Neoplasm Full PDF

Summary

This document provides an overview of neoplasm, encompassing definitions, terminology, pathogenesis, types, and laboratory diagnostic methods. It also examines the causes, effects, and treatments of neoplasms. The content is aimed at a veterinary science postgraduate audience.

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NEOPLASM

By

Prof. A.K. Srivastava

Department of Pathology
Sanskaram college of Veterinary Science, Jhajjar
 DEFINITION
By Vegad-
Neoplasm is a growth of new cells that proliferates without
control, serves no useful function and has no orderly arrangements.
By Mallory-
A neoplasm is a growth of new cell which-
1) Proliferates continuously without control
2) Bears considerable resemblance to the healthy cell from which they arise
3) Has no orderly arrangement
4) Serve no useful purpose
5) Has no clearly understood cause
 Terminology
Oncology- Study of tumor (benign or malignant) is called oncology.
Tumor- It is used to designate especially benign neoplasm.
Benign tumor- A benign tumor that does not grow in aggressive manner,
does not invade surrounding tissue and has no feature of
metastasis.
Malignant tumor- A malignant tumor multiplies very rapidly that bearing
high degree of pleomorphic cells showing mitotic figures without
orderly arrangement and has characteristic feature of metastasis.
Cancer- Malignant tumors are called as cancer.
Incomplete carcinogen- The chemical carcinogen which acts as
initiator of tumour formation is called
incomplete carcinogen. This usually produce
benign tumor.

Tumour marker- A chemical substance which either secreted by the
cancerous cell or produced by the body in response to
developing cancer is called Tumour marker.

Metastasis- Spread of cancerous cells from primary site to secondary
areas of the body this may be regional or distant is called
metastasis.

Carcinogen- Any agent that causes tumor formation is called carcinogen.
Ultimate carcinogen- Indirect chemical carcinogen such as
poly cyclic aromatic hydrocarbons
requires metabolic conversion to
transform into potent active form of carcinogen
that develops full blown cancer is called as
Ultimate carcinogen.
Complete carcinogen- The chemical carcinogen having properties of
both initiation and promotion of neoplasm is
called complete carcinogen. They are said to be
weak carcinogen.
Incomplete carcinogen- The chemical carcinogen which acts as
initiator of tumor formation is called incomplete\
carcinogen. This usually produce benign tumor.
Tumor marker- A chemical substance which either secreted by the
cancerous cell or produced by the body in response
to developing cancer is called Tumor Marker.
Metastasis- Spread of cancerous cells from primary site to secondary
areas may be regional or distant is called metastasis.
Initiator- The chemical carcinogen having potential to initiates the
irreversible process of tumor formation is called initiator.
Promoter- Promotor is a chemical substance that is not carcinogenic but
has the potential to accelerate the process of tumor formation
once it is initiated.
Proto-oncogene- Normal gene present in the body responsible for
physiological replication of cells. It is precursor of
tumor producing gene (oncogene).
Oncogene- It is the abnormal gene (mutated version of a proto-
oncogene) responsible for generation & replication of even
those cells that are destined for apoptosis in normal
condition. The affected cells survive and proliferate
continuously to form cancerous cell.
Onco-supressor gene- Normal gene present in the body restricting
replication of the cells beyond physiological limits.
P 53gene- Identified as one of the onco-supressor gene. It produces 53
KD nuclear phospho-protein. Its role is in controlling cell
cycle, repair and synthesis of DNA, differentiation of cell
and to induce apoptosis. In normal cell this protein has a
very short life and does not accumulate to detectable level.
P53 gene has been described as "the guardian of
the genome" because of its role in conserving stability by
preventing genome mutation.
PATHOGENESIS OF CANCER
Differences between Benign and Malignant tumor
Benign tumor Malignant tumor
1- Occurs singly 1-Single or multiple
2 Shape rounded, elliptical, wart 2-Shape is irregular
like, pedunculated.
3- Encapsulation is present 3- Encapsulation is not present
4- Rate of growth is slow 4- Rate of growth is fast
5- Degenerative and necrotic 5- Degenerative and necrotic
changes minimal changes minimal
6- Removal is not difficult 6- Removal is difficult
7- Not toxic 7- Always toxic
8- No recurrence after removal 8- Recurrence after removal
Differences between Benign and Malignant tumor
Benign tumor Malignant tumor
9- No metastasis 9- Metastasis is present
10-Death does not occur 10-Death usually occur
11-Cells appear normal 11- Cells are abnormal
12- Minimal anaplasia 12- High degree of anaplasia
13-Growth not below basement 13- Growth mostly below
membrane basement membrane
14- Growth confined in the CT 14- Growth not confined in the CT
Capsule Capsule
15-Growth not beyond the blood 15-Growth beyond the blood
supply supply
16- Slight degenerative changes 16- High degenerative changes
 MMMMMMMMMMM
a. Nucleus and nucleus not a. Both are enlarged
enlarged.
b. Shape of nucleus not altered b. Variation of shape seen.
c. Nucleus normlchromic. c.Hyperchromasia of nucleus.
d. Nucleolar: nuclear ratio not d. Ratio increased.
altered. e. Sometimes multi nucleated.
e. Number of nuclei in the cell
normal. f. Ratio decreased.
f. Cytopasmic: nuclear ratio
unaltered.
Four types of the gene that control cancer

1-Proto oncogene- a growth promoting gene

2-Tumour suppressing gene- a growth inhibiting gene
3-Gene that regulates Programmed cell death (apoptosis)

4-Gene involved in DNA repair
 Immune Surveillance

Paul Ehrich stated that the cancer cells are frequently
arise in the normal body but are recognized as foreign and
efficiently eliminated by the immune system.
Later, Lewis Thomas suggested that the cell mediated
immune (CMI) system had evolved to petrol the body and
eliminates the cancer cells. Therefore, any impairment of
immune response results the cancer in the body.
 TUMOR ANTIGENS
Any protein produced by a tumor cell or by the host cell in response to
tumor that usually foreign to the host is called tumor antigen. Tumor
antigen is an antigenic substance produced by tumor cells/ host cell
that triggers an immune response in the host.

Broadly, there are two types of tumor antigens-

1. Tumor-specific antigens- The proteins (antigen) that are only produced by
tumor cells are called tumor-specific antigens
2. Tumor associated antigen-The proteins (antigen) produced by tumor
cell as well as host cells are called tumor associated antigen.
 TUMOUR SPECIFIC ANTIGEN
This antigen is produced/expressed only by the tumor cell
due to mutation of proto-oncogene and tumor suppressors
gene which lead to abnormal protein production are
called tumor-specific antigens.
This protein is present only on tumor cells that can be
recognized by cytotoxic T-lymphocytes. Such type of TSA is
usually generated by the chemical carcinogens.
Examples of tumor-specific antigens include the abnormal
products of ras and p53 genes.
 Since these antigens induce resistant to tumor transplant, they are
referred to as tumor specific transplantation antigens (TSTAs).
TSA are mutant protein antigens that are likely to be much more
specific to cancer cells because normal cells should not contain
these proteins.
TSTS produced due to physical, chemical or viral mutagens.
This tumor antigen induces CMI response by tumor specific
cytotoxic T cell. The immune system detects and eliminates these
tumor cells by recognizing the antigen expressed on cell surface.
 Certain proteins that are produced by normal cell during fetal life
when the immune system is immature and unable to respond but that
normally expressed in the adults due to reactivation of embryonic
gene that encode onco-fetal proteins.
In tumorous condition in tumor cells result in their expression on the
fully differentiated cell.
TAA may also be proteins that are normally expressed at extremely
low level on normal cells but are expressed at much higher levels on
tumor cells.
❖ TSTA which are unique to tumor cells and not expressed on normal
cells. They are responsible for rejection of the tumor.
 TUMOUR ASSOCIATED ANTIGENS
In contrast to tumor specific antigen (TSA), mutation of
other genes unrelated to the tumor formation may lead to
synthesis of abnormal proteins that are called tumor-
associated antigens,
TSA are present on some tumor cells and also some normal
cells.
Some of these antigens may be secreted while others are
membrane-associated molecules.
 Examples
Proteins that are normally produced in very low quantities but
whose production is dramatically increased in tumor cells, trigger
an immune response.
An example of such a protein is the enzyme tyrosinase, which is
required for melanin production. Normally tyrosinase is produced
in minute quantities but its levels are very much elevated
in melanoma cells.
Oncofetal antigens are another important class of tumor
antigens. Examples are alphafetoprotein (AFP)
and carcinoembryonic antigen (CEA).
These proteins are normally produced in the early stages of
embryonic development and disappear by the time the immune
system is fully developed.
 Bence Jones protein
Bence Jones protein is a monoclonal globulin protein or
immunoglobulin light chain found in the urine, with a
molecular weight of 22-24 kDa that is produced in excess
by an abnormal monoclonal proliferation of plasma cells,
typically in multiple myeloma.
Detection of Bence Jones protein in urine may be
suggestive of multiple myeloma.
About 50% to 80% of people with multiple myeloma have
Bence-Jones proteins in their urine.
The first biochemical Tumor Marker to be discovered was
the Bence Jones proteins in urine.
 Anti tumor mechanism

The immune system comprises of cell mediated and humoral
immune response play an important role in anti tumor
mechanism.
The various cells participates in anti tumor activity are –
1-Cytotoxic T cell (CTL)
2-Natural Killer (NK / CD 16) cell
3-Macrophage
4-Humoral mechanism
 1-Cytotoxic T cell (CTL)
CTLs are the major immune defense mechanism against
tumors.
Most cytotoxic T cells express T-cell receptors (TCRs) that can
recognize a specific antigen.
CTLs recognize peptide derived from cytoplasmic proteins that
are displayed on to MHC-1 molecules.
CTLs play a protective role against virus associated neoplasm.
CTL that are sensitized to tumour specific antigen (TSA) and
perhaps other tumor antigens kills the tumor cells.
 2-Natural Killer (NK / CD 16) cell

The cell is capable of destroying tumour cells without prior
sensitization.
It forms first line of defense against tumour cells.
It recognizes neo-antigens that are expressed on tumour
cells and the cells that have undergone DNA damage.
It attacks tumor cells directly without antibody coating or by
antibody dependent cell cytotoxicity (ADCC) utilizing the Fc
receptor on the NK cells.
 3-Macrophage

The cytokines like interferon ƴ secreted by T cells and NK
cells is a potent activator of macrophages against tumor cells.

Macrophages surround the tumor cell identifying presence of
foreign antigens.

Macrophages may kill the tumor cells by ADCC.

Macrophage produces cytokines like TNF alfa inducing
hemorrhages and necrosis of the tumor cells.
 METASTASIS
Development of secondary growth in remote tissue that is
discontinuous to the primary tumour
Hematogenous spread:
❖Seen in mesenchymal tumour (Sarcoma)
❖Arteries are much more resistant to invasion than veins and
lymphatics not because of thickness but also presence of elastin.
Lymphatic spread:
❖Seen in epithelial and glandular tumour (Carcinoma)
❖ This spread involves the regional lymph nodes.
Spread by nerves: Cancer cell may sometime travel along the
perineural lymphatics.
 Infiltration &Expansion:
❖Infiltrating cancer: Cancer that has spread beyond the layer of
tissue in which it developed and is growing into surrounding (or
expand in to the surrounding), healthy tissues. Also called Invasive
cancer.
Seeding of body cavities and surfaces:
Transfer of tumour cell from one serous /mucous surface to
another.
❖Implantation: Implantation the cancer cells may occur by;
✓ Coitus: Transmissible Venereal granuloma in dog is transmitted by
coitus.
✓By inoculation: While operating on a tumor, the surgeon
may implant some neoplastic cells on the edges of the wound
where new tumor may develop.

✓By natural passages: Cells of Cancer growing on the lining
surface of hollow organs may cast into the lumen & may be
implanted in other areas. eg. Carcinoma of the renal pelvis
may be washed down to the bladder.
Metastasis by infiltration, blood vessels and lymphatics
 ETIOLOGY

Intrinsic Factors
❖ Heredity

❖ Age

❖ Pigmentation

❖ Sex

❖ Tumour Immunity
 Extrinsic Factors

❖ Chemical Carcinogens
❖ Radiant Energy
❖ Chronic Irritation
❖ Hormones
❖ Parasites
❖ Oncogenic Viruses
Chemical Carcinogens
Direct Acting Agents –
- Alkylating Agents
- Anticancer Drugs- eg. Cyclophosphamide
Indirect Acting Agents –
- Polycyclic, Heterocyclic aromatic
compounds
- Aromatic Amines
- Natural Plant & Microbial Product
- Miscellaneous Agents
AMES TEST
Radiation Carcinogens - UV Rays, X-Rays, Nuclear fission
THEORIES OF RADIATION CARCINOGENESIS

1- Direct theory- Chromosomal break down

2- Indirect theory- Ionization of water

3- Miscellaneous theory- Activation of Suppressor gene
IONIZING RADIATION
 Chronic Irritation
❑ Clay pipe smoker
❑ Kangari basket
❑ Chutta smoker
❑ Sharpe teeth
❑ Gall stone/Kidney stone
❑ Yoke
 Hormones
Hormonal imbalance
Estrogen, Progesterone, Testosterone &
Corticosteroid
Increases production of growth factors
Chemical structure resembling polycyclic
Hydrocarbon (Carcinogen)
High estrogen level leads to mammary
tumors in mice.
Lynoral (Sythetic), Premarin (Natural)
 Parasites
Spirocera lupi -Fibrosarcoma in
oesophagus of dogs
Cysticercus fasciolaris – fibrosarcoma in
rat liver
Eimeria stiedae – bile duct tumour in
rabbits
Schistosoma haematobium –Carcinoma of
Urinary bladder in man
Gongylonema neoplasticum- Carcinoma
of Gastric mucosa in rats.
 Oncogenic Viruses

 In 1876 Novinsky successfully transplanted venereal granuloma from one
dog to another.
 Ellermann and Bang in 1908 identified oncogenic virus of Avian
Leucosis
 In 1910 found virus in fowl sarcoma
 In 1933 discovered papilloma virus in rabbits.
GRADING OF TUMOUR
&
CLINICAL EFFECTS
&
DIAGNOSIS
 GRADING OF TUMOUR
Grading of cancer based on –
(1) Size of growth
(2) Pleomorphism of cell
(3) Hyperchromatism of nuclei
(3) Number of mitoses within the cell.
(4) Orientation of cell
(5) Nodal spread
(6) Metastasis of tumor cell
 Grading of Tumour
1- TNM Method-
T – Tumour mass T0, T1, T2, T3, T4
N- Nodal spread N0, N1, N2, N3, N4
M- Metastasis M0, M1, M2, M3, M4
❖T1, N0,M0 – Prognosis fair
❖T3, N4, M2- Prognosis grave
2- Grading Method-
May be classified as Grade I, II, III, IV
 EFFECTS OF NEOPLASM
1- CANCER CACHEXIA (WASTING)

 Many cancer patient suffer from loss of body fat & lean body
mass, anemia.
 Due to Production of TNF and IL-1 released by activated
macrophages causing anorexia.
 Inhibits the action of Lipoprotein lipase preventing release of
fatty acid from lipoproteins.
CLINICAL EFFECTS OF NEOPLASM
1-CANCER CACHEXIA (WASTING).
❖Many cancer patient suffer from loss of
body fat & lean body mass, anemia.
❖Due to Production of TNF and IL-1
released by activated macrophages
causing anorexia.
❖Inhibits the action of Lipoprotein lipase
preventing release of fatty acid from
lipoproteins.
 2-Paraneoplastic syndrome
(Due to secondary effect of neoplasm)
Due to secondary effect of
❑ Hormonal effects
neoplasm
o Tumour of Anterior pituitary
 Pressure atrophy
involving causes Gigantism.
 Obstruction: o Tumour of Paratyphoid
 Destruction of tissue, blood results in Osteoporosis &
vessels & nerves ‘Big Head’
 Infection o Tumour of Sertoli-cells cause
 Anemia: feminization in male.
o Tumour of adrenal gland
 Death
causes Cushing’s syndrome.
 Types of Benign tumours

Papilloma- Stratified squamous epith. cells Chondroma- Cartilage
Adenoma- Glandular epithelium Osteoma- Bone
Fibroma – Connective tissue- Nasal Leiomyoma- Smooth muscles
Polyps Rhabdomyoma- Skeletal or cardiac
a) Fibroma Durum- Firm and hard muscle
b) Firoma Molle – Soft –Gingival Melanoma- Melanocyte
fibroma (epulus) Hemangioma- Blood vessels
Myxoma- Embryonal connective tissue
Lipoma – Adipose tissue
 Types of Malignant tumours

Squamous cell carcinoma Osteosarcoma
❖ Ethemoid carcinoma Leiomyosarcoma
❖ Basal cell carcinoma
Rhabdomyosarcoma
Adenocarcinoma
Melanosarcoma
Fibrosarcoma
Hemangiosarcoma
Myxosarcoma
Histeosarcoma – Canine venereal
Liposarcoma
granuloma
Chondrosarcoma
PAPILLOMA
Papilloma- Tree man
SQUAMOUS CELL CARCINOMA
LIPOMA
FIBROMA
FIBROMA MOLLE
FIBROSARCOMA
OSTEOMA
ADENOMA
CHONDROMA
HEMANGIOMA
 Canine Venereal Granuloma
(Histiosarcoma)
Synonyms- Canine transmissible venereal tumour, Canine
condyloma, Sticker tumour, transmissible sarcoma,
transmissible lymphosarcoma.
Novinsky successfully transmitted
Grossly- Single or multiple small to large, soft or friable,
sessile or pedunculated, nodular or papillary mass, grey or red
in colour, ulcerate and protrude from genitalia
Microscopically- Large ,round oval, polyhedral with indistinct
boundary, poorly stained, Nucleus large round or oval
MALE DOG FEMALE DOG

VENEREAL GRANULOMA
VENEREAL GRANULOMA
MIXED MAMMARY GLAND TUMOUR
Mixed mammary gland tumour Mixed salivary gland tumour
 Dermoid cyst
Dermoid cyst is composed only of dermal
and epidermal elements (which are both
ectodermal in origin).
It contains multiple skin appendages such as
hair, hair follicles, teeth, or sweat glands and
sometimes nerves.
Dermoid cysts usually located at the
junction of dermis and sub cutis of face,
inside the skull, on the lower back and in the
ovaries.
Dermoid cysts grow slowly.
DERMOID CYST IN OVARY
 TERATOMA
Teratoma is a rare and compound type of tumor arising due to
embryonic defects and consist tissue developing from all germ
layers.
Usually totipotential or multipotential embryonic cells give rise
teratomas.
Cohnheim’s cell rest theory explains the origin of teratoma.
Commonly in ovaries, and testicles, but can occur elsewhere in the
body.
Teratomas also comprise mesodermal and endodermal elements.
 TypeS of teratoma

Mature teratomas are usually benign (not malignant). But they
may grow back after being surgically removed. More in horse
in testes, less common in ovaries in cattle and dog.
Immature teratomas are more likely to develop into a malignant
cancer of any cell.
1- HISTOLOGICAL & CYTOLOGICAL METHODS-
❖ Pleomorphism
❖ Disturbed orientation
❖Mitotic count
❖Tumor body giant cell
❖Changed ratio of cytoplasm and nucleus
❖Changed ratio of nucleus and nucleolus
PLEOMORHISM OF CELL
DISTURBED ORIENTATION
 Mitotic count
Mitotic activity should be
reported as an average over 10
hpf (40×) be counted to
determine a statistically valid
average.
Generally, 30 hpf are sufficient.
But occasionally 50 or
more hpf may be needed.
TUMOR BODY GIANT CELL
 Nuclear morhometry
Anisokaryosis
Nuclear Enlargement
Changes in nuclear chromatin
pattern
Any nuclear abnormality
This is important feature of
neoplasm.
CHARACTER OF CANCEROUS CELLS
 2-Papanicolaou test (Pap Test)
 It is a method of cervical screening used to detect potentially
precancerous and cancerous processes.
 In the Cervix (opening of the uterus or womb)
 In the Colon (in both men and women).
Stained Smear of Pap Test
 3-BIOPSY

Some of biopsy techniques are :
❖ Fine Needle Aspiration
Cytology (FNAC)
❖ Core needle
❖Vacuum assisted
❖Image guided Ultrasound.
 4-AgNOR COUNT
Nucleolar organiser regions (NORs) are loop
of DNA present in nucleoli which encode AgNOR staining solution
A- 1% Gelatin + 2% formic acid
ribosomal RNA and transcribed by RNA B- 50% Aqueous silver nitrate
Polymerase I. Mix- Solution A & B at ratio of 1:2
The certain Argyrophilic proteins called
NOR associated proteins. Theses proteins are
accumulated in highly proliferating cells of
tumour appearing as black dot with AgNo3
that is widely used in tumour pathology as a
diagnostic and prognostic marker.
It is believed that the mean AgNOR count in
tumor cells with >5 AgNORs per nucleus
represents the proliferative activity.
 5-PCNA (proliferating-cell nuclear antigen)

PCNA plays an essential role in DNA
replication as the assisting protein.
Proliferating cell nuclear antigen (PCNA)
is a DNA that acts as a factor for DNA
Polymerase and is essential for replication.
Proliferating cell nuclear antigen (PCNA) is
known as a molecular marker for
proliferation.
PCNA was first shown to be involved in
DNA replication.
 6-Flow cytometry

Flow cytometry is a laser based
technology used to count and sort
cells, detect biomarkers and
engineer proteins.
This is done by suspending cells
in a stream of fluid and passing
them by an electronic detection
system.
 7-BIOCHEMICAL ASSAY

Assay of tumour associated enzymes
Hormones
Tumour markers
✓ Carcino-embryonic antigen
✓ Alpha foetoproteins
 8– MOLECULAR DIAGNOSIS-
Two most imp. Molecular diagnosis is-
1) Polymerase chain reaction (PCR)

2) Fluorescent in situ hybridization technique.
 TREATMENT

Immunosuppressive drugs Therapy
Robotic Surgery
Chemo-therapy
Radiation- Therapy
Hormonal therapy
THANK YOU