Neoplasia - Pathology
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Neoplasia
- Neoplasia is a serious disturbance of growth of tissues.
- Results in malfunction of organ systems.
- Often culminates in death unless treated.
- Neoplasia is a multifactorial disease.
- Neoplasia in the veterinary species.
- The tumours that occur in the veterinary species are spontaneous, naturally-occurring states.
- Naturally-occurring neoplasia is most common in mature/ geriatric animals.
- Companion animals have the highest tumour occurrence, especially dogs and cats.
- There are some species differences in the incidence of some types of tumour.
- FeLV-induced neoplasia in cats.
- Testicular tumours in dogs.
- Alimentary tumours in cattle and sheep.
Classification
- Neoplasms are classified so that one can:
- Deduce a prognosis
- Investigate the cause
- Perhaps with a view to prevention
- Assess the results of treatment.
- It must be remembered that there are several types of proliferative change, and neoplasia must be distinguised from these.
- In addition to neoplasia, hyperplasia and dysplasia are also proliferative changes.
- Inflammatory, repair and granuloma lesions may also masquerade as neoplasms.
- However, destructive or necrotic tumours may have inflammation present.
- Unlike inflammation, hyperplasia or dysplasia, neoplastic cells show uncontrolled proliferation in the absence of a triggering stimulus.
Categories of Classifiaction
- Tumours are classified by:
- Histogenesis
- Identification of the cells/ tissue of origin.
- Anatomical origin
- Site of anatomical growth.
- State of differentiation
- Relative development or maturity of the cell type involved.
- Behaviour
- Host-tumour growth patterns.
- I.e. benign or malignant.
- Host-tumour growth patterns.
- Histogenesis
Behaviour
- The terms "benign" and "malignant" represent two ends of a spectrum of behaviour patterns in tumours.
- Certain features exhibited by the neoplastic cells allows tumours to be labelled as benign or malignant.
Feature | Benign | Malignant |
---|---|---|
Cell size | Uniform | Pleiomorphic |
Nucleoli | Normal | Large; usually multiple |
Chromatin, DNA | Usually a normal amount | Hyperchromatic; often polyploid |
Mitoses | Few | Usually mulitple, including pathologic ones |
Mitotic rate | Slow | Rapid |
Nuclear:cytoplasmic ratio | Rather low | Rather high |
Structure | Well differentiated | Imperfectly differentiated to anaplastic |
Mode of growth | Usually expansive and encapsulated | Infiltrative as well as expansive. Not encapsulated |
Rate of growth | Usually slow | May be rapid |
Course of growth | May come to a standstill or regress | Rarely cease growing |
Effect on host | Not usually dangerous. There is no metastatis, but problems may arise to due tumour location or hormone production. | Dangerous, because of destructive infiltrative growth. Prone to recurrence and metastasis. |
- Some malignant tumours, such as adenocarcinoma, can provoke substantial fibrous tissue within and around them.
- This is thought to be an attempt at walling off the tumour.
- Unsuccessful, since these tumours are capable of producing substances can break down the fibrous tissue.
- This is thought to be an attempt at walling off the tumour.
- Malignant tumours can also provoke an intense inflammatory response through their damage to nearby tissue and their own internal necrosis.
Nomenclature
Tumours of Epithelial Tissue
- Sheet epithelium
- Benign = papilloma
- A nipple-shaped projection
- Malignant = carcinoma
- Benign = papilloma
- Glandular epithelium
- Benign = adenoma
- Malignant = adenocarcinoma
Tumours of Mesodermal (Connective) Tissue
- E.g. fibrous tissue, bone, muscle, cartilage, lymphoid tissue.
- Benign - use the prefix of the tissue and the suffix "-oma" suffix.
- E.g. fibroma
- Malignant - use the prefix of the tissue and the suffix "-sarcoma".
- E.g. fibrosarcoma.
- Also state the region of origin.
Others
Melanotic Tumours
- These may be benign or malignant.
- Arise from melanin-producing cells in epithelial or mesodermal tissues.
Embryonic Tumours
- Arise from blast or embryonic cells with the potential to form more than one cell type.
- To namme, refer to the organ of origin and use the suffix "-blastoma".
- E.g. nephroblastoma, retinoblastoma.
Mixed Tumours
- Have more than one cell type.
- Contain neoplastic cells of more than one histogenic cell type.
- Known as teratomas.
Causes of Neoplasia
- The causes of neoplasia are complex.
- The risk of an animal developing a tumour is often related to a combination of events:
- Exposure to a carcinogen.
- A carcinogen is any agent causing normal cells to become neoplastic.
- Environmental co-carcinogens;
- Predisposing host factors.
- Exposure to a carcinogen.
- In a few cases there is a known aetiological agent.
- For example, the Feline Leukaemia virus.
- In the majority of neoplasias the cause is unknown or only partially explained.
- There appear to be extrinsic and intrinsic causal factors involved.
Extrinsic Causes
- Physical agents
- UV light
- Ionising radiation
- Tumour viruses
- DNA viruses
- RNA viruses
- Chemical carcinogens
- Aromatic hydrocarbons
- Nitrosamines
- Benzidines
- Mycotoxins
Intrinsic Causes
Diet
- Unlikely to be a direct effect.
- Excess fat may be important.
- Components may act to initiate cell changes or modulate organ susceptibility.
- Examples:
- Bracken in ox and sheep.
- Aflatoxin in pigs/mice.
- Examples:
Hormones
- Neoplasia can result from prolonged hormonal stimulation of a tissue.
- For example, the mammary gland, uterus and testes.
Genetic
- Genetic susceptibility and hereditary predisposition is well- recognised for certain types of tumour.
- For example:
- Chemoreceptor tumours in brachycephalic dogs (e.g. boxers and bulldogs).
- Squamous cell carcinoma in the skin of white cats.
- Melanotic tumours in black dogs (e.g. Scottish Terriers) and Arabian horses.
- Lymphoma clusters in dogs, pigs and cattle.
- For example:
Age
- Most neoplasia occurs in older animals.
- There are important exceptions, notably the embryonic tumours.
- The effect of age is related to factors such as:
- Duration of exposure to a carcinogen.
- Changes in the tissues, promoting abnormal cells to grow.
- Less efficient apoptosis.
- Increased mitotic errors.
- Chromosomal deletions.
Other factors
Host-dependent Factors
- Species
- Companion animals are kept for longer than production species and so are more likely to develop neoplasia in their lifetime.
- Breed
- There are breed susceptibilities to some tumours.
- This is probably related to genetic and familial factors.
- There are breed susceptibilities to some tumours.
- Sex
- The effect of castration/ spaying is important.
Environmental Factors
- Environmental factors contribute to the cause of neoplasia, but are rather difficult to assess.
- Climatic/ geographical
- The type of habitation.
- Diet and general nutritional plane.
- Any dietary imbalance may result in a high level of carcinogen.
- Poorly nourished groups tend to develop more neoplasms.
- May be related to apoptosis and chromosomal aberrations.
- Management systems
- Especially reproductive and lactational patterns.
- Stress-related regimes may be a contributory factor.
- Especially reproductive and lactational patterns.
Tumour Assessment
- When assessing a tumour, it is best to assess the whole tumour (in situ or excised) wherever possible.
- Parameters for assessment are listed below.
Macroscopic
- Size
- Large tumours are not necessarily aggressive or malignant.
- Rate and duration of growth are probably more important.
- Shape
- Shape may depend on the site of the tumour and the constraints placed on it by the surrounding tissue.
- Within the category of shape, the following must be considered.
- The mode of growth of the tumour, i.e. by expansion or infiltration.
- If the tumour is diffuse or solitary.
- Superficial tumours may be plaque, nodular or pedunculate.
- Tumours in spherical or tubular organisms may be papillary, stenosing or infiltrating.
- Consistency
- Relative cellular and stromal content.
- Tumours containing many less-differentiaed/anaplastic cells are more friable, as these cells are more fragile.
- The presence of necrosis reflects the speed of growth or outgrowth of the blood supply.
- Benign, slow-growing tumours may calcify.
- Others may exhibit metaplasia with cartilage or bone formation.
- Colour
- Colour gives a reflection of vascularity and necrosis.
- Pigment may be present in e.g. melanomas and adrenal tissues.
Microscopic
- General architecture
- Consider:
- The degree of organisation.
- The relative content of cells and stroma.
- The degree of encapsulation or infiltration.
- The nature of the cell content - well or poorly differentiated.
- Mimicry of the normal tissue or a bizarre formation.
- Consider:
- Cytology
- Cytology helps elucidate:
- The Degree of cellular/ stromal abnormality.
- Cell morphology (nuclear and cytoplasmic).
- The mitotic index.
- Cytology helps elucidate:
- Blood/ lymphatic/ nerve supplies
- Look for:
- Pressure on vascular or lymphatic drainage or supply
- Infiltration of vessels by tumour cells
- Infiltration of nerves
- Look for:
Phases of Tumour Development
- The development of a tumour is a complex phenomenon, and can be unpredictable.
- However, there are three phases that are recognised in many tumours.
- Mutation
- Promotion
- Irreversible tumour growth
- However, there are three phases that are recognised in many tumours.
Mutation
- The mutation stage refers to the damage of nuclear DNA.
- Results in a stable heritable mutation.
- The mutation is not always expressed.
- It may be said to be "latent".
Promotion
- Promotion can be brought about by a variety of factors; certain:
- Irritants
- Drugs
- Viruses
- Hormones.
- Factors promote the replication of mutated cells.
- The mutated part of the genome is expressed, causing the mutated cells to become cancerous.
- The cell is clearly abnormal.
- In the promotion stage, abnormal cells are present in small numbers.
- Can be eliminated by the immune system.
- I.e. it is a reversible stage.
- Can be eliminated by the immune system.
Irreversible Tumour Growth
- Intrinsic factors in the cell genoma can contribute to malignant transfomation.
- In particular, oncogenes ( genes involved in regulation of cell replication ) can become altered .
- Produce gene products that lead to abnormal cell replication, resulting in the tumour.
Growth of Tumours
- There are several features and factors associated with growth of primary tumours:
- Mode of growth
- Rate of growth
- Degree of differentiation
- Vascularity
Mode of Growth
- Benign tumours
- Remain localised
- Grow by expansion into available space or by compression of tissues.
- Cause adverse effects if near vital structures.
- Malignant tumours
- Do not remain localised
- Local growth is by infiltration and super-population of adjacent tissues.
- Invasion causes destruction of local normal tissue.
Rate of Growth
- Rate of growth is based on:
- Proportion of cells in cell cycle in comparison to those that have differentiated and entered G0.
- Death rate of cells in the tumour.
- Where proliferation exceeds cell death then the primary tumour increases rapidly in size.
- A high rate of apoptosis is often seen in tumours.
- This is often independent of tumour blood supply.
- Adequacy of supply of oxygen and nutrients to tumour cells.
- This often depends on the neoplastic cells inducing a supporting stroma, containing capillaries, in and around the tumour.
- Doubling time of tumours is an important measure.
- 30 doubling cycles can yield 109 cells i.e. 1g of tissue.
Degree of Differentiation
- Benign tumours are usually well-differentiated; malignant ones are not.
- Degree of differentiation is inversely proportional to growth.
- Well-differentiated tumours induce adequate supporting stroma which supports tumour cell growth.
- Malignant tumours often outgrow stromal development and consequently necrose.
Vascularity
- Secretion of angiogenesis factors allow tumours to develop a vascular stromal support.
- These angiogenesis factors are often growth factors.
- E.g. fibroblast growth factor (FGF).
- These angiogenesis factors are often growth factors.
- Failure to maintain adequate oxygen and nutrient supply results in either
- Necrosis, or
- Slower degeneration with dystrophic calcification.
Dissemination of Malignant Neoplasia
- A key feature of malignant tumours is their propensity to spread from the primary site to other locations.
- When this involves spread of the tumour to distant sites, the process is known as metastasis.
Methods of Spread
- Carcinomas disseminate initially via lymphatics and then later via bloodstream.
- Sarcomas tend to spread via the blood.
Invasion/ Infiltration
- This is local spread through fascial planes, around nerves and into adjacent tissues/organs.
- Invasion involves a combination of:
- Pressure
- Cell motility
- Loss of contact inhibition and adhesiveness.
- Release of enzymes
- E.g. collagenase, hyaluronidase.
Lymphatic Spread
- Tumour cells permeate lymph vessels.
- Proceed to spread to local or regional lymph nodes.
- Grow here as secondary tumours.
- Proceed to spread to local or regional lymph nodes.
Vascular Spread
- Tumour cells permeate drainage veins.
- Neoplastic thromboembolism is often involved.
Transcoelomic Spread
- Transcoelomic spread describes the "seeding" or shedding of cells directly into peritoneal or pleural cavities.
- Cells then migrate onto the surface of adjacent organs.
- Alternatively, this can occur via lymphatic vessel involvement with blockage and rupture.
The Process of Metastasis
- In order to spread from the primary mass, malignant cells have to "escape" from the primary environment and penetrate either the lymphatics or blood vessels.
- The trigger for developing migratory activities is unknown but several features are important:
- Cells must become mobile
- This is probably enabled by the secretion of proteases and blocking antiprotease secretions from stromal cells.
- Cells must adhere to the basement membrane
- Mediated by the expression of adhesion molecules (integrins).
- Cells must destroy the basement membrane
- Occurs by secretion of proteases which lyse the type IV collagen.
- Cells must become mobile
- Cell movement into the vessel is the result of secretion of motility factors by the cells themselves.
- In blood vessel involvement, the breaching of the basement membrane predisposes to thrombosis.
- Further tumour cell dissemination is probably via embolism.
- The determining factors for where the tumour cells leave the vessels are unknown.
- Complementary cell adhesion molecules are probably involved, together with growth factor secretion.
- Where emboli are formed, mechanical blockage in capillary beds is important.
- Reversed diapedesis ensues.
Secondary deposits
- A variety of fates awaits secondary deposits.
- Some secondary deposits are abortive.
- Some remain dormant.
- Some establish and grow.
- The reasons are not known.
- There is probably involvement of growth factors and angiogenesis factors.
- E.g. EGF, FGF, TGF.
- There is probably involvement of growth factors and angiogenesis factors.
- Tissues vary in their abilities to "grow" secondary deposits.
- Good "soils" :
- Lymph nodes
- Liver
- Bone marrow
- Adrenal medulla.
- Intermediate "soils":
- Kidney
- Lung
- Poor "soils":
- Muscle
- Spleen
- Gut
- Good "soils" :
Examples in the Domestic Species
- Mammary carcinoma
- Favours both lymphatic and vascular spead.
- Spreads commonly to the lung, liver, kidney, and adrenal glands.
- Spreads rarely to the brain and bone.
- Thyroid carcinoma
- Spead is primarily vascular.
- Commonly spreads to the lung, liver and kidney.
- Pancreatic carcinoma
- Metasises by transcoelomic spread.
- Commonly spreads to the liver, spleen and peritoneum.
- Salivary gland carcinoma
- Spread via the lymphatics.
- Commonly spreads to the peripheral and deep lymph nodes, liver and lungs.
- Osteosarcoma
- Spread is vascular and lymphatic.
- Commonly spreads to the regional lymph nodes, lungs and liver.
- Haemangiosarcoma
- Metastasis is vascular.
- Commonly spreads to the lungs, liver, kidneys and muscle.
- Lymphoid and melanotic tumours
- Are multicentric rather than metastatic.
Tumour Grading and Staging
Grading
- Tumour grading indicates the degree of differentiation and the growth pattern of the tumour.
- Grading depends on cellular morphology.
Staging
- Tumour staging indicates how far the tumour has spread.
- The TNM system is may be used.
- This is based on :
- T: Local tumour spread.
- I.e. the size and fixation of the tumour.
- N: Regional lymph node involvement.
- M: Presence of distant metastases.
- T: Local tumour spread.
- This is based on :
Pathological Effects
- The development of a tumour may cause a whole range of of pathological effects.
- For example:
- Tumours may put pressure on vital organs.
- Thromboses and infarction may result.
- Bones involved in neoplasia (either directly or indirectly) may be prone to pathological fractures.
- Ulcerated or necrotic tumours may become infected.
- Where tumours are large, there may be much necrotis tissue, which can ave a toxic effect.
- Secondary haemorrhagic syndromes and depression of bone marrow function may occur.
- Result in with anaemia and disseminated intravascular coagulation.
Death
- Death from malignancy is usually due to :
- Obliteration of a vital organ by primary or secondary tumours.
- Cachexia and nutritional failure because of multiple metastasis plus secondary infections.
Para-Neoplastic Syndromes
- Para-neoplastic syndromes are complications which are not directly due to the effects of malignancy.
- These syndromes can be related to:
- Ectopic hormone secretion.
- E.g. parahormone-like secretion in lung squamous cell carcinoma results in hypercalcaemia.
- Neurological syndromes.
- E.g. neuropathies, cerebellar degeneration, encaphalitis.
- Bone marrow malfunction.
- E.g. purpuric disease, anaemia, disseminated intravascular coagulation.
- Ectopic hormone secretion.
Endocrine Aspects
- Some tumours may secrete abnormal amounts of hormones.
- These tumours need not necessarily be of endocrine origin.
- Where the tumour is not of endocrine origin this is referred to as ectopic production.
- These tumours need not necessarily be of endocrine origin.
Endocrine Tumours
- Tumours of the adrenal cortex.
- May be benign or malignant (i.e. adenoma, carcinoma).
- Can result in excess cortisol production, causing Cushing's syndrome.
- tumours of the adrenal medulla.
- Phaeochromocytoma.
- Can result in excess adrenaline production, leading to hypertension.
- Seen mainly in dogs but can also occur in cats and horses.
- Pancreatic islet cell tumours.
- Adenoma.
- Can result in excess insulin prodction, leading to hypglycaemia.
- Seen mainly in dogs.
Ectopic Hormone Production
- E.g. in the lung,
- Squamous cell carcinoma.
- Can produce parathyroid hormone, leading to hypercalcaemia.
- Oat cell carcinoma
- Can produce adrenocorticotropic hormone(ACTH), leading to Cushing's syndrome.
- Squamous cell carcinoma.
Tumour Markers
- Some tumours secrete products than can be detected in serum.
- For example, foetal proteins.
- These can be used to monitor the effects of therapy in man.
- For example:
- Alpha fetoprotein (AFP).
- Secreted in hepatocellular carcinoma.
- Acid phosphatase.
- Secreted in prostatic carcinoma.
- Carcinoembryonic antigen (CEA).
- Secreted in colonic and gastric cancer, and lung carcinoma.
- Alpha fetoprotein (AFP).
Tumour Immunity
- Immune responses to tumours are generally weak.
- They do not appear to contribute to the response to an established tumour.
- There is little support for they idea that immune surveillance is important in the prevention and regulation of tumout growth, except when there is a viral aetiology.
Tumour Specific Transplantation Antigens (TSTAs)
- When tumours are antigenic, they often express cell surface markers - TSTAs.
- Thses markers are recognised as foreign, inducing
- T-cell-mediated cytotoxicity
- Antibody plus complement-mediated killing.
- Thses markers are recognised as foreign, inducing
- These are more common in virally-induced tumour.
- The viral proteins probably ellicit the response.
- E.g. FeLV, papillomas.
Tumour-Associated Antigens
- Tumour-associated antigens may be present on some normal cells as well as tumour cells.
- Many are differentiation markers in unusual sites or amounts .
- E.g. foetal antigens, stem cell markers.
Tumour cell killing
- NK cells, LAK (lymphokine-activated killer) cells and activated macrophages seem to be important.
- Tumour necrosis factors (TNF α and β) are produced by macrophages and bind to tumour cell membranes.
- Produce a cytostatic effect, allowing cytotoxic cell killing to take place.
- Interleukins promote cytotoxic tumour killing.
- Particularly lL-1 and lL-4.
- Interferons may be helpful in inhibiting tumour cells.
- IFN α is tumouricidal.
- Transforming growth factors may be important in tumour growth and spread.
- TGF α
- Related to EGF.
- May act as a growth and angiogenesis factor.
- TGF β
- May control the breakdown of basement membranes by tumour cells and hence play a role in metastatic potential.
- TGF α
Examples of Tumour Types
- Tumours are often classified on architectural grounds into solid and non-solid types.
- "Non-solid" encompasses haematopoietic and related types.
Solid Tumours
- Many solid tumour types are well-recognised but their aetiology and behaviour in animals is often poorly understood.
- The following are good veterinary examples:
- Mammary tumours in dogs and cats.
- Adenocarcinoma in the small intestine of the sheep.
- Pulmonary adenomatosis in the sheep.
Mammary Tumours in Dogs and Cats
- Next to skin neoplasia, mammary tumours are the most common tumours in dogs and cats.
Dogs
- Affects bitches over 5 years of age.
- Entire females with a predisposition to pseudopregnancy are at particular risk.
- Rarer in spayed bitches.
- Often, more than one gland is involved.
- 50-60% of these tumours are benign.
- Many tumours are "mixed".
- I.e. there is epthelial neoplasia with cartilage or bone,
- Mammary caricnomas vary in their malignancy.
- May spead to the lymph nodes, lungs or elsewhere.
- Some of these tumours are hormone-dependent.
Cats
- Uncommon in cats in the U.K.
- This may be the effect of early spaying.
- 90% of tumours are aggressive carcinomas.
- Cause is currently unknown. L
- ikely to be multifactorial with major hormonal and genetic influences.
Adenocarcinoma in the Small Intestine of the Sheep
- Fairly common in Scotland.
- Also recorded in Iceland, Norway, New Zealand and Australia.
- Affects mature sheep up to 6 years of age.
- Animals are cachectic and show ascites.
- Tumours are ususally found in the small intestine.
- Are annular, causing stenosis.
- There is proximal dilation.
- Are annular, causing stenosis.
- Tumours thicken the gut.
- Spread as small plaques/ nodules the on bowel serosa, and to the mesenteric lymph nodes.
- Peritoneal fibrous plaques with small nests of carcinoma cells often from.
- The cause is unknown.
- There may be an association with bracken fern grazing.
Pulmonary Adenomatosis in the Sheep
- Can affect sheep from 6 months to 6 years of age.
- Affected sheep may not show signs for up to 2 years.
- Signs include respiratory distress and fluid production via nose if the sheep is elevated.
- Lesions may be
- Discrete nodules, or
- Extensive solid grey consolidation of the dependant parts of all lobes, often on both sides.
- More common.
- Lungs are heavy with frothy fluid.
- The main cell type affected are the alveolar (type 2) cells.
- Form adenomatous or papillary growths.
- The bronchiolar Clara are also affected.
- The neoplasia is transmissible.
- Caused by a retrovirus, possibly in association with a herpes virus.
Haematopoietic Tumours
- Any cell of the haematopoietic and related tissues can undergo neoplastic transformation.
- The transformed cell produces a tumour having a distribution pattern and growth rate characteristic of the normal counterpart.
- The nomenclature is confusing because of the heterogeneity of the cell populations which have the potential to be involved.
- E.g.
- Leukaemia is malignant transformation of cells derived from haematopoietic tissues in the blood.
- Myeloma is malignant transformation of an antibody secreting plasma cell normally found in organised lymphoid tissue and bone marrow.
- E.g.
Acute Undifferentiated Leukaemia
- Rare in animals.
- Composed of immature cells.
- Malignancy affects the stem cell phenotype.
- Primary lymphoid organs and other organs with lymphohaematopoietic function are predominantly involved rather than lymph nodes.
- I.e. bone marrow, spleen, liver.
- Primary lymphoid organs and other organs with lymphohaematopoietic function are predominantly involved rather than lymph nodes.
Lymphoid Neoplasms
- Lymphoma, malignant lymphoma and lymphosarcoma are different terms for the same condition.
Classification
- Cytological classification.
- Well differentiaed (lymphocytic)
- The malignant cells represent normal lymphocytes, although in excessive numbers.
- Poorly differentiated (lymphoblastic).
- The malignant cells represent atypical lymphocytic cells with lymphoblastic characteristics.
- Well differentiaed (lymphocytic)
- Tumour distribution
- Nodular/ follicular.
- A well organised pattern of slow growth.
- No metastasis.
- Are of the B-lymphocyte type.
- Diffuse.
- Result in effacement of normal lymphoid architecture by a very homogeneous population of lymphoid cells.
- Nodular/ follicular.
- Anatomical classification
- Thymic.
- Only the thymus.
- Alimentary.
- Gut and associated lymphoid tissue.
- Multicentric.
- Widespread involvement of lymph nodes.
- Cutaneous lymphoma.
- Usually presents as generalised skin disease, but is a malignant transformation of T cells with a propensity for pithelial sites
- Type of lymphocyte
- T-cell.
- B-cell.
- NK-cell.
- Time scale
- Acute.
- Chronic.
Prevalence
- Order of prevalence in UK: cats, dogs, cattle, pigs and sheep.
- In the cat and ox, viral agents have been identified as the causal agents.
- Lymphoma is one of the prevalent neoplasms in the dog.
- 80% of cases affect the 5 to 11 year old age group.
- The incidence is about 28 per 100,000 dogs.
- Blood of affected dogs shows neither a relative nor absolute increase in the number of lymphocytes until the late stages of the disease.
- When this stage is reached, poorly differentiated cells may appear in the blood.
- FeLV is an important cause of lymphoma in the cat.
- 70% of cats with lymphoma will test positive for FeLV.
- FeLV also causes a number of non-neoplastic diseases.
- Anaemia.
- Leukopaenia.
- Thymic atrophy.
- Cattle suffer both lymphosarcoma and leukosis in a variety of cytological forms.
- Bovine lymphoma is caused by Bovine Leukaemia Virus (BLV).
- A retrovirus.
- There is a juvenile form of bovine lymphoma seen in young cattle which is not associated with BLV.
- Bovine lymphoma is caused by Bovine Leukaemia Virus (BLV).
Species Differences
- The form of the disease may differe between species.
- Feline
- Alimentary.
- Affects the mesenteric lymph nodes, intestine, liver, spleen , and potentially the kidney.
- Thymic
- Presents as a thymis mass, also in the mediastinal lymph nodes.
- The pleural lymph nodes and the liver may potentially be affected.
- Multicentric
- Found in the peripheral and deep lymph nodes, liver and spleen.
- The kidney may sometimes be affected.
- Found in the peripheral and deep lymph nodes, liver and spleen.
- Renal
- The kidney and other abdominal organs are affected.
- Leukaemic
- Affects the bone marrow alone.
- This form is rare.
- Alimentary.
- Canine
- Bovine
- Thymic.
- Mainly affects adults.
- Thymic and mediastinal masses.
- Some lymph nodes are also affected.
- Multicentric.
- Mainly affects yopung adults.
- Affects the peripheral and deep lymph nodes, spleen, liver and kidney.
- Thymic.
- Equine
- Takes mainly an alimentary form.
- Can rarely be cutaneous.
- Porcine
- Mainly multicentric.
- Lymph nodes, liver, spleen.
- Mainly multicentric.
- Ovine
- Uncommon.
- May be multicentric or thymic.
Lymphocytic Leukaemia
- A leukaemic manifestation arises when neoplastic cells retain the migratory patterns of their counterparts, when these are bone marrow, T- or B- cells.
- Lymphoid tissue may or may not be involved.
- This depends on the biological properties of the lymphocyte undergoing neoplastic transformation.
- Lymphoid tissue is invplved when the cell has the capacity to recirculate and enter this.
- This depends on the biological properties of the lymphocyte undergoing neoplastic transformation.
- Acute lymphocytic leukaemia.
- Predominantly a T-cell tumour in man and dog.
- Chronic lymphocytic leukaemia.
- A B-cell tumour in dog and man.
- Plasma cell tumours.
- Also known as multiple myeloma or plasmacytoma.
- Rare in domestic animals.
- When is does arrive, it is associated with abnormally high levels of immunoglobulins.
Myeloproliferative Disorders
- Myeloproliferative disorders are characterised by the malignant proliferation of one, several or all of the non-lymphoid bone marrow cells.
- I.e. the granulocytic, monocytic, erythromytic and megakaryocytic cells.
- May be acute or chronic.
- May gove rise to granulocytic or monocytic leukaemias.
Mast Cell Proliferation Disorders
- Cutaneous mastocytoma.
- Common in certain breeds of dogs, e.g. Boxers.
- Occur rarely in the cat and ox.
- Cutaneous mast cell sarcomas.
- Rapid growth with spread to drainage lymph nodes and involvement of other organs.
- Generalised mast cell sarcoma.
- Widespread lesions.
Histiocytomas
- Common in young dogs.
- Usually present as solitary cutaneous nodules.
- Do not metastasise.
- May regress spontaneously.
Vasoformative Neoplasms
- Include haemangioma of the spleen.
- Gives rise to extensive endothelial lined vascular channels.
- Haemorrhage and necrosis are common.