Approach to the Cancer Patient and Paraneoplastic Syndromes

Question 1

What are the odds of canine cancer

Answer 1

1 in 4
50% of dogs > 10 years develop cancer

Question 2

What organ system is the most common site of tumours in dogs

Answer 2

Skin and soft tissue

Question 3

What tumour type are Giant /large breeds like Great Dane, Deerhound, lurcher, Rottweiler predisposed to

Answer 3

Osteosarcoma

Question 4

What tumour type are Bernese Mountain dog, Flat-coated retriever, Rottweiler, Miniature Schnauzer predisposed to

Answer 4

Histiocytic sarcoma

Question 5

What tumour type are Boxer, G retriever, Lab, Mastiff predisposed to

Answer 5

Lymphoma

Question 6

What tumour type are Boxer, Pug, SharPei, Weimeraner predisposed to

Answer 6

MCT

Question 7

What tumour type are Scottish terriers predisposed to

Answer 7

Bladder (TCC)

Question 8

What tumour type are Boxer, French bull dog, Boston T, G retriever predisposed to

Answer 8

CNS tumours

Question 9

What tumour type are Dolicocephalic breeds like Labradors, retrievers, collies predisposed to

Answer 9

Nasal tumours

Question 10

What tumour type are German Shepherd, G retriever predisposed to

Answer 10

Haemangiosarcoma

Question 11

What tumour type are Cocker (springer) spaniels predisposed to

Answer 11

Anal Sac tumours

Question 12

What tumour type is most common in cats

Answer 12

Lymphoma

Question 13

What tumour type is second most common in cats

Answer 13

Leukemia

Question 14

What is paraneoplastic syndrome

Answer 14

The systemic, metabolic and endocrinological effects associated with some tumour types (Due to secreted peptide / cytokine / hormone)

Question 15

Presentations of cancer patient

Answer 15

Superficial mass / lump – signalment and history
Non-specific clinical signs as direct effect of internal tumour – eg obstruction, compression
Non-specific clinical signs / medical presentation d/t indirect effect of internal tumour

Question 16

What is the most common paraneoplastic syndrome sign

Answer 16

Hypercalcaemia

Question 17

What are the Normal controllers of serum Ca

Answer 17

parathyroid hormone (PTH), calcitonin, and vitamin D.

Question 18

What is the normal serum calcium level of a dog

Answer 18

2.34-3.0 mmol/l

Question 19

What is the serum calcium level of a dog for it to be hypercalcaemic

Answer 19

3 mmol/l

Question 20

What is the normal Ionised calcium level of a dog

Answer 20

1.2 – 1.4 mmol/l

Question 21

What is the Ionised calcium level of a dog for it to be hypercalcaemic

Answer 21

1.4

Question 22

Causes of hyperCa (Neoplastic)

Answer 22

Lymphoma /Leukaemia (10-40 % cases; T cell)
Apocrine gland adenocarcinoma of the Anal Sac - (25-55% of cases)
Bone tumours /multiple myeloma (local osteolysis)
Other malignant tumours (mammary, thyroid, lung, thymoma)
Parathyroid adenoma (benign) – PTH induced

Question 23

Causes of hyperCa (Non-Neoplastic)

Answer 23

Endocrine
Renal
Poisoning - Vit D toxicity – rodenticides, diet
Inflammatory- Infections/ granulomatous inflammatory disorders (osteomyelitis, osteoporosis, blasto or coccidiomycosis)
Lab error

Question 24

Clinical sign of hypercalcaemia

Answer 24

Renal- PU/PD
Gastrointestinal- Anorexia, vomiting, constipation
Neuromuscular- Muscle weakness, tremors, lethargy
Cardiovascular- Hypovolaemia, Bradycardia, dysrhythmias

Question 25

Where are the places to hunt for a tumour

Answer 25

Lymphoma – most common cause of HyperCa- Check if lymph nodes enlarged
Apocrine adenocarcinoma of the anal sac- Rectal examination
Parathyroid tumour/adenoma- US neck/PTH gland
Multiple myeloma- Bone pain, ocular changes
Metastatic bone tumours- Bone pain

Question 26

Diagnostics to hunt for a tumour

Answer 26

Chest radiographs- 3 views – LNs/ lung mets/masses
Abdominal ultrasound- Check internal LNs, organs
Limb & Spine radiographs-Bone lysis/lesions
Routine Bloods- Any clues to organ involvement
Bone Marrow biopsy- Tumour cells

Question 27

Summarise how PTH regulates calcium levels

Answer 27

When calcium levels in the blood decrease, the parathyroid glands release PTH into the bloodstream. PTH then acts on various organs and tissues in the body to raise calcium levels through several mechanisms:

Question 28

List mechanisms of how PTCH increases calcium levels

Answer 28

Stimulating Bone Resorption: PTH stimulates osteoclasts, cells responsible for breaking down bone tissue, which releases calcium into the bloodstream.

Enhancing Calcium Reabsorption: PTH acts on the kidneys to increase the reabsorption of calcium from the urine, reducing calcium loss in the urine and preserving it in the bloodstream.

Stimulating Calcium Absorption in the Intestines: PTH indirectly increases the absorption of calcium from the intestines by stimulating the production of active vitamin D (calcitriol), which enhances calcium absorption.

Suppressing Phosphate Reabsorption: PTH inhibits the reabsorption of phosphate in the kidneys, leading to decreased serum phosphate levels.

Question 29

Summarise how PTHrp regulates calcium levels

Answer 29

PTHrP, or Parathyroid Hormone-related Protein, is a protein that shares structural similarities with PTH and acts on the same receptors as PTH. While PTH primarily regulates calcium levels, PTHrP has a broader range of functions

Question 30

How does cancer affect PTHrp (Parathyroid Hormone-related Protein)

Answer 30

PTHrP can contribute to hypercalcemia (elevated calcium levels) by acting similarly to PTH, leading to increased calcium release from bones and decreased excretion of calcium by the kidneys.

Question 31

What levels of Calcium, PTH and PTHrp will you typically see in a cancer patient

Answer 31

Calcium: High
PTH: Low
PTHrp:High

Question 32

What levels of Calcium, PTH and PTHrp will you typically see in a hyper PTH patient ( no cancer)

Answer 32

Calcium: High
PTH: High
PTHrp: Low

Question 33

Signs of hypoglycaemia

Answer 33

Episodic collapse/weakness
Low blood glucose

Question 34

Tumour causes of hypoglycaemia

Answer 34

Insulinoma (high insulin)
Hepatic neoplasia (altered glucose metabolism, consumption)

Question 35

Non-tumour causes of hypoglycaemia

Answer 35

Sepsis, Pregnancy toxaemia
Liver diseases –shunts, cirrhosis, storage diseases
Hypoadrenocorticism

Question 36

Signs of Hyperestrogenaemia

Answer 36

Gynaecomastia
Bilaterally symmetrical alopecia
Reduced libido
Pendulous prepuce

Question 37

Tumour causes of hyperestrogenaemia

Answer 37

Estrogen producing tumour
Sertoli cell tumour

Question 38

Cachexia

Answer 38

Muscle Wasting

Question 39

Tumour causes of cachexia

Answer 39

Lymphoma, any extensive/ systemic or metastatic tumour

Question 40

Hypertrophic pulmonary osteopathy (Marie’s disease)

Answer 40

primary lung mass or metastatic disease
Periosteal new bone growth -long bones
Painful limbs, lameness

Question 41

Myasthenia gravis

Answer 41

neuromuscular junction disease that leads to varying degrees of skeletal muscle weakness. Immune mediated

Question 42

List two ways to diagnose a tumour

Answer 42

Biopsy and FNA

Question 43

What is the most accurate way to diagnose a tumour

Answer 43

Biopsy

Question 44

List advantages of Biopsy of tumour

Answer 44

Provides tissue architecture, and tumour grade
Most accurate and definitive diagnosis

Question 45

List disadvantages of Biopsy of tumour

Answer 45

Sedation/local or GA needed, more expensive, time-consuming

Question 46

List advantages of FNA of tumour

Answer 46

Quick, easy, cheap, no GA
Inflammatory /neoplastic
Sarcoma, carcinoma, LSA, MCT

Question 47

List disadvantages of FNA of tumour

Answer 47

No tissue architecture (no grade)
Can be unrepresentative?

Question 48

Who grades tumours after biopsy

Answer 48

Pathologist

Question 49

What soft tissue sarcoma has high malignancy and increased risk of metastasis

Answer 49

Haemangiosarcoma

Question 50

Describe criteria for a tumour to be classified as low grade (grade 1)

Answer 50

low chance of metastasis so surgery usually sufficient

Question 51

Describe criteria for a tumour to be classified as high grade (grade 3)

Answer 51

high chance of local recurrence and metastasis, so needs aggressive treatment and chemotherapy

Question 52

Describe criteria for a tumour to be classified as Intermediate grade (grade 2)

Answer 52

Intermediate risk of local recurrence and possibly metastasis so local treatment ± chemotherapy

Question 53

Summarise MCT grading Patnaik scheme

Answer 53

Based on histopathology NOT cytology
3 Tier system published in 1984
Most commonly used historically

Question 54

What is Grading criteria for dermal tumours based on

Answer 54

Cell morphology and differentiation
Mitotic index/count
Extent of tissue involvement
Cellularity and Stromal reaction

Question 55

Describe characteristics of a Grade 1 MCT

Answer 55

Well differentiated mast cells
No tissue invasion (dermis only)
No mitotic figures
Minimal stromal reaction

Low histol grade / benign nature
Low risk of metastasis
Prognosis following surgery good
> 90% have long term survival

Question 56

Describe characteristics of an Intermediate grade MCT (Grade II)

Answer 56

Moderately differentiated /pleiomorphic mast cells
Some local tissue invasion – lower dermis, subcutis and occ deeper
0-2 mitoses per hpf
Some areas of oedema, necrosis

Variable behaviour
40 - 75 % long term survival
Prognosis variable
Good (wide) surgery improves prognosis

Question 57

Describe characteristics of a Poorly diff MCT (Grade III)

Answer 57

Poorly diff, pleomorphic mast cells (few /no granules), binucleate or multinucleated cells
Very cellular
3-6 mitoses per hpf
Extend into subcutis and tissues
Haemorrhage, oedema, necrosis

Aggressive, locally invasive tumours
High rate of distant metastasis
Poor prognosis, v few long term survivors (>6 months)

Question 58

what does HPF mean

Answer 58

HPF stands for High Power Field, a term used in microscopy, particularly in pathology and cytology. It refers to the area visible under a high-power microscope objective lens and is used as a unit of measurement when counting cells or assessing cellular features. HPF provides a standardized way to quantify observations made under the microscope, aiding in consistent comparisons between different samples or observers.

Question 59

What was the patnaik scheme problematic

Answer 59

Pathologists found it difficult to apply
>50% of MCT - called Grade 2 tumours
Grade 2 tumours have 50:50 chance of long survival so not helpful!

Question 60

What is Kiupel scheme

Answer 60

2 Tier classification system - LOW and HIGH grade only for MCT

Question 61

What is the high grade criteria for the Kiupel scheme

Answer 61

At least 7 mitotic figures in 10hpf
At least 3 multinucleated cells in 10hpf
At least 3 bizarre nuclei in 10hpf
Karyomegaly- Enlargement of nucleus

Question 62

What is tumour staging

Answer 62

Defining the anatomical extent of the tumour in terms of primary site and distant spread (anatomical staging) -determined by a clinician = clinical assessment

Question 63

What system does tumour staging use

Answer 63

TNM system
Primary tumour T
Node N
Metastasis M

Question 64

Approach to Primary tumour-T in tumour staging

Answer 64

Measure its dimensions with a ruler or calipers
for staging scheme and tumour response

Assess whether there is local invasion
Physical examination - palpation
Radiography
Ultrasonography
CT/MRI

Question 65

Approach to Local lymph nodes-N in tumour staging

Answer 65

Assess the sentinel LNs/anatomical drainage LNs to see if they are enlarged d/t tumour infiltration
Palpate
Image
Aspirate
Biopsy /excise

Question 66

Approach to Metastasis-M in tumour staging

Answer 66

Physical examination- for external mets - eg skin lesions
Imaging- for internal mets – Xray/CT chest, US abdomen
Laboratory evaluation – organ function may be altered
FNA/biopsy if possible to confirm suspicious lesions

Question 67

Why do staging

Answer 67

To decide whether treatment / what treatment is feasible (combined with grade information)
Helps predict clinical behaviour/prognosis (see clinical staging/group staging)
Provides a precise record of the tumour extent in the body at that time (anatomical staging)
To monitor how tumour changes with time (response to treatment – shrinks [CR/PR], progresses [PD], static [SD])

Question 68

What are the two types of staging systems

Answer 68

Anatomical staging and clinical staging

Question 69

Outline anatomical staging

Answer 69

Purely the clinical anatomical extent
More disease usually means worse prognosis
Other factors may also influence prognosis

Question 70

Outline clinical staging

Answer 70

Use of anatomical (TNM) staging and
Knowledge of their established clinical behaviour (tumour histological type/ grade, location)
Higher clinical stage worsens prognosis for several tumour types

Question 71

Summarise lymphoma staging

Answer 71

I- Single node or lymphoid tissue in a single organ (excluding bone marrow)
II- Several nodes in regional area
III-Generalised LN involvement (both sides of diaphragm)
IV- Liver and spleen (+/- stage III)
V- Bone marrow and /or other organ systems (extranodal)(+/- stages I-IV)

Question 72

Summarise MCT staging

Answer 72

0- Incompletely excised tumour from dermis with no LN involvement
I- Single tumour in dermis without LN involvement
II- Single tumour in dermis with LN involvement
III-Multiple dermal tumours Large infiltrating tumours ± LN involvement
IV- Any tumour with distant metastasis, blood or BM involvement