Squash cytology of cns paediatric tumours
sumanthdeva
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Mar 18, 2013
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About This Presentation
No description available for this slideshow.
Slide Content
Squash Cytology of Paediatric
CNS Tumours
Presented by – Dr. V. Nagesh Kumar (1
st
Yr PG)
Chair Person:Dr. Kumuda (Prof)
Moderators: Dr. Rama Raju (Assoc Prof)
Dr Shrinivas (Asst Prof)
CNS Tumours
Presented by – Dr. V. Nagesh Kumar (1
st
Yr PG)
Chair Person:Dr. Kumuda (Prof)
Moderators: Dr. Rama Raju (Assoc Prof)
Dr Shrinivas (Asst Prof)
Dr. Harvey Williams Cushing
(1869 – 1939)
Dr. Louise Eisenhardt
(1891 – 1967)
(1869 – 1939)
Dr. Louise Eisenhardt
(1891 – 1967)
Introduction
•Central nervous system (CNS) is one of
the most challenging domains for the
neurosurgeon and Pathologists
•The role of intraoperative pathological
diagnosis is crucial in neurosurgery
•Central nervous system (CNS) is one of
the most challenging domains for the
neurosurgeon and Pathologists
•The role of intraoperative pathological
diagnosis is crucial in neurosurgery
Introduction
•Making a diagnosis of CNS lesions is
difficult on the basis of clinical and
radiological findings only
•Cytological and/ or histological diagnosis
is required for confirmation and proper
management
•Making a diagnosis of CNS lesions is
difficult on the basis of clinical and
radiological findings only
•Cytological and/ or histological diagnosis
is required for confirmation and proper
management
Introduction
•Besides rapid decision making during
neurosurgical procedures, it is also to be
ensured that minimum injury is caused to
the normal brain structures surrounding
the intracranial neoplasm
•Besides rapid decision making during
neurosurgical procedures, it is also to be
ensured that minimum injury is caused to
the normal brain structures surrounding
the intracranial neoplasm
Introduction
•In this regard, imprint cytology or squash
smear prepared from small biopsy during
surgery seems to be very helpful for the
operating surgeon to make a decision on
further management
•In this regard, imprint cytology or squash
smear prepared from small biopsy during
surgery seems to be very helpful for the
operating surgeon to make a decision on
further management
Introduction
•The application of smear techniques as a
means of obtaining rapid diagnosis for
neurosurgical biopsies was first advocated
by Dr Eisenhardt and Dr Cushing in the
USA in early 1930
•Since then, although the technique has
been modified by various individuals by
changing the fixative or stain, the basic
principle has remained unchanged
•The application of smear techniques as a
means of obtaining rapid diagnosis for
neurosurgical biopsies was first advocated
by Dr Eisenhardt and Dr Cushing in the
USA in early 1930
•Since then, although the technique has
been modified by various individuals by
changing the fixative or stain, the basic
principle has remained unchanged
Introduction
•Though this technique receded to the
background with the advent of CT guided
stereotactic biopsy, it has regained
importance due to its technical simplicity
•Three simple techniques allow rapid
examination of biopsy material during
surgery: touch preparations, squash
preparations, and the smear
•Though this technique receded to the
background with the advent of CT guided
stereotactic biopsy, it has regained
importance due to its technical simplicity
•Three simple techniques allow rapid
examination of biopsy material during
surgery: touch preparations, squash
preparations, and the smear
Squash Preparation
•Tissue is crushed between two slides and
then stained
•Similar to touch preparations, this method
will give excellent cytology, although some
cells may show some crush artifacts
•Tissue is crushed between two slides and
then stained
•Similar to touch preparations, this method
will give excellent cytology, although some
cells may show some crush artifacts
Squash Preparation
•As the tissue spreads out under the force
produced by the two glass slides, its
structure partially breaks down, thereby
releasing more cells
• Notably, neoplastic cells that elaborate
their own matrix will retain their
relationship to this milieu on the slide
•As the tissue spreads out under the force
produced by the two glass slides, its
structure partially breaks down, thereby
releasing more cells
• Notably, neoplastic cells that elaborate
their own matrix will retain their
relationship to this milieu on the slide
Examination of the smear
•A multilevel process and entails observing
at every level
–Radiology
–gross examination, and
–how the tissue physically separates
•A multilevel process and entails observing
at every level
–Radiology
–gross examination, and
–how the tissue physically separates
Examination of the smear
•After it is stained, hold it up to the light
What does it look like?
–Is it pink or blue?
–Lmpy or smooth?
–Easy to spread or resist spreading?
•After it is stained, hold it up to the light
What does it look like?
–Is it pink or blue?
–Lmpy or smooth?
–Easy to spread or resist spreading?
Examination of the smear
•Under the microscope
–Intermediate magnification
•the lesion's matrix becomes clear: glial, liquid,
epithelial, or cohesive
•Finally, at high power
–the cells reveal their identity
–Their cytoplasm generally indicates the cell
type, whereas their nuclei tell whether the
process is reactive or neoplastic, benign or
malignant
•Under the microscope
–Intermediate magnification
•the lesion's matrix becomes clear: glial, liquid,
epithelial, or cohesive
•Finally, at high power
–the cells reveal their identity
–Their cytoplasm generally indicates the cell
type, whereas their nuclei tell whether the
process is reactive or neoplastic, benign or
malignant
Biopsies of Gray Matter
•Produce smooth, relatively pink smears
•They are hypocellular, which distinguishes
them from tumors and inflammatory
disorders
•A few delicate capillaries often stretch
around the smear, whereas larger vessels
are dragged off to the end of the slide
•Produce smooth, relatively pink smears
•They are hypocellular, which distinguishes
them from tumors and inflammatory
disorders
•A few delicate capillaries often stretch
around the smear, whereas larger vessels
are dragged off to the end of the slide
Biopsies of Gray Matter
• Neurons and their synapses make up the
essence of gray matter
•Fine granularity of gray matter or
neuropil depends on the multitude of
axons synapsing on dendrites
• Neurons and their synapses make up the
essence of gray matter
•Fine granularity of gray matter or
neuropil depends on the multitude of
axons synapsing on dendrites
Normal gray matter
Biopsies of White mater
•Normal white matter lacks the neurons
and neuropil of gray matter
•It contains two main populations of cells
that can be difficult to distinguish:
–Oligodendrocytes - a dense, small, round,
blue nucleus
–Astrocytes - larger, slightly round nucleus with
more open chromatin
•Normal white matter lacks the neurons
and neuropil of gray matter
•It contains two main populations of cells
that can be difficult to distinguish:
–Oligodendrocytes - a dense, small, round,
blue nucleus
–Astrocytes - larger, slightly round nucleus with
more open chromatin
•Unless you see some defining cytoplasm,
you cannot reliably distinguish these
nuclei. Rather, you identify a cell by the
company it keeps, by its context in the
surrounding tissue
you cannot reliably distinguish these
nuclei. Rather, you identify a cell by the
company it keeps, by its context in the
surrounding tissue
A.Low magnification view showing the light fluffy appearance of
slightly gliotic white matter.
B.Intermediate power showing a reactive astrocyte (arrow) in a
spattering of small, round, blue cells. Although many of these other
cells are most likely oligodendrocytes (arrowheads), they cannot be
reliably distinguished from a few infiltrating lymphocytes or
nonstimulated macrophages.
slightly gliotic white matter.
B.Intermediate power showing a reactive astrocyte (arrow) in a
spattering of small, round, blue cells. Although many of these other
cells are most likely oligodendrocytes (arrowheads), they cannot be
reliably distinguished from a few infiltrating lymphocytes or
nonstimulated macrophages.
Cerebellar cortex
•In a smear, identifying cerebellar cortex
requires
–recognizing the monotony of its granular
neurons
–finding a fine neuropil background, and
–looking for the occasional, helpful Purkinje
neuron
•In a smear, identifying cerebellar cortex
requires
–recognizing the monotony of its granular
neurons
–finding a fine neuropil background, and
–looking for the occasional, helpful Purkinje
neuron
Normal cerebellar cortex
•Distinguishing normal cerebellum from a
small, round, blue cell tumor can be tricky
• However, normal cerebellum smears
evenly, like all other brain, and the
confounding internal granular neurons are
oppressively monotonous at high power
small, round, blue cell tumor can be tricky
• However, normal cerebellum smears
evenly, like all other brain, and the
confounding internal granular neurons are
oppressively monotonous at high power
Smear Patterns
•Noncohesive smears
•Cohesive smears
•Epithelial tissue smears
•Glial tissue smears
•Necrotic debris smears
•Noncohesive smears
•Cohesive smears
•Epithelial tissue smears
•Glial tissue smears
•Necrotic debris smears
Noncohesive smear
Noncohesive tissues. In noncohesive processes, cells grow
without significant intercellular attachments. Their matrices are
weak and are insufficient to bind the cells together.
Noncohesive tissues. In noncohesive processes, cells grow
without significant intercellular attachments. Their matrices are
weak and are insufficient to bind the cells together.
Noncohesive smear
This is a classic smear from a pituitary adenoma
This is a classic smear from a pituitary adenoma
Cohesive smear
Several different types of tissues, including some tumors and
dura, are tightly bound together by either dense reticulin or
collagen bands. These tissues are unwilling to give up their cells
without a fight.
Several different types of tissues, including some tumors and
dura, are tightly bound together by either dense reticulin or
collagen bands. These tissues are unwilling to give up their cells
without a fight.
Cohesive smear
Smear of a cohesive schwannoma
Smear of a cohesive schwannoma
Epithelial tissues come in different forms, but all share two
characteristics: they are bound to each other by cell surface
connections and they have distinct cell membranes. On a
smear, squamous tissues form sheets (upper cells). Tubular
epithelium frequently forms balls (lower cells). Papillary
epithelial tissues form papillary structures on smears.
Epithelial tissue smear
characteristics: they are bound to each other by cell surface
connections and they have distinct cell membranes. On a
smear, squamous tissues form sheets (upper cells). Tubular
epithelium frequently forms balls (lower cells). Papillary
epithelial tissues form papillary structures on smears.
Epithelial tissue smear
Epithelial tissue smear
Metastatic lung carcinoma
Metastatic lung carcinoma
Glial tissue smear
A smear prepared from gliotic tissue, be it reactive or neoplastic, will
reflect these highly intermingled processes.
At low magnification, it will look like puffs of cotton seeds clumped
around strands of cotton fibers (center).
On high power, reactive or neoplastic astrocyte nuclei connect
directly to the glial matrix they have elaborated (right).
A smear prepared from gliotic tissue, be it reactive or neoplastic, will
reflect these highly intermingled processes.
At low magnification, it will look like puffs of cotton seeds clumped
around strands of cotton fibers (center).
On high power, reactive or neoplastic astrocyte nuclei connect
directly to the glial matrix they have elaborated (right).
Glial tissue smear
Moderate reactive gliosis near a metastasis
Moderate reactive gliosis near a metastasis
Glial tissue smear
High-power view of a reactive astrocyte in this smear
High-power view of a reactive astrocyte in this smear
Necrotic debris smear
This fragment of tissue from a glioblastoma is necrotic. The pale, dead nuclei
(arrows) are diagnostic evidence of necrosis.
This sample also has some blood bound within it. Remember, erythrocytes
can lyse during the fixation step and leave only ghosts, which can look like
dead nuclei.
This fragment of tissue from a glioblastoma is necrotic. The pale, dead nuclei
(arrows) are diagnostic evidence of necrosis.
This sample also has some blood bound within it. Remember, erythrocytes
can lyse during the fixation step and leave only ghosts, which can look like
dead nuclei.
Paediatric CNS Tumours
Paediatric CNS Tumours
•most common solid organ tumor in
children
•are second only to leukemias in children
•70% of pediatric brain tumors are in the
posterior fossa
–Pilocytic astrocytoma
–Medulloblastoma
–Ependymoma
•most common solid organ tumor in
children
•are second only to leukemias in children
•70% of pediatric brain tumors are in the
posterior fossa
–Pilocytic astrocytoma
–Medulloblastoma
–Ependymoma
Paediatric CNS Tumours
•Primary
•Secondary
–Metastatic
–Local invasion
•Tumors of the spinal cord
•Primary
•Secondary
–Metastatic
–Local invasion
•Tumors of the spinal cord
Paediatric CNS Tumours
•Most common types
–Astrocytomas
•Grades I-IV
–Medulloblastomas
•primitive neuroectodermal tumor-PNET
–Meningiomas
–Pituitary adenomas
•Most common types
–Astrocytomas
•Grades I-IV
–Medulloblastomas
•primitive neuroectodermal tumor-PNET
–Meningiomas
–Pituitary adenomas
Infratentorial or Posterior Fossa
•Astrocytomas
•Medulloblastomas
•Atypical teratoid/rhabdoid tumors
•Ependymomas
•Choroid plexus tumors
•Astrocytomas
•Medulloblastomas
•Atypical teratoid/rhabdoid tumors
•Ependymomas
•Choroid plexus tumors
Parasellar
• Astrocytomas
•Craniopharyngiomas
•Germ cell tumors
• Astrocytomas
•Craniopharyngiomas
•Germ cell tumors
Medulloblastoma
•Embryonal tumor of the cerebellum and at
sites throughout the neural axis showing
primitive neuroectodermal cells with
neuronal differentiation
•considered malignant, grade IV
neoplasms because of their potentially
rapid growth and to seed distant sites of
the nervous system through the ventricles
and subarachnoid spaces
•Embryonal tumor of the cerebellum and at
sites throughout the neural axis showing
primitive neuroectodermal cells with
neuronal differentiation
•considered malignant, grade IV
neoplasms because of their potentially
rapid growth and to seed distant sites of
the nervous system through the ventricles
and subarachnoid spaces
Medulloblastoma
•common solid tumor of children and young
adults
•The classic form has neuroblastic rosettes
(tumor cell nuclei around cytoplasmic
processes)
•Mitoses and apoptoses may be frequent
•common solid tumor of children and young
adults
•The classic form has neuroblastic rosettes
(tumor cell nuclei around cytoplasmic
processes)
•Mitoses and apoptoses may be frequent
MRI – T1, T2 & gad enhanced images of Medulloblatoma
In a smear examined at medium to high microscopic powers, classic
medulloblastomas show cells as if glued end-to-end, small numbers of nuclei stick
together, forming short chains or circles, these represent true rosettes
medulloblastomas show cells as if glued end-to-end, small numbers of nuclei stick
together, forming short chains or circles, these represent true rosettes
Medulloblastoma smears at medium power.
Few nuclei remain fully isolated from other nuclei (white arrowheads). Instead, many
of the cells seem to form short chains or clusters (black arrowheads) and some form
larger, circular arrangements.
Few nuclei remain fully isolated from other nuclei (white arrowheads). Instead, many
of the cells seem to form short chains or clusters (black arrowheads) and some form
larger, circular arrangements.
Features of a classic medulloblastoma:
A.Cells with scant-to-no cytoplasm having nuclei displaying salt-and-pepper
chromatin but no nucleolus. Nuclear molding (arrows) reflects cellular
cohesion in the presence of minimal cytoplasm.
B.Occasional circles of cells (arrowheads) appear to be more than a
fortuitous arrangement of cells, because many of their nuclei mold onto each
other and lumen they form has a distinct edge.
A.Cells with scant-to-no cytoplasm having nuclei displaying salt-and-pepper
chromatin but no nucleolus. Nuclear molding (arrows) reflects cellular
cohesion in the presence of minimal cytoplasm.
B.Occasional circles of cells (arrowheads) appear to be more than a
fortuitous arrangement of cells, because many of their nuclei mold onto each
other and lumen they form has a distinct edge.
Medulloblastoma showing neuroblastic differentiation
Desmoplastic Medulloblastomas
•Like all variants these smear easily
•displays abundant pink neuropil
•Relatively monotonous nuclei dispersed in
a fine neuropil matrix
•Minimal cytoplasm and has more
homogenous nuclei than classic
medulloblastomas but retains the salt-and-
pepper chromatin
•Like all variants these smear easily
•displays abundant pink neuropil
•Relatively monotonous nuclei dispersed in
a fine neuropil matrix
•Minimal cytoplasm and has more
homogenous nuclei than classic
medulloblastomas but retains the salt-and-
pepper chromatin
Desmoplastic medulloblastoma
•This tumor displays a prominent nodular
growth pattern on permanent sections.
These nodules are not really desmoplastic
lumps surrounded by fibrous tissue but
rather islands of better-differentiated
neural cells within neuropil that are
demarcated by poorly differentiated bands
of cells
growth pattern on permanent sections.
These nodules are not really desmoplastic
lumps surrounded by fibrous tissue but
rather islands of better-differentiated
neural cells within neuropil that are
demarcated by poorly differentiated bands
of cells
Atypical teratoid rhabdoid
tumors (ATRT)
•ATRTs are a tumor of early childhood(<2
years of age) and rare after age 4 years
•These tumors are neither teratomas nor
do they produce muscle
•ATRTs lack neuronal differentiation
•Easily be confused with medulloblastomas
tumors (ATRT)
•ATRTs are a tumor of early childhood(<2
years of age) and rare after age 4 years
•These tumors are neither teratomas nor
do they produce muscle
•ATRTs lack neuronal differentiation
•Easily be confused with medulloblastomas
•Have predilection for the cerebellum and
posterior fossa, they can occur anywhere
along the neural axis
•These tumors characteristically have lost
one chromosome 22; monosomy 22, in
the right clinical setting, is considered
diagnostic of an ATRT
posterior fossa, they can occur anywhere
along the neural axis
•These tumors characteristically have lost
one chromosome 22; monosomy 22, in
the right clinical setting, is considered
diagnostic of an ATRT
•Unlike medulloblastomas, which can be
eradicated in many patients, these are
highly malignant tumors for which no
satisfactory treatment has been developed
eradicated in many patients, these are
highly malignant tumors for which no
satisfactory treatment has been developed
Atypical teratoid rhabdoid tumor neuroradiology
Atypical teratoid rhabdoid tumor
A.The field view of this microscopic slide shows a choppy or rough spreading of
the tumor.
B.Among the cellular clumps at low magnification, tumor cells shed easily. They
accumulate in large numbers around stiffened or rigid blood vessels (arrow).
Notice the tiny piece of involved cerebellum that was part of the tissue sampled
(cb, demarcated by lines); this piece had been invaded by tumor but still
retained some of its cellular components.
A.The field view of this microscopic slide shows a choppy or rough spreading of
the tumor.
B.Among the cellular clumps at low magnification, tumor cells shed easily. They
accumulate in large numbers around stiffened or rigid blood vessels (arrow).
Notice the tiny piece of involved cerebellum that was part of the tissue sampled
(cb, demarcated by lines); this piece had been invaded by tumor but still
retained some of its cellular components.
Vascular predilection of the tumor. In both preparations, cells cluster around
vessels. In addition, the vessel walls appear thickened and the endothelial cells
enlarged (B).
vessels. In addition, the vessel walls appear thickened and the endothelial cells
enlarged (B).
Multinucleated giant tumor cells are helpful, when present. Their nuclei match
those of the surrounding mononuclear tumor cells.
those of the surrounding mononuclear tumor cells.
ATRTs may have subclones displaying epithelioid features: large cells having
abundant, eosinophilic cytoplasm, sharp cell borders, and eccentric nuclei
abundant, eosinophilic cytoplasm, sharp cell borders, and eccentric nuclei
ATRT (Higher magnification)
A.Collection of primitive cells having scant cytoplasm and a salt-and-pepper
chromatin (arrowheads). Notice how an occasional cell having a similar nucleus
can also have more abundant and distinct cytoplasm (arrow).
B.The volume of cytoplasm ranges from scant to abundant (arrow). As
cytoplasmic volume increases, the nuclei remain eccentric rather than central.
A.Collection of primitive cells having scant cytoplasm and a salt-and-pepper
chromatin (arrowheads). Notice how an occasional cell having a similar nucleus
can also have more abundant and distinct cytoplasm (arrow).
B.The volume of cytoplasm ranges from scant to abundant (arrow). As
cytoplasmic volume increases, the nuclei remain eccentric rather than central.
C. A true rhabdoid cell, rather than just an epithelioid cell with an eccentric
nucleus, should have condensed cytoplasm and perhaps fine internal
filaments or whorls (arrow).
D. This multinucleated cell could really be a very tight clustering of smaller
epithelioid cells, because some distinct cytoplasmic borders are present
(arrowhead); this is not a cell of a medulloblastoma.
nucleus, should have condensed cytoplasm and perhaps fine internal
filaments or whorls (arrow).
D. This multinucleated cell could really be a very tight clustering of smaller
epithelioid cells, because some distinct cytoplasmic borders are present
(arrowhead); this is not a cell of a medulloblastoma.
Choroid plexus tumors
•Occurs in any portion of choroid plexus,
but usually as papillary neoplasms of
lateral ventricle of children and fourth
ventricle of adults
•Uncommon (0.4 to 0.6% of intracranial
neoplasms)
•Occurs in any portion of choroid plexus,
but usually as papillary neoplasms of
lateral ventricle of children and fourth
ventricle of adults
•Uncommon (0.4 to 0.6% of intracranial
neoplasms)
Choroid plexus papilloma
•Grade I of IV - benign
•Rare (<1%), slow growing tumor
• commonly in ventricular system and
associated with hydrocephalus
•Often causes developmental delay,
behavioral problems or epilepsy in
children
•85% occur at age 10 years or less; often
present at birth
•Grade I of IV - benign
•Rare (<1%), slow growing tumor
• commonly in ventricular system and
associated with hydrocephalus
•Often causes developmental delay,
behavioral problems or epilepsy in
children
•85% occur at age 10 years or less; often
present at birth
•Needle biopsy not recommended since
histologically resembles normal choroid
plexus
•10-30% become histologically malignant
•High survival unless becomes malignant
(then 5 year survival is 26%), although
histology does not predict behavior
histologically resembles normal choroid
plexus
•10-30% become histologically malignant
•High survival unless becomes malignant
(then 5 year survival is 26%), although
histology does not predict behavior
Well-demarcated intraventricular (or cerebellopontine angle) mass with
hydrocephalus. Calcification especially frequent in fourth ventricular
tumors. In adult patients the fourth ventricle and in children third ventricle is
more common. The tumor is attached to the choroid plexus.
hydrocephalus. Calcification especially frequent in fourth ventricular
tumors. In adult patients the fourth ventricle and in children third ventricle is
more common. The tumor is attached to the choroid plexus.
Choroid plexus papilloma (transverse section of the brainstem and the
cerebellum). Pinkish, granular growth with lobular contour in the lateral
recess of the fourth ventricle, at the cerebellopontine angle.
cerebellum). Pinkish, granular growth with lobular contour in the lateral
recess of the fourth ventricle, at the cerebellopontine angle.
A. In the low-power smear, the tumor has grapelike papillary clusters of cells
bulging off vessels. B. A cross-section transforms these clusters into dendritic
arbors or fronds of tumor growing on fibrovascular cores.
bulging off vessels. B. A cross-section transforms these clusters into dendritic
arbors or fronds of tumor growing on fibrovascular cores.
C. The tumors shed bland epithelial balls or shells of cells. D. Permanent
sections show the labyrinth of tumor cells lining vascular stalks.
sections show the labyrinth of tumor cells lining vascular stalks.
E. At high magnification, the tumor nuclei in individual shells are bland and
monomorphic. F. Histological sections show the nuclei to be more
hyperchromatic, heaped-up, and longer than those of normal choroid plexus.
monomorphic. F. Histological sections show the nuclei to be more
hyperchromatic, heaped-up, and longer than those of normal choroid plexus.
Choroid plexus papilloma smears.
A.At intermediate magnification, sheets of cells stripped from papillae form a
honeycomb pattern.
B.High magnification shows distinct cytoplasmic borders separating the cells in
these sheets.
A.At intermediate magnification, sheets of cells stripped from papillae form a
honeycomb pattern.
B.High magnification shows distinct cytoplasmic borders separating the cells in
these sheets.
C. Cells further sheared off the sheets retain their polarized epithelial features;
they have distinct cell membranes and eccentric bits of cytoplasm. D. Ribbons of
epithelial cells mirror the fibrovascular structures on the permanent sections.
they have distinct cell membranes and eccentric bits of cytoplasm. D. Ribbons of
epithelial cells mirror the fibrovascular structures on the permanent sections.
E. Because they are rigid, thick, and refringent, psammoma bodies often jump
out of the grapelike clusters. F. At high magnification, isolated psammoma
bodies display their diagnostic and aesthetic concentric spheres or laminations.
out of the grapelike clusters. F. At high magnification, isolated psammoma
bodies display their diagnostic and aesthetic concentric spheres or laminations.
Choroid plexus carcinoma
•WHO grade III of IV
•Extremely rare and resembles metastatic
carcinoma but usually occurs in children
•Associated with germline p53 mutations
•Positive stains: EMA, keratin, S100, INI1;
GFAP (20%)
•DD: atypical rhabdoid tumor (INI1 - ve)
•WHO grade III of IV
•Extremely rare and resembles metastatic
carcinoma but usually occurs in children
•Associated with germline p53 mutations
•Positive stains: EMA, keratin, S100, INI1;
GFAP (20%)
•DD: atypical rhabdoid tumor (INI1 - ve)
Left: Contrast-enhanced T1-weighted MR images showing a choroid plexus
papilloma that developed in the third ventricle. The vascular tumor pedicle
arising from the choroid plexus and the associated hydrocephalus are
typically observed in cases of these lesions.
Right: An MR image showing a choroid plexus carcinoma of the lateral
ventricle without hydrocephalus. In children such appearances can be similar
to those of an ependymoma or an intraventricular meningioma.
papilloma that developed in the third ventricle. The vascular tumor pedicle
arising from the choroid plexus and the associated hydrocephalus are
typically observed in cases of these lesions.
Right: An MR image showing a choroid plexus carcinoma of the lateral
ventricle without hydrocephalus. In children such appearances can be similar
to those of an ependymoma or an intraventricular meningioma.
Gross: well circumscribed, brown-red, cauliflower-like mass; variable
hemorrhage, necrosis and invasiveness
hemorrhage, necrosis and invasiveness
Choroid plexus carcinoma. (×200; h&e stain) shows a solid growth of markedly
pleomorphic cells with loss of any papillary growth pattern.
pleomorphic cells with loss of any papillary growth pattern.
Craniopharyngiomas
•Benign - typically very slow growing
tumors and arise from the cells along
the pituitary stalk
•usually suprasellar
neoplasm, which may
be cystic, that develops from nests of
epithelium derived from Rathke's pouch
•Rathke's pouch is an embryonic precursor
of the anterior pituitary
•Benign - typically very slow growing
tumors and arise from the cells along
the pituitary stalk
•usually suprasellar
neoplasm, which may
be cystic, that develops from nests of
epithelium derived from Rathke's pouch
•Rathke's pouch is an embryonic precursor
of the anterior pituitary
•Resistant to smearing, reveal cohesive
sheets of squamous cells and keratinous
debris. Background can show cholesterol
crystals, calcified debris, foreign body type
giant cells and histiocytes.
•Microscopically:
–adamantinomatous (pediatric type),
–papillary (adult type)
–mixed
sheets of squamous cells and keratinous
debris. Background can show cholesterol
crystals, calcified debris, foreign body type
giant cells and histiocytes.
•Microscopically:
–adamantinomatous (pediatric type),
–papillary (adult type)
–mixed
Spongy and cystic transformation
of the cell cords and connective
tissue. Massive nodule of
compact "wet keratin".
Ramified cell cords composed of
squamous epithelium bordered by a
layer of cuboidal basal cells. These
cell cords are separated by an
edematous, loose connective tissue
that exhibits cystic change in certain
areas.
of the cell cords and connective
tissue. Massive nodule of
compact "wet keratin".
Ramified cell cords composed of
squamous epithelium bordered by a
layer of cuboidal basal cells. These
cell cords are separated by an
edematous, loose connective tissue
that exhibits cystic change in certain
areas.
•DD:
–metastatic carcinoma (usually no
calcifications, no squamous epithelium)
– pilocystic astrocytoma (if only gliosis is
sampled, more cellular, has microcysts)
– Rathke cleft cysts (CK8+, CK20+; both
negative in craniopharyngioma)
–metastatic carcinoma (usually no
calcifications, no squamous epithelium)
– pilocystic astrocytoma (if only gliosis is
sampled, more cellular, has microcysts)
– Rathke cleft cysts (CK8+, CK20+; both
negative in craniopharyngioma)
Intracranial Germ Cell Tumors
•1-3% of primary pediatric CNS tumors
•Multiple tumor types seen:
–Germinomas -55%
–Teratomas and mixed germ cell tumors -33%
–Others: malignant endodermal sinus tumors,
embryonal cell carcinomas,
choriocarcinomas, teratocarcinomas-10%
•In all but germinomas, serum and CSF
alpha-fetoprotein (AFP) and βHCG may
be elevated
•1-3% of primary pediatric CNS tumors
•Multiple tumor types seen:
–Germinomas -55%
–Teratomas and mixed germ cell tumors -33%
–Others: malignant endodermal sinus tumors,
embryonal cell carcinomas,
choriocarcinomas, teratocarcinomas-10%
•In all but germinomas, serum and CSF
alpha-fetoprotein (AFP) and βHCG may
be elevated
Germinoma
•MC intracranial germ cell neoplasm
•Seen in teenagers and young adults
•May derive from ectopic rests,
transformation of resident germ cells or
migration of germ cells late in
development
•MC site is pineal region; also anterior or
posterior third ventricle, rarely fourth
ventricle
•MC intracranial germ cell neoplasm
•Seen in teenagers and young adults
•May derive from ectopic rests,
transformation of resident germ cells or
migration of germ cells late in
development
•MC site is pineal region; also anterior or
posterior third ventricle, rarely fourth
ventricle
Germinoma
•Relatively good prognosis
•Very sensitive to radiotherapy and
chemotherapy
•Metastases may be due to surgical
displacement of tumor; spinal cord
metastases occur in 10-15% of patients
•Relatively good prognosis
•Very sensitive to radiotherapy and
chemotherapy
•Metastases may be due to surgical
displacement of tumor; spinal cord
metastases occur in 10-15% of patients
Large pleomorphic cells with vacuolated cytoplasm ,large nuclei and
streaking of lymphoid cells
streaking of lymphoid cells
•DD:
–embryonal carcinoma (25% are PLAP+)
–Metastatic carcinoma (keratin+, EMA+, 13%
are PLAP+)
–embryonal carcinoma (25% are PLAP+)
–Metastatic carcinoma (keratin+, EMA+, 13%
are PLAP+)
Embryonal carcinoma
•Characterized by rapid and bulky growth
and spread to liver and lungs; 60% have
metastases at presentation
•Prognosis poorer than germinoma
•May be associated with precocious
puberty
•Positive stains: alpha-fetoprotein
•Characterized by rapid and bulky growth
and spread to liver and lungs; 60% have
metastases at presentation
•Prognosis poorer than germinoma
•May be associated with precocious
puberty
•Positive stains: alpha-fetoprotein
Yolk sac tumor
•Rare intracranial tumor, usually in pineal
or suprasellar regions
•Also called endodermal sinus tumor
•Prognosis poorer than germinoma
(median survival 2 years or less)
•Gross: usually large
•Micro: tubulopapillary structures with
vacuolated cuboidal cells, cystic spaces
with eosinophilic hyaline bodies, and
Schiller-Duval bodies
•Micro images:
various images-solid pattern in pineal gland
•Positive stains: alpha-fetoprotein
•Rare intracranial tumor, usually in pineal
or suprasellar regions
•Also called endodermal sinus tumor
•Prognosis poorer than germinoma
(median survival 2 years or less)
•Gross: usually large
•Micro: tubulopapillary structures with
vacuolated cuboidal cells, cystic spaces
with eosinophilic hyaline bodies, and
Schiller-Duval bodies
•Micro images:
various images-solid pattern in pineal gland
•Positive stains: alpha-fetoprotein
•Tumor occupies dorsal thalamus, cerebral
peduncle, mesencephalic tegmentum and
pons with compression of the third
ventricle and adjacent structures
peduncle, mesencephalic tegmentum and
pons with compression of the third
ventricle and adjacent structures
Tumor occupies dorsal thalamus, cerebral peduncle, mesencephalic
tegmentum and pons with compression of the third ventricle and
adjacent structures
tegmentum and pons with compression of the third ventricle and
adjacent structures
crushed smears showed loose aggregates of medium sized
hyperchromatic undifferentiated cells with ovoid nuclei, moderate
anisonucleosis, discernible nucleoli, and scant to moderate amounts of
cytoplasm
hyperchromatic undifferentiated cells with ovoid nuclei, moderate
anisonucleosis, discernible nucleoli, and scant to moderate amounts of
cytoplasm
Teratoma
•Tissue derived from ectoderm, endoderm
and mesoderm (at least 2 of 3 germinal
layers)
•Usually well differentiated / grade I of IV
•Congenital cases are usually fatal
•Tissue derived from ectoderm, endoderm
and mesoderm (at least 2 of 3 germinal
layers)
•Usually well differentiated / grade I of IV
•Congenital cases are usually fatal
•Mature teratomas: have well differentiated
tissue from all three germinal layers
•Immature teratomas: have less
differentiated tissue from any of the three
germinal layers
•Poor prognosis: tissue resembling
medulloepithelioma, neuroblastoma,
retinoblastoma or ependymoblastoma
tissue from all three germinal layers
•Immature teratomas: have less
differentiated tissue from any of the three
germinal layers
•Poor prognosis: tissue resembling
medulloepithelioma, neuroblastoma,
retinoblastoma or ependymoblastoma
•Pineal teratomas are more common in
males, but saccrococcygeal teratomas are
more common in females
•Treatment: newborns - complete surgical
excision (difficult)
males, but saccrococcygeal teratomas are
more common in females
•Treatment: newborns - complete surgical
excision (difficult)
MRIof the head shows a mass measuring 4.2 cm in diameter with cystic
contents and small areas of nodular and rim enhancement. The mass
causes marked compression of the cortical mantle throughout the inferior
parietal and temporal regions.
contents and small areas of nodular and rim enhancement. The mass
causes marked compression of the cortical mantle throughout the inferior
parietal and temporal regions.
Choriocarcinoma
•Prognosis poorer than germinoma -
median survival 22 months in cases with
high hCG levels
•Serum levels of hCG are helpful
•Micro: syncytiotrophoblasts (large
multinucleated cells) and cytotrophoblasts
•Positive stains: hCG
•DD: metastatic choriocarcinoma (from
gonads or placenta)
•Prognosis poorer than germinoma -
median survival 22 months in cases with
high hCG levels
•Serum levels of hCG are helpful
•Micro: syncytiotrophoblasts (large
multinucleated cells) and cytotrophoblasts
•Positive stains: hCG
•DD: metastatic choriocarcinoma (from
gonads or placenta)
References
•Diagnostic Neuropathology Smears, 1st
Edition by Joseph, Jeffrey T
•Intraoperative neurocytlogy of primary
CNS neoplasia, Review article by shama
and Deb
•Internet
•Diagnostic Neuropathology Smears, 1st
Edition by Joseph, Jeffrey T
•Intraoperative neurocytlogy of primary
CNS neoplasia, Review article by shama
and Deb
•Internet
THANK YOU
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