Oncology

Question 1

ALL overview

Answer 1

Most common childhood cancer
Peak onset 2-5 years
10-20x more likely in T21
Types include pre-B cell ALL and T cell ALL (10-15% of ALL)

Question 2

ALL symptoms

Answer 2

Fevers (60%)
Bruising, epistaxis (50%)
Bone pain (20%)
Pallor, anorexia, fatigue

Question 3

ALL examination

Answer 3

Hepatosplenomegaly (>60%)
Lymphadenopathy (50%)
Petechiae
Examine testes! (sanctuary site)

Question 4

ALL investigations

Answer 4

Low platelets and Hb (due to bone marrow crowding with leukaemic cells)
WCC high/normal/low
CMP and LDH - monitor for TLS
CXR - for mediastinal mass
Bone marrow biopsy: >5% suggestive of leukaemia (>25% diagnostic), 5-25% ?lymphoma
LP - for CNS disease

Question 5

ALL initial treatment

Answer 5

TLS prevention (hyper hydration, alkalinization, allopurinol
Induction: 28 days of treatment
- steroids, vincristine, intrathecal methotrexate and peg-asparaginase
- daunomycin in high risk patients

Question 6

ALL maintenance treatment

Answer 6

Daily oral 6-mercaptopurine
Weekly oral methotrexate
Monthly pulses of steroid and vincristine
3 monthly intrathecal methotrexate
Duration = 2 years for girls, 3 years for boys

Question 7

ALL favourable risk factors

Answer 7

1-10 years old
WCC <50 at presentation
TEL-AML1 (or ETV6-RUNX1), hyperdiploid
Negative for minimal residual disease

Question 8

ALL high risk factors

Answer 8

<1 year or >10 years
WCC >50 at presentation
Corticosteroid exposure before diagnostic workup
CNS or testicular involvement
BCR-ABL1 (Philadelphia chromosome), mixed-lineage leukaemia rearranged, hypo diploid
Induction failure or positive minimal residual disease

Question 9

ALL relapse

Answer 9

Most common sites: CNS and testes
If relapse, treatment often progresses to bone marrow transplant

Question 10

AML overview

Answer 10

More aggressive and poorer prognosis than ALL
Associated with Down syndrome, Falcon anaemia, Kostmann syndrome and neurofibromatosis

Question 11

AML good prognostic indicators

Answer 11

CBF mutations [inversion 16 (p13.1q22), t(16;16)(p13;q22), t(8;21)(q22;q22), or AML/ETO], CEBPa, NPM1
Down syndrome: 30% risk of AML presenting around 2 years, better prognosis and good response to chemo, but more treatment-related complications

Question 12

AML worse prognostic indicators

Answer 12

Monosomy 5, monosomy 7
Infant AML
AML from myelodysplastic syndrome
FLT-3/ITD

Question 13

Transient myeloproliferative disorder

Answer 13

A preleukaemic disorder that arises during fatal development and hematopoiesis in Down syndrome patients
- present in up to 30% (only clinically evident in 10%)
- diagnosed by presence of megakaryoblasts in peripheral smear
Majority (80%) regress by 3-7 months of life
20-30% of cases will develop AML by 4 years of age

Question 14

AML symptoms

Answer 14

Fevers
Bone pain
Bruising, epistaxis
Pallor anorexia, fatigue
(similar to ALL)

Question 15

AML examination

Answer 15

Hepatosplenomegaly
Pallor
Petechiae
Gingival hypertrophy (uncommon but unique)

Question 16

AML investigations

Answer 16

High WCC (much more conducive to effects of hyper viscosity)
Higher risk of bleeding with coagulopathy
Bone marrow biopsy: >25% with blasts is diagnostic
LP to evaluate for CNS disease
(similar to ALL workup)

Question 17

AML initial treatment

Answer 17

TLS prevention (hyperhydration, arlkalinization, allopurinol)
Correct coagulopathy
Usually will need 6 months of intensive chemotherapy (very immunosuppressive, will need admission until count recovery)

Question 18

AML unique complications

Answer 18

Hyperleukocytosis (5-22%)
Neutropenia (more risk of prolonged neutropenia with AML) - opportunistic infections are the most common cause of death
Mediastinal mass - avoid sedation

Question 19

AML chemotherapy

Answer 19

Induction with daunomycin/cytarabine/etoposide
Cardiac monitoring required due to daunomycin exposure
Due to risk of relapse, higher change of bone marrow transplant compared with ALL

Question 20

Acute promyelocytic leukaemia treatment

Answer 20

Alltrans retinoid acid (ATRA) - 80% survival

Question 21

AML relapse predictors

Answer 21

Karyotype, FLT2 status, response to induction

Question 22

Neuroblastoma overview

Answer 22

Most common extra cranial solid tumour, and most common solid tumour of infancy
Median age 18 months (90% at <10 years)
ALK gain of function mutation in most familial cases (rare)

Question 23

Neuroblastoma pathophysiology

Answer 23

Arises from sympathetic nerve progenitor cells
- 50% arise from the medulla of the adrenal gland, but neuroblastoma can arise anywhere along the sympathetic nerve chain

Question 24

Neuroblastoma - metastatic disease

Answer 24

50-70% have metastatic disease at diagnosis - common site include regional lymph nodes, bone marrow, bone (e.g. orbits), liver and skin sites are more common in young infants

Question 25

Neuroblastoma clinical presentation

Answer 25

Fever, weight loss, abdominal distension, bone pain (high risk disease)

Question 26

Clinical features of neuroblastoma in the abdomen

Answer 26

Abdominal organ compression:
- bowel = constipation
- urinary = retention, UTI
- renal artery = hypertension

Question 26

Clinical features of neuroblastoma (abdominal)

Answer 26

Abdominal organ compression:
- bowel = constipation
- urinary = retention, UTI
- renal artery = hypertension

Question 27

Clinical features of neuroblastoma (orbital lesion)

Answer 27

Proptosis or raccoon eyes

Question 28

Clinical features of neuroblastoma (paraspinal with nerve root invasion)

Answer 28

Weakness, paraplegia

Question 29

Clinical features of neuroblastoma (cervical chain)

Answer 29

Horner syndrome (ptosis, mitosis, anhidrosis)

Question 30

Clinical features of neuroblastoma (mediastinal)

Answer 30

Respiratory symptoms, laryngeal nerve compression, hoarse voice

Question 31

Clinical features of neuroblastoma with large liver metastases

Answer 31

Respiratory distress (from abdominal competition), coagulopathy, renal impairment

Question 32

Opsoclonus-myoclonus syndrome

Answer 32

Caused by antineural antibodies attacking the cerebellum, usually associated with low risk tumours
Opsoclonus: rapid involuntary conjugate movement of the eyes in all directions
Myoclonus: irregular jerking of limbs/trunk
Ataxia and irritability are common

Question 33

Neuroblastoma paraneoplastic syndromes

Answer 33

Opsoclonus-myoclonus syndrome
High-volume secretory diarrhoea (due to excessive vasoactive intestinal polypeptide secretion)
Secretion of catecholamines may cause flushing, headaches, palpitations and hypertension

Question 34

Neuroblastoma bloods

Answer 34

Anaemia, thrombocytopenia or pancytopenia from metastatic disease
Abnormal LFTs/coags if liver mets
Elevated ferritin and LDH

Question 35

Neuroblastoma specific diagnostic tests

Answer 35

Urine or serum catecholamines (HVA, VMA)
MIBG scan - similar in structure to noradrenaline and taken up by tumour (90% of neuroblastoma are MIBG avid)
Biopsy of primary tumour
Bone marrow biopsy for mets

Question 36

Neuroblastoma treatment

Answer 36

Low-risk disease: monitor for regression
Intermediate disease: limited chemotherapy, and surgery if able
High-risk disease: chemo, surgery, radiation, autologous stem cell transplant, and immunotherapy with GD2-directed antibody (dinutuximab)
Relapse rate 50%

Question 37

Subtypes of paediatric brain tumours

Answer 37

Neuroepithelial (gliomas, ependymomas)
Embryonal
Meningeal
Cranial and paraspinal nerve tumours
Choroid plexus tumours

Also described based on location (supratentorial, infratentorial, parasellar, spinal)

Question 38

NF1 and brain tumours

Answer 38

Optic pathway and other low-grade gliomas, malignant peripheral nerve sheath tumours
Other features = cafe-au-lait spots, axillary and groin freckling, neurofibromas on skin, Lisch nodules on iris

Question 39

NF2 and brain tumours

Answer 39

Acoustic sschwannomas, meningiomas, ependymomas
Other features = juvenile cataracts

Question 40

Tuberous sclerosis and brain tumours

Answer 40

Subependymal nodules and giant-cell astrocytomas
Other features = Ash leaf spots and shagreen patches on skin, angiofibromas on the face, angiomyolipomas in kidney, developmental issues, seizures

Question 41

Turcot syndrome and brain tumours

Answer 41

Most often gliomas, but can also have medulloblastomas, ependymomas, astrocytomas
Other features = polyps in colon

Question 42

Gorlin syndrome and brain tumours

Answer 42

Medulloblastomas
Other features = increased risk of BCC, pits in palms and soles, skeletal abnormalities, macrocephaly

Question 43

Li Fraumeni and brain tumours

Answer 43

Astroytomas, glioblastomas, medulloblastomas, choroid plexus carcinomas
Other features = increased risk of breast cancer, osteosarcoma and other sarcomas, leukaemia and adrenocortical carcinoma

Question 44

von Hippel-Lindau syndrome and brain tumours

Answer 44

Hemangioblastomas
Other features = pancreatic and genitourinary tract cysts, increased risk of RCC and pheochromocytoma

Question 45

Cause of early morning vomiting with brain tumours

Answer 45

Vasodilation of cerebral vessels overnight leads to increased cerebral blood volume, followed by increased CSF production

Question 46

Clinical presentation of brain tumours

Answer 46

Headache, nausea and vomiting (morning), macrocephaly in infants, irritability, obstructive hydrocephalus, neurological symptoms based on location

Question 47

Features of obstructive hydrocephalus

Answer 47

Papilloedema, vomiting, obtundation

Question 48

Clinical features of supratentorial lesion

Answer 48

New seizures, visual changes, diencephalic syndrome (severe emaciation and FTT in otherwise happy infant, due to tumours in hypothalamus)

Question 49

Clinical features of infratentorial lesion

Answer 49

Ataxia, gait abnormalities
Nystagmus (especially with cerebellar tumours)
Parinaud syndrome
Head tilt
Obstructive hydrocephalus

Question 50

Parinaud syndrome

Answer 50

Paralysis of up gaze, pupils are mid-dilated and poorly reactive to light, convergence or retraction nystagmus, and eyelid retraction (from pineal or dorsal midbrain tumours)

Question 51

Complication of resection of intratentorial tumour?

Answer 51

Cerebellar mutism syndrome = mutism, irritability, ataxia, and hypotonia which lasts a few weeks to 6 months, followed by a period of dysarthria that eventually self resolves

Question 52

Clinical features of parasellar lesion

Answer 52

Endocrine dysfunction: either under or over producing hormones
Visual field defects from growth upwards into the optic nerve

Question 53

Investigation of brain tumour

Answer 53

Brain and spinal MRI
CSF evaluation to look for mets
Screen TSH, GH, prolactin and other hormone levels as needed if pituitary involved
AFP and HCG for germ cell tumour
Biopsy for definitive diagnosis

Question 54

Low grade gliomas

Answer 54

Most common brain tumour
Neuroepithelial cell of origin
Slow growing, but can have significant symptoms depending on location
e.g. pilocytic astrocytoma, optic nerve gliomas

Question 55

Pilocytic astrocytoma

Answer 55

Low grade glioma
Infratentorial, usually arising in cerebellum
Most common glioma in children

Question 56

High grade gliomas

Answer 56

Neuroepithelial cell of origin
Infratentorial: most often diffuse intrinsic pontine glioma (DIPG)
Supratentorial: anapaestic astrocytoma, glioblastoma multiforme (GBM)

Question 57

Medulloblastomas

Answer 57

Most common malignant brain tumour
Embryonal cell of origin
Arise in cerebellum
Can be metastatic to bone marrow

Question 58

Craniopharyngioma

Answer 58

Parasellar tumour
Arises from ectodermal remnants of Rathke cleft
Endocrine issues are common (is near pituitary and hypothalamus), visual changes if optic chasm involved
Skull film can show calcification in the sella turcica
Excellent prognosis (>90% survive)

Question 59

Pituitary adenoma

Answer 59

Parasellar tumour
Anterior pituitary gland tumour
Benign
Micro <1cm, macro >1cm
Non-secreting tumours (30%), secreting tumours (70%)

Question 60

Hormone secreting tumour features

Answer 60

Prolactinomas cause milk production and inhibit GbRH, resulting in diminished testicular/ovarian function
Gigantism/acromegaly from GH
Cushing disease from ACTH
Hyperthyroidism

Question 61

Germ cell tumours

Answer 61

Germinomas: most common, good outcomes
Nongerminomas: some produce hormones - choriocarcinoma (bHCG), yolk sac tumour (AFP)

Question 62

Ependymoma

Answer 62

Derived from ependymal cells that secrete CSF
65-75% are infratentorial in childhood
Can be low or high grade

Question 63

Choroid plexus carcinoma

Answer 63

Mass in region of the choroid plexus
Often causes hydrocephalus because it arises in ventricles
High grade tumour, poor prognosis

Question 64

Atypical teratoid/rhabdoid tumours (ATRT)

Answer 64

Aggressive tumour that can arise anywhere in the CNS, usually in patients less than 3 years old
Caused by mutations in SMARCB1 (often result in multifocal tumours, usually renal)

Question 65

Treatment of brain tumours

Answer 65

Dexamethasone for symptom relief
Surgical resection when able (plus often VP shunt needed)
Chemotherapy
Radiation

Question 66

Pituitary adenoma treatment

Answer 66

No need to treat microadenoma if not symptomatic
Medical management of prolactinomas: dopamine agonist (decreases size of adenoma and decreases prolactin), if prolactin levels do not normalise, proceed to surgical debulking

Question 67

Wilms tumour

Answer 67

2-5 years
Painless abdominal mass
Metastatic sites: regional lodes, lungs, liver
Rx: surgery and chemotherapy, radiation if advanced

Question 68

Mesoblastic nephroma

Answer 68

<1 year (median age 1-2 months)
Abdominal mass (may be noted prenatally), haematuria
No metastatic sites (benign)
Rx: nephrectomy

Question 69

Clear-cell carcinoma

Answer 69

1-6 years
Abdominal mass
Metastatic sites: lungs, brain, bone
Rx: surgery, chemotherapy and radiation

Question 70

Rhabdoid tumour

Answer 70

<3 years
Fever, haematuria
Metastatic sites: lungs, brain (atypical teratoid/rhabdoid tumour)
Rx: surgery, chemotherapy and often radiation

Question 71

Renal cell carcinoma

Answer 71

Adolescents
Haematuria, flank pain, abdominal mass
Metastatic sites: regional nodes, lung, liver
Rx: complete surgical resection including affected nodes

Question 72

Conditions associated with hepatoblastoma?

Answer 72

Beckwith-Wiedemann/hemihypertrophy
Very low birth weight/prematurity
Glycogen storage diseases
Familial adenomatous polyposis
Trisomy 18

Question 73

Conditions associated with hepatocellular carcinoma

Answer 73

Chronic hepatitis B and C
Alagille syndrome
Glycogen storage diseases
Tyrosinaemia
Progressive familial intrahepatic cholestasis
Wilson disease
Haemochromatosis
Autoimmune hepatitis

Question 74

Osteosarcoma

Answer 74

Adolescent
Most common malignant bone tumour, M>F
Femur > tibia > humerus
Metaphysis (with “sunburst” appearance)
No genetic findings
Treatment: surgery and chemotherapy

Question 75

Ewing sarcoma

Answer 75

10-20 year olds
Lower extremity > pelvis > chest wall
Diaphysis affected (with “onion skin” appearance)
Genetics: EWSR1-FLI1 fusion (t11,22)
Rx: surgery or radiation, and chemotherapy

Question 76

Clinical presentation of osteosarcoma

Answer 76

Unilateral bone pain
Pathological frature
Palpable hard mass/swelling
Rarely erythematous

Question 77

Investigation of osteosarcoma

Answer 77

XR: periostea new bone formation (“sunburst”)
MRI
CT chest for metastatic spread - mets in lung in 15% at time of diagnosis
PET scan
Biopsy required for diagnosis

Question 78

Treatment of osteosarcoma

Answer 78

Surgical resection - amputation vs limb sparing surgery, radiation is not effective in fully eradicating
Neoadjuvant and adjuvant chemotherapy are necessary for cure as 80% have micrometastatic disease
- methotrexate, doxorubicin, cisplatin

Question 79

Presentation of Ewing sarcoma

Answer 79

Pain (dependent on site)
Pathologic fracture
Constitutional symptoms are more common in metastatic disease
Due to marrow involvement, can have pancytopenia

Question 80

Investigations in Ewing sarcoma

Answer 80

LDH - offers prognostic information
XR: destructive diaphysial bone lesion, sometimes accompanied by periosteal reaction (onion skinning)
MRI, CT chest, PET scan
Bone marrow aspirate and biopsy

Question 81

Treatment in Ewing sarcoma

Answer 81

Surgery preferred, radiation used in patients with non-resectable disease
Chemotherapy necessary as all patients are assumed to have micrometastatic disease
- vincristine, doxorubicin, cyclophosphamide, ifosfamide, etoposide
Prognostic factors: improved outcomes in young, in females, and extraskeletal tumours, high LDH is worse prognosis

Question 82

Tumour syndromes - inactivation of tumour suppressor genes

Answer 82

Li-Fraumeni (p53) syndrome
NF1 and NF2
Familial retinoblastoma
Von Hippel-Lindau disease
Tuberous sclerosis

Question 83

Tumour syndromes - defects in DNA repair

Answer 83

Bloom syndrome
Fanconi anaemia
Xeroderma pigmentosum
Ataxia-telangiectasia

Question 84

Alkylating agents

Answer 84

Disrupt double helix of DNA by adding aryl groups -> leads to DNA breakage and cell death
Most active in resting phase of cell cycle

Question 85

Cyclophosphamide

Answer 85

MoA: alkylating agent - alkylates guanine -> inhibit DNA synthesis
Indication: ALL, NHL, HL, soft tissue sarcoma, Wilms, neuroblastoma
AE: hemorrhagic cystitis, pulmonary fibrosis, SIADH, infertility
Other: Mesna prevents hemorrhagic cystitis

Question 86

Ifosfamide

Answer 86

MoA: alkylating agent - alkylates guanine -> inhibits DNA synthesis
Indication: NHL, Wilms, soft tissue sarcoma
AE: SIADH, renal tubular acidosis, ifosfamide encephalitis, infertility
Other: Mesna prevents hemorrhagic cystitis

Question 87

Ifosfamide encephalopathy

Answer 87

Wears off once the drug is cleared - treat with thiamine or methylene blue

Question 88

Antimetabolites

Answer 88

Folic acid, pyridine and purine analogues
Similar structure to naturally occurring molecules in DNA/RNA synthesis but interfere with normal cellular function
Cause cell death during S phase of cell growth, or inhibit enzymes needed for nucleic acid production

Question 89

Methotrexate

Answer 89

MoA: antimetabolite, folate antagonist; inhibits dihydrofolate reductase
Indication: ALL, NHL, osteosarcoma, HL, medulloblastoma
AE: common (N/V, hepatitis, photosensitive dermatitis), renal and CNS toxicity (can cause effusions, low IQ), IT arachnoiditis, leukoencephalopathy
Other: if toxic - carboxypeptidase given
Can’t give with penicillin, PPIs or Bactrim

Question 90

6-mercaptopurine/6-thioguanine

Answer 90

MoA: antimetabolite, purine analog; inhibits purine synthesis
Indication: ALL
AE: myelosuppression
- 6MP: hypoglycaemia
- 6TG: VOD
Other: allopurinol inhibits metabolism/increases toxicity

Question 91

Cytarabine (Ara-c)

Answer 91

MoA: antimetabolite, pyrimidine analog; inhibits DNA polymerase
Indication: ALL, AML, NHL, HL
AE: cytarabine fevers/flu like symptoms
Other: can be given intrathecal

Question 92

5-flurouracil (5-FU)

Answer 92

MoA: antimetabolite, pyridine base
Indication: multiple solid tumours

Question 93

Vinca alkaloids

Answer 93

Cytotoxics; halt division of cells and cause cell death - bind to tubular and inhibit formation of spindle fibres (microtubules) during MITOSIS

Question 94

Vincristine

Answer 94

MoA: vinca alkaloid, inhibits microtubule formation
Indication: ALL, NHL, HL, Wilms, Ewing, neuroblastoma, rhabdomyosarcoma
AE: constipation, neuropathy (peripheral, sensorimotor, autonomic), jaw pain
Other: given IV only, must not be allowed to extravasate (can cause severe injury)

Question 95

Vinblastine

Answer 95

MoA: vinca alkaloids, inhibits microtubule formation
Indication: NHL, HL, Langerhans cell histiocytosis, CNS tumours
AE: cellulitis, leukopenia
Other: IV only, must not extravasate

Question 96

Topoisomerase inhibitors

Answer 96

Disrupt topoisomerase I and II, which play biggest role in uncoiling DNA for replication

Question 97

Etoposide

Answer 97

MoA: topoisomerase inhibitor
Indication: ALL, NHL, germ cell tumour, Ewing
AE: secondary leukaemia

Question 98

Anthracyclines

Answer 98

Increase oxygen free radicals, risk of cardiac toxicity

Question 99

Doxorubicin

Answer 99

MoA: binds to DNA, intercalation
Indications: ALL, AML, osteosarcoma, Ewing, HL, NHL, neuroblastoma
AE: cardiomyopathy, red urine, necrosis on extravasation
Other: dexrazoxane reduces risk of cardiotoxicity

Question 100

Danorubicin

Answer 100

MoA: affects DNA
Indications: ALL
AE: cardiomyopathy, red urine, necrosis on extravasation
Other: dexrazoxane reduces risk of cardiotoxicity

Question 101

Carboplatin

Answer 101

MoA: inhibit DNA synthesis
Indications: osteosarcoma, neuroblastoma, CNS tumours, germ cell tumours
AE: N/V, myelosuppression, anaphylaxis
Other: aminoglycosides may increase nephrotoxicity

Question 102

Cisplatin

Answer 102

MoA: inhibit DNA synthesis
Indications: osteosarcoma, neuroblastoma, CNS tumours, germ cell tumours
AE: N/V +++, ototoxicity, renal impairment
Other: amifostine is given as otoprotection, sodium thiosulfate is also protective

Question 103

L-asparaginase

Answer 103

MoA: depletion of L-asparagine, specific to leukaemia cells
Indication: ALL, AML in combo with cytarabine
AE: anaphylaxis, pancreatitis, coagulopathy, hyperglycaemia, cerebral sinus thrombosis
Other: PEG-asparaginase now preferred to L-asparaginase

Question 104

PEG-asparaginase

Answer 104

MoA: polyethylene glycol conjugate of L-asparagine
Indications: ALL
Other: usually only given once

Question 105

Bleomycin

Answer 105

MoA: binds to DNA, cleaves DNA strands
Indications: HL, NHL, germ cell tumours
AE: pneumonitis, pulmonary fibrosis, mucocutaneous reactions (often affects palms)
Other: arrest at G2 phase, no myelosuppression

Question 106

Dactinomycin

Answer 106

MoA: binds to DNA, inhibits transcription
Indications: WIlms, rhabdomyosarcoma, Ewing
AE: myelosuppression, mucosal ulceration, tissue necrosis on extravasation

Question 107

Tretinoin

Answer 107

MoA: enhances normal differentiation
Indications: acute promyelocytic leukaemia, neuroblastoma
AE: dry mouth, hair loss, pseudotumour cerebri, birth defects, premature epiphyseal closure

Question 108

Prednisolone and dexamethasone (as chemo)

Answer 108

MoA: lymphatic cell lysis, unclear mechanism
Indications: ALL, HL, NHL
AE: Cushing, cataracts, diabetes, HT, myopathy
Other: can suppress fever, avoid in brain tumours

Question 109

Side effects for chemo agents preventing DNA replication

Answer 109

All cause the same side effects: myelosuppression, nausea, mucositis, hair loss, loss of fertility

Question 110

Intrathecal chemotherapy?

Answer 110

Methotrexate
Cytarabine

Question 111

Key side effects - bleomycin

Answer 111

Pulmonary fibrosis

Question 112

Key side effects - bulsulfan

Answer 112

Seizures

Question 113

Key side effects - cisplatin

Answer 113

Hearing loss, nephrotoxic, nausea

Question 114

Key side effects - cyclophosphamide

Answer 114

Haemorrhagic cystitis, secondary leukaemia, sterility, herpes zoster

Question 115

Key side effects - cytarabine

Answer 115

Nausea and vomiting, mucositis, myelosuppression

Question 116

Key side effects - daunorubicin

Answer 116

Radiation recall reactions, cardiotoxicity

Question 117

Key side effects - doxorubicin

Answer 117

Cardiotoxicity

Question 118

Key side effects - etoposide

Answer 118

Secondary leukaemia, myelosuppression

Question 119

Key side effects - methotrexate

Answer 119

High dose: mucositis, LFT derangement, renal failure, third space accumulation

Question 120

Key side effects - ifosfamide

Answer 120

Proximal RTA, Fanconi

Question 121

Key side effects - procarbazine

Answer 121

Sterility

Question 122

Key side effects - vincristine

Answer 122

Neurotoxicity, jaw pain, constipation, foot drop (don’t give to neuropathic patients), extravasation burns, CYP450 substrate
FATAL if intrathecal

Question 123

Chemo agents that cause minimal/no myelosuppression

Answer 123

Vinca alkaloids
Enzymes (asvparaginase)
Bleomycin
Steroids