Scenario 32

Question 1

What is fine needle aspiration?

Answer 1

technique for obtaining cells for cytological diagnosis directly for palpable masses and radiologically guided for deep seated lesions

Question 2

What are the two options for a tumour?

Answer 2

Malignant or benign

Question 3

What is the 1-5 rating of lumps?

Answer 3

1- benign 5-cancer definite

Question 4

What % of women at diagnosis have no overt metastatic disease?

Answer 4

95

Question 5

What are the stages in the cell cycle?

Answer 5

G1 (G0)–>S–>G2–>M

Question 6

What happens in G1?

Answer 6

Double internal structurees

Question 7

What happens in G0?

Answer 7

Leave the cell cycle (eg neurones and cardiac muscle)

Question 8

What happens in S?

Answer 8

Doubling the chromosomes

Question 9

What happens in G2?

Answer 9

Check that things are copied correctly

Question 10

How long does it take to go round the cycle?

Answer 10

Vaies- tumours take longer (24-72 hours)

Question 11

What is the role of cyclin?

Answer 11

The activator present at different stages in the cycle (how it moves around the cycle)

Question 12

What keeps cells in homeostasis?

Answer 12

The differentiation and specialisation that they have underfone, constraints by neighbouring cells, availability of metabolic substrates and the finite speed at which their internal metabolic pathways can function

Question 13

What is hypertrophy?

Answer 13

Increase in cellular mass to maintain the higher levels of metabolic activity bought about by increasing the numbers of sub cellular organelles

Question 14

What is hyperplasia?

Answer 14

Increase in number of cells in an organ or tissue which may lead to an increase in volume
Physiological- hormonal (breast), compensatory (liver)
Pathological- excessive hormonal stimulation of target cells (endometrium from oestrogen)

Question 15

What is metaplasia?

Answer 15

Reversible change where one adult cell type is replaced by another
Eg- squamous metaplasia in the reap tract of smokers and at the cervix and glandular metaplasia in lower oesophagus

Question 16

What are the morphological features of malignancy?

Answer 16

Increased cell proliferation and incomplete differentiation (irreversible change in the genome)

Question 17

What is a neoplasm?

Answer 17

Abnormal mass of tissue, the growth of which exceeds and is coordinated with that of normal tissues and persists in the same excessive manner after the cessation of the stimuli which evoked the change
Arises from just one cell

Question 18

What are the basic components of a tumour?

Answer 18

Proliferating neoplastic cells that constitute the parenchyma and supportive stroma made up of CT, BV and lymphatics

Question 19

What are malignant neoplasms of epithelial cell origin called?

Answer 19

Carcinomas

eg. squamous, adeno (glandular), basal cell

Question 20

What are cancers arising from mesenchymal tissue called? (connective tissue)

Answer 20

Sarcomas

eg. lipo, fibro, osteo, chondro

Question 21

What is the mechanism of cancer invasion?

Answer 21

Physical invasion, reduced adhesiveness and cohesiveness of tumour cells, increased motility of tumour cells, loss of ‘contact inhibition’ (2 layers of cells should touch and stop proliferating) and release of destructive enzymes

Question 22

What is the difference in differentiation of benign and malignant neoplasm?

Answer 22

Benign are well differentiated and malignant range from well to un

Question 23

What is the difference in rate of growth of benign and malignant tumours?

Answer 23

Most benign grow slowly where most malignant grow rapidly. Growth rate of tumours correlates with the level of differentiation.

Question 24

How do tumours spread?

Answer 24

Benign tumours are encapsulated but malignant are never encapsulated are are characterised by infiltrative, erosive growth and extend crab like feel into adjacent tissues (invasiveness)

Question 25

What are the two most reliable features to distinguish malignant from benign tumours?

Answer 25

Invasiveness and metastases

Question 26

What is a cancer starting in a blood forming tissue called?

Answer 26

Leukaemia

Question 27

What is a cancer that starts in cells of the immune system calles?

Answer 27

Lymphoma/myeloma

Question 28

What is a cancer that starts in the brain or spine called

Answer 28

Glioma

Question 29

How can a benign tumour be dangerous?

Answer 29

If it compresses things or releases hormones

Question 30

What can a pit adenoma cause?

Answer 30

hypopituitarism and blindness

Question 31

What can a glioma cause?

Answer 31

Increased intra cranial pressure, hemorhhage in brain stem that knocks out CV system

Question 32

What are the 4 mechanisms of metastases formation?

Answer 32

Direct seeding, transplantation (surgeon cuts into tumour), lymphatic permeation, embolisation through blood vessels

Question 33

What are the steps in metastases formation?

Answer 33

Primary neoplasm, progessive growth, vascularisation, invasion, detattchment, embolisation, survival in the circulation (avoid NK cells, lymphocytes, monocytes etc), arrest, extravasion, evasion of host defences, progressive growth, metastasis

Question 34

Is metastasis episodic or continuous?

Answer 34

Episodic- groups of different sized ones seen in a tissue

Question 35

Where does lung cancer commonly spread to?

Answer 35

Liver and adrenal

Question 36

Where does breast cancer commonly spread to?

Answer 36

Lymph, skeleton, meninges, brain

Question 37

Where does prostate cancer commonly spread to?

Answer 37

Obturator lymph nodes, lumbar spine

Question 38

What decides where the cancer spreads to?

Answer 38

Not blood- kidneys would always be affected, depends on cell adhesion molecules

Question 39

What are the local effects of a tumour on the host?

Answer 39

Pressure, destruction of tissue, hypercalcaemia , haemorrhage, infection

Question 40

What are the systemic effects?

Answer 40

Fever (cytokine mediated from tumour cells or infiltrating macrophages), cachexia (loss of appetite, malabsorptuon, metabolic processes of tumour), immune defences compromised, haemotological effects (anaemia, increased RBC production), endocrine effects (appropriate hormone production or ectopic), non metastatic changes- clubbing, skin changes etc

Question 41

What are the most common cancers in the UK?

Answer 41

Breast, lung, colorectal and prostate

Question 42

What cancers are babies and children most likely to get?

Answer 42

Leukemia, brain/cns

Question 43

What cancers are teens most likely to get?

Answer 43

First peak for hodgkins lymphoma

Question 44

What cancer is most likely 25-49?

Answer 44

Breast cancer

Question 45

What is the current breast, cervical and bowel screening?

Answer 45

Breast- every 3 years after 40, cervical every 3 years after 25, every 2 years after 60 for bowel

Question 46

What is oncogenesis?

Answer 46

The process of transformation into cancer cells

Question 47

What type of cancer are caused by nitrites in the soil

Answer 47

oesophageal carcinoma

Question 48

What type of cancer are caused by soot?

Answer 48

Scrotal carcinoma (least washed)

Question 49

What type of cancer are caused by viruses?

Answer 49

Hep B and C- hepatocellular carcinokma
Epstein-Barr virus- Burkett’s lymohoma
HHVH- Kaposi’s sarcoma

Question 50

What type of cancer are caused by hormone levels?

Answer 50

Androgen levels- prostate cancer, oestogen- endometrial and breast cancer

Question 51

What type of cancer are caused by mycotoxins and parasites?

Answer 51

Bile ducts and bladder?

Question 52

If the host has a genetic risk factor will they definitely get cancer?

Answer 52

No- multistep not just a single insult, need initiation promotion and persistance

Question 53

What are oncogenes?

Answer 53

Stimulate cell growth and division or inhibit apoptosis- normal gene is protooncogene
eg. philadelphia chronosome, RAS
Behave as a dominant trait- only need 1

Question 54

What are tumour suppressor genes?

Answer 54

Behave as recessive genes- need to lose both

eg. p53 in thryoid, colonic and breast and BRCA 1 and 2 in ovarian and breast cancers

Question 55

What changes occur in sporadic cancer?

Answer 55

Many DNA changes most environmental

Question 56

What changes occur in familiar cancer?

Answer 56

Few mutations and environment not as important

Question 57

When can surgery be used as a cancer treatment?

Answer 57

When detected early

Question 58

What type of radiation does radiotherapy use?

Answer 58

Gamma

Question 59

What cancer biology do we target using druga?

Answer 59

Target identification, oncogene actication, tumour suppressor genes

Question 60

What is chemotherapy?

Answer 60

Cytotoxic therapy

Question 61

Why does hair fall out and WBC count drop?

Answer 61

Because stem cell populations are damaged when cells are agents that damage DNA, target tubulin and antimetabolites

Question 62

When can chemotherapy not be used?

Answer 62

Breast cancer after metastasis have formed

Question 63

What non-cytotoxic therapies exist?

Answer 63

Inhibitors of tyrosine kinase, monoclonal antibodies to cell surface protein and immunotherapies

Question 64

Why do we want to inhibit tyrosine kinase?

Answer 64

It is a molecule which takes signals from outside of cell in leading to gene expression. Tumours switch these on unnecessarily

Question 65

How to tyrosine kinase inhibitors work?

Answer 65

Competitve to ATP binding site
Some people have a mutation around this site and in these cases the mutation responds very well but after 9 months become resistant- mutation
Can get rash/acne

Question 66

What are monoclonal antibodies to cell surface proteins?

Answer 66

Highly specific to cancer cell surface proteins eg Herceptin

Question 67

What immunotherapies could work?

Answer 67

APC activation of the CD28 signal is not good in cancer as they switch off T cells using PDL1 and CTLA4- need an autoantibody to these but problems with autoimmunity

Question 68

What does tamoxifen do?

Answer 68

bLOCK OESTROGEN

Question 69

What are the likely outcomes of different lymph node status’ in breast cancer?

Answer 69

Negative- 70% disease free in 10 years
1-3-40%
>10-10%

Question 70

How much does herceptin reduce risk of relapse by?

Answer 70

35-50%