to phagocytize the
mucin. Their nuclei are round and
they have a significant amount of
pink cytoplasm that has a bubbly or
foamy appearance owing to the
mucins that have been ingested by
these cells
Inflammatory Fibrous
Hyperplasia
Denture Associated
This low magnification specimen
shows a lobulated mass
represented by a partial covering
with epithelium and a massive
proliferation of fibrous tissue
below. Collections of minor
salivary tissue were included in
the biopsy.
Inflammatory Fibrous Hyperplasia
This low magnification specimen
shows a lobulated mass
represented by a partial covering
with epithelium and a massive
proliferation of fibrous tissue
below. Collections of minor
salivary tissue were included in
the biopsy.
Epithelial and Fibrous Hyperplasia
At medium power, it can be seen that
the surface epithelium is thickened
or hyperplastic, a response to trauma
from the denture flange. Below is
dense mature collagenous connective
tissue. This connective tissue
appears relatively normal and is
traversed by capillaries. Under the
epithelium are a few scattered
inflammatory cells.
Chronic Sclerosing Sialadenitis
The salivary tissues deep in the
specimen have also been
traumatized and their secretions
have been blocked leading to
degeneration of the acini. As the
acini disappear from apoptosis and
necrosis (forms of cell death),
inflammatory cells infiltrate and
phagocytize the necrotic cells.
This is inflammation in response to
injury.
Chronic Sclerosing Sialadenitis
In this higher magnification, one
can see very few remaining acini,
although the ducts are more
resistant to the trauma and the
effects of obstruction. Ductal
structures remain in the absence of
acini. The normal tissues are then
replaced by mononuclear
inflammatory cells and the
granulation tissue matures into
dense fibrous scar-like tissue.
Sclerosis means fibrosis or scar
formation.
Tuberculosis Ulcer
Tongue
Granulomatous Inflammation
Specific granulomatous inflammation is a
special form of chronic inflammation that
is induced be certain microorganisms,
Mycobacterium tuberculosum being the
classic example, although invasive fungal
organisms also cause this type of
inflammation.
By definition, chronic granulomatous
inflammation is a chronic inflammatory
reaction in which one sees collections of
granulation tissue (granulomas),
mononuclear inflammatory cells
(lymphocytes, plasma cells,
macrophages) and most importantly,
multinucleated giant cells as seen here.
Tuberculous Granuloma
In this section of chronic
granulomatous inflammation, a
collection of multinucleated giant
cells can be seen in the
background of granulation tissue
and other leukocytes.
These giant cells form by fusion
of macrophages to create monster
phagocytic cells. Certain
glycoproteins on the cell wall of
specific microorganisms play a
role in this cell fusion process.
Langhans Giant Cell
In TB, the giant cells have a distinctive
appearance. The nuclei are arranged
around the periphery, a wreath-like
configuration, and a smooth pink
cytoplasm lies in the center of the cell.
These are Langhans Giant cells. The
red arrows point to individual
macrophages from which the giant
cells form. Blue arrows point to
lymphocytes out in the granulation
tissue.
In order to actually see the
mycobacteria within the giant cell, we
would have to apply an acid-fast stain.
Foreign Body Giant Cells
Here are photomics showing suture
material and multinucleated giant cells
as well as surrounding individual
macrophages. Note that the nuclei are
dispersed throughout the cytoplasm
unlike the Langhans cells of TB.
This entire focus is called a “foreign
body granuloma”.
Foreign Body Reaction
Gut and nylon suture are resorbable.
In this section of mouse liver, gut
sutures were placed and after three
days, we can see the yellow filaments
of the suture material and surrounding
inflammatory cells. Even at this
magnification, it is easy to see the
giant cell reaction in the upper left.