Principles of tissue diagnosis
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Jan 07, 2013
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About This Presentation
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Slide Content
Principles of Tissue DiagnosisPrinciples of Tissue Diagnosis
Presented by-
Dr. Fariha Hussain
Intern Doctor
Surgery Unit- 5
ShSMCH
Dr. Fariha Hussain
Intern Doctor
Surgery Unit- 5
ShSMCH
Definition of CellDefinition of Cell
Cell : The cell is the basic structural and
functional unit of all known living
organisms. It is the smallest unit of life
that is classified as a living thing.
There are two basic types of cell :
–Prokaryotic cell
–Eukaryotic cell
Cell : The cell is the basic structural and
functional unit of all known living
organisms. It is the smallest unit of life
that is classified as a living thing.
There are two basic types of cell :
–Prokaryotic cell
–Eukaryotic cell
Prokaryote Vs EukaryoteProkaryote Vs Eukaryote
Definition of TissueDefinition of Tissue
A tissue is an aggregation of cells, not
necessarily identical, but from the same
origin, that together carry out a specific
function.
Animal tissues can be grouped into four basic
types: 1. Connective tissue
2. Muscle tissue
3. Nervous tissue
4. Epithelial tissue
A tissue is an aggregation of cells, not
necessarily identical, but from the same
origin, that together carry out a specific
function.
Animal tissues can be grouped into four basic
types: 1. Connective tissue
2. Muscle tissue
3. Nervous tissue
4. Epithelial tissue
Four types of tissueFour types of tissue
Connective TissueConnective Tissue
Connective tissue is a fibrous tissue.
It is the most diverse tissue and found
throughout the body
Has 3 main components: Cells, Fibers,
and Extracellular matrix
Connective tissue is a fibrous tissue.
It is the most diverse tissue and found
throughout the body
Has 3 main components: Cells, Fibers,
and Extracellular matrix
Connective TissueConnective Tissue
Connective tissue makes up a variety of physical
structures including:
–tendons
–the connective framework of fibers in muscles
–capsules and ligaments around joints
–cartilage
–bone
–adipose tissue
–blood and lymphatic tissue
Connective tissue makes up a variety of physical
structures including:
–tendons
–the connective framework of fibers in muscles
–capsules and ligaments around joints
–cartilage
–bone
–adipose tissue
–blood and lymphatic tissue
Connective TissueConnective Tissue
Functions of connective tissueFunctions of connective tissue
Providing structural framework for the
body
Connection of body tissues
Storage of energy
Protection of organs
Providing structural framework for the
body
Connection of body tissues
Storage of energy
Protection of organs
Epithelial TissueEpithelial Tissue
Epithelial tissues line the cavities and
surfaces of structures throughout the
body, and also form many glands.
Epithelial tissues line the cavities and
surfaces of structures throughout the
body, and also form many glands.
Structure of Epithelial TissueStructure of Epithelial Tissue
Cells in epithelium are very densely
packed together like bricks in a wall,
leaving very little intercellular space
The cells form continuous sheets which
are attached to each other at many
locations by tight junctions
Cells in epithelium are very densely
packed together like bricks in a wall,
leaving very little intercellular space
The cells form continuous sheets which
are attached to each other at many
locations by tight junctions
Structure of Epithelial TissueStructure of Epithelial Tissue
All epithelial cells rest on a basement
membrane, which acts as a scaffolding on
which epithelium can grow.
Cell junctions are especially abundant in
epithelial tissues. They consist of protein
complexes that provide contact
–between neighbouring cells
–between a cell and the extracellular matrix or
–control the paracellular transport.
All epithelial cells rest on a basement
membrane, which acts as a scaffolding on
which epithelium can grow.
Cell junctions are especially abundant in
epithelial tissues. They consist of protein
complexes that provide contact
–between neighbouring cells
–between a cell and the extracellular matrix or
–control the paracellular transport.
Special types of EpitheliumSpecial types of Epithelium
Pseudostratified columnar epithelium: It is a
type of epithelium that, though comprising only a
single layer of cells, has its cell nuclei positioned
in a manner suggestive of stratified epithelia.
Keratinized Epithelium:
–most apical layers (exterior) of cells are dead and lose
their nucleus and cytoplasm
–contain a tough, resistant protein called keratin
Pseudostratified columnar epithelium: It is a
type of epithelium that, though comprising only a
single layer of cells, has its cell nuclei positioned
in a manner suggestive of stratified epithelia.
Keratinized Epithelium:
–most apical layers (exterior) of cells are dead and lose
their nucleus and cytoplasm
–contain a tough, resistant protein called keratin
Special types of EpitheliumSpecial types of Epithelium
Transitional Epithelium:
–found in tissues that stretch
–sometimes called the urothelium
–almost exclusively found in the bladder,
ureters and urethra
Transitional Epithelium:
–found in tissues that stretch
–sometimes called the urothelium
–almost exclusively found in the bladder,
ureters and urethra
Fig: Keratinized Squamous Epithelium
Muscle TissueMuscle Tissue
Muscle cells form the active contractile
tissue of the body known as muscle tissue
Muscle tissue is separated into three
distinct categories:
–visceral or smooth muscle
–skeletal muscle
–cardiac muscle
Muscle cells form the active contractile
tissue of the body known as muscle tissue
Muscle tissue is separated into three
distinct categories:
–visceral or smooth muscle
–skeletal muscle
–cardiac muscle
Structure of muscle tissueStructure of muscle tissue
Stucture of smooth muscle Stucture of smooth muscle
Structure of Cardiac muscleStructure of Cardiac muscle
Nervous TissueNervous Tissue
Nervous tissue is the main component of the
nervous system - the brain, spinal cord, and
nerves-which regulates and controls body
functions.
It is composed of neurons, which transmit
impulses, and the neuroglia cells, which assist
propagation of the nerve impulse and
provide nutrients to the neuron.
Nervous tissue is the main component of the
nervous system - the brain, spinal cord, and
nerves-which regulates and controls body
functions.
It is composed of neurons, which transmit
impulses, and the neuroglia cells, which assist
propagation of the nerve impulse and
provide nutrients to the neuron.
Structure of a NeuronStructure of a Neuron
Methods of tissue diagnosisMethods of tissue diagnosis
Examination of tissues starts with
surgery, biopsy, or autopsy
The tissue is removed from the body and
then placed in a fixative which stabilizes
the tissues to prevent decay
The most common fixative is formalin
Examination of tissues starts with
surgery, biopsy, or autopsy
The tissue is removed from the body and
then placed in a fixative which stabilizes
the tissues to prevent decay
The most common fixative is formalin
What is a Biopsy?What is a Biopsy?
Biopsy is the removal of tissue for the
purpose of diagnostic examination.
Biopsy is the removal of tissue for the
purpose of diagnostic examination.
Principles and Techniques of Principles and Techniques of
BiopsyBiopsy
It is important to develop a systematic
approach in evaluating a patient with a
lesion
BiopsyBiopsy
It is important to develop a systematic
approach in evaluating a patient with a
lesion
These steps include :These steps include :
A detailed health history
A history of the specific lesion
A clinical examination
A radiographic examination
Laboratory investigations
Surgical specimens for histopathologic
evaluation
A detailed health history
A history of the specific lesion
A clinical examination
A radiographic examination
Laboratory investigations
Surgical specimens for histopathologic
evaluation
Medical conditions that Medical conditions that
warrant special care include:warrant special care include:
Coagulopathies
Hypertension
Poorly controlled diabetes
Immunocompromised patients
warrant special care include:warrant special care include:
Coagulopathies
Hypertension
Poorly controlled diabetes
Immunocompromised patients
History of the LesionHistory of the Lesion
Questions to AskQuestions to Ask
Duration of the lesion
Changes in size and rate of change
Changes in the character of the lesion.
–Lump to ulcer, etc
Associated systemic symptoms:
–fever
–nausea
–anorexia
Duration of the lesion
Changes in size and rate of change
Changes in the character of the lesion.
–Lump to ulcer, etc
Associated systemic symptoms:
–fever
–nausea
–anorexia
More Questions to AskMore Questions to Ask
Pain
Abnormal sensations
Anesthesia
A feeling of swelling
Bad taste or smell
Dysphagia
Swelling or tenderness of adjacent lymph
nodes
Character of the pain if present
Pain
Abnormal sensations
Anesthesia
A feeling of swelling
Bad taste or smell
Dysphagia
Swelling or tenderness of adjacent lymph
nodes
Character of the pain if present
Clinical ExaminationClinical Examination
The clinical examination should always
include when possible:
–Inspection
–Palpation
–Percussion
–Auscultation
The clinical examination should always
include when possible:
–Inspection
–Palpation
–Percussion
–Auscultation
Clinical EvaluationClinical Evaluation
The anatomic location of the lesion/mass
The physical character of the lesion/mass
The size and shape of the lesion/mass
Single vs. multiple lesions
The surface of the lesion
The color of the lesion
The sharpness of the boundaries of the lesion
The consistency of the lesion to palpation
Presence of pulsation
Lymph node examination
The anatomic location of the lesion/mass
The physical character of the lesion/mass
The size and shape of the lesion/mass
Single vs. multiple lesions
The surface of the lesion
The color of the lesion
The sharpness of the boundaries of the lesion
The consistency of the lesion to palpation
Presence of pulsation
Lymph node examination
Radiographic ExaminationRadiographic Examination
The radiographic appearance may provide
clues that will help determine the nature of the
lesion.
A radiolucency with sharp borders will often be
a cyst
A ragged radiolucency will often be a more
aggressive lesion
Radiopaque dyes and instruments can help
differentiate normal anatomy
The radiographic appearance may provide
clues that will help determine the nature of the
lesion.
A radiolucency with sharp borders will often be
a cyst
A ragged radiolucency will often be a more
aggressive lesion
Radiopaque dyes and instruments can help
differentiate normal anatomy
Indications for BiopsyIndications for Biopsy
Any lesion that persists for more than 2 weeks
with no apparent etiologic basis
Any inflammatory lesion that does not respond
to local treatment after 10 to 14 days.
Persistent hyperkeratotic changes in surface
tissues.
Any persistent tumescence (swelling) either
visible or palpable beneath relatively normal
tissue.
Any lesion that persists for more than 2 weeks
with no apparent etiologic basis
Any inflammatory lesion that does not respond
to local treatment after 10 to 14 days.
Persistent hyperkeratotic changes in surface
tissues.
Any persistent tumescence (swelling) either
visible or palpable beneath relatively normal
tissue.
Indications for BiopsyIndications for Biopsy
Inflammatory changes of unknown cause that
persist for long periods
Lesion that interfere with local function
Bone lesions not specifically identified by
clinical and radiographic findings
Any lesion that has the characteristics of
malignancy
Inflammatory changes of unknown cause that
persist for long periods
Lesion that interfere with local function
Bone lesions not specifically identified by
clinical and radiographic findings
Any lesion that has the characteristics of
malignancy
Characteristics of lesions that raise the Characteristics of lesions that raise the
suspicion of malignancysuspicion of malignancy
Erythroplasia- lesion is totally red or has a speckled red
appearance.
Ulceration- lesion is ulcerated or presents as an ulcer.
Duration- lesion has persisted for more than two weeks.
Growth rate- lesion exhibits rapid growth
Bleeding- lesion bleeds on gentle manipulation
Induration- lesion and surrounding tissue is firm to the
touch
Fixation- lesion feels attached to adjacent structures
suspicion of malignancysuspicion of malignancy
Erythroplasia- lesion is totally red or has a speckled red
appearance.
Ulceration- lesion is ulcerated or presents as an ulcer.
Duration- lesion has persisted for more than two weeks.
Growth rate- lesion exhibits rapid growth
Bleeding- lesion bleeds on gentle manipulation
Induration- lesion and surrounding tissue is firm to the
touch
Fixation- lesion feels attached to adjacent structures
Types of BiopsyTypes of Biopsy
Fine neeedle aspiration biopsy/cytology
(FNAB or FNAC)
Tru-cut biopsy
Incisional biopsy
Excisional biopsy
Cone biopsy
Wedge biopsy
Frozen section biopsy
Fine neeedle aspiration biopsy/cytology
(FNAB or FNAC)
Tru-cut biopsy
Incisional biopsy
Excisional biopsy
Cone biopsy
Wedge biopsy
Frozen section biopsy
Fine Needle Aspiration BiopsyFine Needle Aspiration Biopsy
Aspiration biopsy is the use of a needle and syringe
to penetrate a lesion for aspiration of its contents.
Indications:
–To determine the presense of fluid within a lesion
–The type of fluid within a lesion
–When exploration of an intraosseous lesion is
indicated
Aspiration biopsy is the use of a needle and syringe
to penetrate a lesion for aspiration of its contents.
Indications:
–To determine the presense of fluid within a lesion
–The type of fluid within a lesion
–When exploration of an intraosseous lesion is
indicated
AspirationAspiration
An 18 gauge needle on a 5 or 10 ml
syringe is inserted into the area under
investigation after anesthesia is obtained.
The syringe is aspirated and the needle
redirected if necessary to find the fluid
cavity.
An 18 gauge needle on a 5 or 10 ml
syringe is inserted into the area under
investigation after anesthesia is obtained.
The syringe is aspirated and the needle
redirected if necessary to find the fluid
cavity.
FNACFNAC
Tru-cut biopsyTru-cut biopsy
The tru-cut biopsy aims to provide the
pathologist with a core of undamaged
tissue from the lesion.
The procedure is performed using a
specially designed needle known as the
Trucut needle
The tru-cut biopsy aims to provide the
pathologist with a core of undamaged
tissue from the lesion.
The procedure is performed using a
specially designed needle known as the
Trucut needle
PRINCIPLE OF TRUCUT BIOPSYPRINCIPLE OF TRUCUT BIOPSY
Incisional BiopsyIncisional Biopsy
An incisional biopsy is a biopsy that
samples only a particular portion or
representative part of a lesion.
If a lesion is large or has different
characteristics in various locations more
than one area may need to be sampled
An incisional biopsy is a biopsy that
samples only a particular portion or
representative part of a lesion.
If a lesion is large or has different
characteristics in various locations more
than one area may need to be sampled
Incisional BiopsyIncisional Biopsy
Indications:
–Size limitations
–Hazardous location of the lesion
–Great suspicion of malignancy
Technique:
–Representative areas are biopsied in a wedge fashion.
–Margins should extend into normal tissue on the deep
surface.
–Necrotic tissue should be avoided.
–A narrow deep specimen is better than a broad shallow
one.
Indications:
–Size limitations
–Hazardous location of the lesion
–Great suspicion of malignancy
Technique:
–Representative areas are biopsied in a wedge fashion.
–Margins should extend into normal tissue on the deep
surface.
–Necrotic tissue should be avoided.
–A narrow deep specimen is better than a broad shallow
one.
Incisional BiopsyIncisional Biopsy
Excisional BiopsyExcisional Biopsy
An excisional biposy implies the complete removal of
the lesion.
Indications:
–Should be employed with small lesions. Less than 1cm
–The lesion on clinical exam appears benign.
–When complete excision with a margin of normal tissue is
possible without mutilation.
An excisional biposy implies the complete removal of
the lesion.
Indications:
–Should be employed with small lesions. Less than 1cm
–The lesion on clinical exam appears benign.
–When complete excision with a margin of normal tissue is
possible without mutilation.
Excisional BiopsyExcisional Biopsy
Technique:
–The entire lesion with 2 to 3mm of normal
appearing tissue surrounding the lesion is excised
if benign.
Technique:
–The entire lesion with 2 to 3mm of normal
appearing tissue surrounding the lesion is excised
if benign.
Wedge BiopsyWedge Biopsy
An excisional biopsy in which a lesion
identified at the time of a surgical
procedure is removed, with a wedge of
normal surrounding tissue
An excisional biopsy in which a lesion
identified at the time of a surgical
procedure is removed, with a wedge of
normal surrounding tissue
Wedge BiopsyWedge Biopsy
Cone BiopsyCone Biopsy
A cone biopsy is an extensive form of a cervical
biopsy
It is called a cone biopsy because a cone-shaped
wedge of tissue is removed from the cervix and
examined under a microscope
A small amount of normal tissue around the
cone-shaped wedge of abnormal tissue is also
removed so that a margin free of abnormal
cells is left in the cervix.
A cone biopsy is an extensive form of a cervical
biopsy
It is called a cone biopsy because a cone-shaped
wedge of tissue is removed from the cervix and
examined under a microscope
A small amount of normal tissue around the
cone-shaped wedge of abnormal tissue is also
removed so that a margin free of abnormal
cells is left in the cervix.
Cervical Cone BiopsyCervical Cone Biopsy
Frozen Section BiopsyFrozen Section Biopsy
This technique allows examining
histologic sections within a few minutes
of removing the specimen from the
patient.
The quality of the tissue sections is not as
good as those of the permanent section.
Commonly done intraoperatively for
quick results.
This technique allows examining
histologic sections within a few minutes
of removing the specimen from the
patient.
The quality of the tissue sections is not as
good as those of the permanent section.
Commonly done intraoperatively for
quick results.
Frozen Section BiopsyFrozen Section Biopsy
Technique: The tissue is frozen and
sliced thinly using a microtome mounted
in a below-freezing refrigeration device
called the cryostat.
The thin frozen sections are mounted on
a glass slide, fixed immediately in liquid
fixative, stained and examined under
microscope.
Technique: The tissue is frozen and
sliced thinly using a microtome mounted
in a below-freezing refrigeration device
called the cryostat.
The thin frozen sections are mounted on
a glass slide, fixed immediately in liquid
fixative, stained and examined under
microscope.
Biopsy guidanceBiopsy guidance
Blindly without any guidance
X-ray to see the location
USG guided
CT guided
MRI guided
Blindly without any guidance
X-ray to see the location
USG guided
CT guided
MRI guided
Principles of Surgery for Principles of Surgery for
BiopsyBiopsy
BiopsyBiopsy
AnesthesiaAnesthesia
Block anesthesia is preferred to
infiltration
When blocks are not possible distant
infiltration may be used
Never inject directly into the lesion
Block anesthesia is preferred to
infiltration
When blocks are not possible distant
infiltration may be used
Never inject directly into the lesion
Tissue StabilizationTissue Stabilization
Digital stabilization
Specialized retractors/forceps
Retraction sutures
Towel Clips
Digital stabilization
Specialized retractors/forceps
Retraction sutures
Towel Clips
HemostasisHemostasis
Gauze compresses are usually adequate
Suction devices should be avoided
Gauze compresses are usually adequate
Suction devices should be avoided
IncisionsIncisions
Incisions should be made with a scalpel.
They should be converging
Should extend beyond the suspected depth of the lesion
They should parallel important structures
Margins should include 2 to 3mm of normal appearing
tissue if the lesion is thought to be benign.
5mm or more may be necessary with lesions that appear
malignant, vascular, pigmented, or have diffuse borders.
Incisions should be made with a scalpel.
They should be converging
Should extend beyond the suspected depth of the lesion
They should parallel important structures
Margins should include 2 to 3mm of normal appearing
tissue if the lesion is thought to be benign.
5mm or more may be necessary with lesions that appear
malignant, vascular, pigmented, or have diffuse borders.
Handling of the Tissue Handling of the Tissue
SpecimenSpecimen
Direct handling of the lesion will expose
it to crush injury resulting in alteration
the cellular architecture.
SpecimenSpecimen
Direct handling of the lesion will expose
it to crush injury resulting in alteration
the cellular architecture.
Specimen CareSpecimen Care
The specimen should be immediately
placed in 10% formalin solution, and be
completely immersed.
The specimen should be immediately
placed in 10% formalin solution, and be
completely immersed.
Margins of the BiopsyMargins of the Biopsy
Margins of the tissue should be identified
to orient the pathologist. A silk suture is
often adequate.
Margins of the tissue should be identified
to orient the pathologist. A silk suture is
often adequate.
Biopsy Data SheetBiopsy Data Sheet
A biopsy data sheet should be completed
and the specimen immediately labeled.
All pertinent history and descriptions of
the lesion must be conveyed.
A biopsy data sheet should be completed
and the specimen immediately labeled.
All pertinent history and descriptions of
the lesion must be conveyed.
Conditions identified with biopsyConditions identified with biopsy
Cancer
Precancerous conditions
Inflammatory conditions
Infections e.g. Tuberculosis
Autoimmune disorders e.g. lupus
Cancer
Precancerous conditions
Inflammatory conditions
Infections e.g. Tuberculosis
Autoimmune disorders e.g. lupus
Biopsy ResultsBiopsy Results
A biopsy is most commonly done to
indentify malignancy
A biopsy is most commonly done to
indentify malignancy
Characteristics of Benign and Characteristics of Benign and
Malignant neoplasmsMalignant neoplasms
In the great majority of instances, the
differentiation of a benign from a malignant
tumor can be made morphologically with
considerable certainty
There are criteria by which benign and
malignant tumors can be differentiated
Malignant neoplasmsMalignant neoplasms
In the great majority of instances, the
differentiation of a benign from a malignant
tumor can be made morphologically with
considerable certainty
There are criteria by which benign and
malignant tumors can be differentiated
Characteristics of Benign and Characteristics of Benign and
Malignant neoplasmsMalignant neoplasms
These differences can be discussed under the
following headings:
(1) Differentiation and anaplasia
(2) Rate of growth: Most malignant tumours
are rapidly growing
(3) Local invasion: Malignant tumours may be
locally invasive
(4) Metastasis: Occurs in malignant tumours
Malignant neoplasmsMalignant neoplasms
These differences can be discussed under the
following headings:
(1) Differentiation and anaplasia
(2) Rate of growth: Most malignant tumours
are rapidly growing
(3) Local invasion: Malignant tumours may be
locally invasive
(4) Metastasis: Occurs in malignant tumours
DIFFERENTIATION AND ANAPLASIADIFFERENTIATION AND ANAPLASIA
Differentiation: Differentiation refers to the
extent to which parenchymal cells resemble
comparable normal cells, both
morphologically and functionally
–Well-differentiated tumors are thus composed of
cells resembling the mature normal cells of the
tissue of origin of the neoplasm
–Poorly differentiated or undifferentiated tumors
have primitive-appearing, unspecialized cells
Differentiation: Differentiation refers to the
extent to which parenchymal cells resemble
comparable normal cells, both
morphologically and functionally
–Well-differentiated tumors are thus composed of
cells resembling the mature normal cells of the
tissue of origin of the neoplasm
–Poorly differentiated or undifferentiated tumors
have primitive-appearing, unspecialized cells
DIFFERENTIATION AND ANAPLASIADIFFERENTIATION AND ANAPLASIA
Anaplasia: Malignant neoplasms
composed of undifferentiated cells are
said to be anaplastic
Indeed, lack of differentiation, or
anaplasia, is considered a hallmark of
malignant transformation
Anaplasia: Malignant neoplasms
composed of undifferentiated cells are
said to be anaplastic
Indeed, lack of differentiation, or
anaplasia, is considered a hallmark of
malignant transformation
Microscopic features of malignancyMicroscopic features of malignancy
Loss of normal tissue architecture
Increased mitotic rate: Mitoses are rarely seen in
normal tissues. Malignant cells will often have
increased numbers of mitoses
Pleomorphism: Malignant cells may show a
range of shapes and sizes, in contrast to regularly
sized normal cells. The nuclei of malignant cells
are often very large and may contain prominent
nucleioli
Loss of normal tissue architecture
Increased mitotic rate: Mitoses are rarely seen in
normal tissues. Malignant cells will often have
increased numbers of mitoses
Pleomorphism: Malignant cells may show a
range of shapes and sizes, in contrast to regularly
sized normal cells. The nuclei of malignant cells
are often very large and may contain prominent
nucleioli
Microscopic features of Microscopic features of
malignancymalignancy
Hyperchromatic nuclei: The nuclei of malignant
cells typically stain a much darker colour than their
normal counterparts
High nuclear-cytoplasmic ratio: The nuclei of
malignant cells often take up a large part of the cell
compared with normal cell nuclei
Giant cells: Some malignant cells may coalesce
into so-called giant cells, which might contain the
genetic material of several smaller cells.
malignancymalignancy
Hyperchromatic nuclei: The nuclei of malignant
cells typically stain a much darker colour than their
normal counterparts
High nuclear-cytoplasmic ratio: The nuclei of
malignant cells often take up a large part of the cell
compared with normal cell nuclei
Giant cells: Some malignant cells may coalesce
into so-called giant cells, which might contain the
genetic material of several smaller cells.
Microscopic features of Microscopic features of
malignancymalignancy
Angiogenesis - malignant tumours must
form new blood vessels in order to expand
locally. Angiogenesis is also important for
metastasis.
malignancymalignancy
Angiogenesis - malignant tumours must
form new blood vessels in order to expand
locally. Angiogenesis is also important for
metastasis.
Normal Vs Malignant tissueNormal Vs Malignant tissue
Normal Vs Malignant tissueNormal Vs Malignant tissue
Normal Vs Malignant CellsNormal Vs Malignant Cells
A. Normal Papanicolaou smear from the uterine cervix. Large, flat cells with small
nuclei. B, Abnormal smear containing a sheet of malignant cells with large
hyperchromatic nuclei. There is nuclear pleomorphism, and one cell is in mitosis
A. Normal Papanicolaou smear from the uterine cervix. Large, flat cells with small
nuclei. B, Abnormal smear containing a sheet of malignant cells with large
hyperchromatic nuclei. There is nuclear pleomorphism, and one cell is in mitosis
Tumour giant cellTumour giant cell
Malignant cells with an osteoclast-type giant cell
Malignant cells with an osteoclast-type giant cell
Malignant Epithelpoid CellsMalignant Epithelpoid Cells
Immunohistochemical staining : (a) Normal (non-neoplastic) breast tissue; Note
staining in normal ducts. (b) Human breast carcinoma (infiltrating ductal carcinoma);
formalin-fixed, paraffin-embedded tissue. Note strong membranous staining in breast
cancer. (c) Normal (non-neoplastic) breast tissue; frozen tissue. Note staining in normal
ducts. (d) Human breast carcinoma; frozen tissue. Note staining of invasive breast
carcinoma.
staining in normal ducts. (b) Human breast carcinoma (infiltrating ductal carcinoma);
formalin-fixed, paraffin-embedded tissue. Note strong membranous staining in breast
cancer. (c) Normal (non-neoplastic) breast tissue; frozen tissue. Note staining in normal
ducts. (d) Human breast carcinoma; frozen tissue. Note staining of invasive breast
carcinoma.
Biopsy Results: What If ?Biopsy Results: What If ?
They don’t corroborate your clinical impression
–Repeat the biopsy
–Determine if the tissue was looked at by an
experienced Pathologist
They don’t corroborate your clinical impression
–Repeat the biopsy
–Determine if the tissue was looked at by an
experienced Pathologist
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