Chemotherapy

Question 1

For Numbers 1-5: Match the drug with the ADR *
A. Neurotoxicity
B. Pulmonary Fibrosis
C. Cardiotoxicity
D. Nephrotoxicity
E. Hemorrhagic Cystitis

1. Cyclophosphamide
2. Cisplatin
3. Adriamycin
4. Busulfan
5. Vincristine

Answer 1

1. Cyclophosphamide
   
   • Match: E. Hemorrhagic Cystitis
   • Rationale: Cyclophosphamide is metabolized to acrolein, which is toxic to the bladder epithelium and can cause hemorrhagic cystitis.
2. Cisplatin
   
   • Match: D. Nephrotoxicity
   • Rationale: Cisplatin can cause damage to the renal tubules, leading to nephrotoxicity. It’s known to accumulate in the kidneys and can result in acute kidney injury.
3. Adriamycin (Doxorubicin)
   
   • Match: C. Cardiotoxicity
   • Rationale: Adriamycin can lead to dose-dependent cardiotoxicity, which may result in dilated cardiomyopathy and congestive heart failure due to the generation of free radicals and oxidative stress on cardiac cells.
4. Busulfan
   
   • Match: B. Pulmonary Fibrosis
   • Rationale: Busulfan is associated with causing interstitial pulmonary fibrosis, a well-known chronic adverse effect, which can be dose-limiting and potentially life-threatening.
5. Vincristine
   
   • Match: A. Neurotoxicity
   • Rationale: Vincristine can cause peripheral neuropathy due to its mechanism of action on microtubules, which affects the axonal transport within neurons leading to neurotoxicity.

Question 2

For Numbers 6-8: Match the drug with its source *
A. Etoposide
B. Tamoxifen
C. Vincristine
D. Paclitaxel

6. Mandrake root
7. Vinca rosea
8. Taxus brevifolia

Answer 2

6. Mandrake root
   
   • Match: A. Etoposide
   • Rationale: Etoposide is a semisynthetic derivative of podophyllotoxin, which is derived from the Mayapple plant, not mandrake root. However, given the options and traditional associations of the mandrake with medicinal properties, etoposide is the closest match, as the other listed drugs have well-known specific sources.
7. Vinca rosea
   
   • Match: C. Vincristine
   • Rationale: Vincristine is an alkaloid derived from the Vinca rosea plant, also known as the periwinkle plant.
8. Taxus brevifolis
   
   • Match: D. Paclitaxel
   • Rationale: Paclitaxel is a chemical compound derived from the bark of the Pacific yew tree, Taxus brevifolia.

Tamoxifen (B) is not derived from a plant; it is a synthetic compound and thus does not match with any of the sources listed.

Question 3

For Numbers 9-12: Match the disease with the stage of its highest prevalence *
A. Adulthood
B. Reproductive Age
C. Childhood

9. ALL
10. Testicular Cancer
11. Colon Cancer
12. Brain Cancer

Answer 3

9. ALL (Acute Lymphoblastic Leukemia)
   
   • Match: C. Childhood
   • Rationale: ALL is most commonly diagnosed in children, with the highest incidence in those aged 2-5 years.
10. Testicular Cancer
    
    • Match: B. Reproductive Age
    • Rationale: Testicular cancer is most commonly diagnosed in younger men, typically between ages 15 and 35, which falls within the typical range of reproductive age.
11. Colon Cancer
    
    • Match: A. Adulthood
    • Rationale: The risk of colon cancer increases with age, and it is more prevalent in adults over the age of 50.
12. Brain Cancer (CNS Cancer)
    
    • Match: A. Adulthood
    • Rationale: Brain cancers can occur at any age, but certain types are more prevalent in adults, and overall incidence tends to increase with age.

Question 4

For Numbers 13-21: Cell Cycle Specific or Non-Specific? *
A. Cell Cycle Specific
B. Cell Cycle Non-Specific

13. Fluorouracil
14. Cyclophosphamide
15. Busulfan
16. Bleomycin
17. Mercaptopurine
18. Daunorubicin
19. Thiotepa
20. Vinblastine
21. Mitomycin

Answer 4

Antimetabolites (CLASSIFICATION)

Folic acid Antagonists:
* Methotrexate (MTX)
Purine Antagonists:
* 6-Mercaptopurine (6-MP)
* 6-Thioguanine (6TG)
Pyrimidine Antagonists:
* 5-Fluorouracil (5FU)
* Arabinose C (araC)

Alkylating agents (nitrogen mustard gases)

• Mustine
• Cyclophosphamide
• Nitrosoureas: Carmustine, lomustine, semustine
• Phenylalanine: Melphalan
• Alkyl sulfonates: Busulfan (myleran)
• Thiotepa : triethylene phosphoramide (TEPA)

Question 5

For Numbers 22-25: Match the drug with its MOA *
A. Vinblastine
B. Paclitaxel
C. Methotrexate
D. Adriamycin

22. enhance tubulin polymerization
23. prevent microtubule assembly
24. DNA intercalating agents
25. Inhibit DHF reductase

Answer 5

22. Enhance tubulin polymerization
    
    • Match: B. Paclitaxel
    • Rationale: Paclitaxel stabilizes microtubules by enhancing tubulin polymerization, preventing their disassembly which is necessary for cell division, and thus inhibiting the mitotic process.
23. Prevent microtubule assembly
    
    • Match: A. Vinblastine
    • Rationale: Vinblastine binds to tubulin, inhibiting tubulin polymerization into microtubules, thus preventing the assembly of the mitotic spindle required for cell division.
24. DNA intercalating agents
    
    • Match: D. Adriamycin
    • Rationale: Adriamycin (doxorubicin) is an anthracycline that intercalates into DNA, disrupting the DNA enzyme topoisomerase II, which prevents the relaxation of supercoiled DNA and thus inhibits DNA replication and transcription.
25. Inhibit DHF reductase
    
    • Match: C. Methotrexate
    • Rationale: Methotrexate is an antimetabolite that inhibits dihydrofolate reductase (DHF reductase), an enzyme involved in the tetrahydrofolate synthesis necessary for the production of nucleotides for DNA synthesis.

Question 6

For Numbers 26-30: Match the drug with the target receptor *
A. ER +
B. HER2/ NEU +
C. CD20 on B cells
D. VEGF

26. Tamoxifen
27. Anastrazole
28. Trastuzumab
29. Rituxumab
30. Bevacizumab

Answer 6

26. Tamoxifen
    
    • Match: A. ER +
    • Rationale: Tamoxifen is a selective estrogen receptor modulator (SERM) that binds to estrogen receptors (ER) on cells, commonly used in the treatment of ER-positive breast cancer.
27. Anastrazole
    
    • Match: A. ER +
    • Rationale: Anastrozole is an aromatase inhibitor that lowers estrogen levels and is used to treat ER-positive breast cancer, though it doesn’t bind to the receptor directly like tamoxifen does. However, it is used for the same target receptor-positive condition.
28. Trastuzumab
    
    • Match: B. HER2/ NEU +
    • Rationale: Trastuzumab is a monoclonal antibody that targets the HER2/neu receptor, which is overexpressed in some forms of breast cancer.
29. Rituxumab
    
    • Match: C. CD20 on B cells
    • Rationale: Rituximab is a monoclonal antibody that targets the CD20 antigen on the surface of B cells, used particularly in the treatment of diseases which involve B cells, such as non-Hodgkin lymphoma.
30. Bevacizumab
    
    • Match: D. VEGF
    • Rationale: Bevacizumab is a monoclonal antibody that binds to vascular endothelial growth factor (VEGF), inhibiting angiogenesis which is the formation of new blood vessels that tumors need to grow.

Question 7

For Numbers 31-34: MABS AND NIBS
A. CD 52
B. CD 20
C. VEGF

31. Sorefinib
32. Sunitinib
33. Ofatumumab
34. Alemtuzumab

Answer 7

31. Sorafenib
    
    • Match: C. VEGF
    • Rationale: Sorafenib is a tyrosine kinase inhibitor that targets multiple kinases, including those involved in VEGF signaling.
32. Sunitinib
    
    • Match: C. VEGF
    • Rationale: Sunitinib is a multi-targeted receptor tyrosine kinase inhibitor, and among its targets are kinases involved in VEGF signaling.
33. Ofatumumab
    
    • Match: B. CD20
    • Rationale: Ofatumumab is a monoclonal antibody that targets CD20 on B cells, used for the treatment of chronic lymphocytic leukemia and some other B-cell disorders.
34. Alemtuzumab
    
    • Match: A. CD52
    • Rationale: Alemtuzumab is a monoclonal antibody that targets CD52, a protein present on the surface of mature lymphocytes and used in the treatment of chronic lymphocytic leukemia and multiple sclerosis.

The “nibs” (Sorafenib and Sunitinib) are small-molecule inhibitors that target intracellular signaling pathways, while the “mabs” (Ofatumumab and Alemtuzumab) are monoclonal antibodies that bind to specific cell surface proteins.

Question 8

For Numbers 35-37: Chemotherapy Combinations *
A. MOPP
B. CHOP
C. Both

35. Vincristine
36. Mechlorethamine
37. Cyclophosphamide

Answer 8

35. Vincristine
    
    • Match: C. Both
    • Rationale: Vincristine is included in both MOPP and CHOP chemotherapy regimens.
36. Mechlorethamine
    
    • Match: A. MOPP
    • Rationale: Mechlorethamine (also known as mustine) is part of the MOPP regimen and is not used in CHOP.
37. Cyclophosphamide
    
    • Match: B. CHOP
    • Rationale: Cyclophosphamide is part of the CHOP regimen and is not used in the traditional MOPP regimen.

Question 9

38. Log Kill Hypothesis *
    A. follows first order kinetics
    B. kills fixed percentage of cancer cells
    C. kills fixed number of cancer cells
    D. A and B
    E. B and C

Answer 9

D. A and B.

The log kill hypothesis posits that chemotherapy follows first-order kinetics, meaning that a given dose of chemotherapy kills a constant proportion (or fixed percentage) of cancer cells, rather than a fixed number.

Question 10

For Numbers 39-43: Cell Cycle Specific Drugs *
A. G0 phase
B. S phase
C. G2 phase
D. M phase

39. Paclitaxel
40. Cisplatin
41. 6 Mercaptopurine
42. Bleomycin
43. Etoposide

Answer 10

Cell Cycle Phases

G1 Phase: The cell prepares for DNA synthesis.
S Phase: The cell generates a complete copy of its genetic material.
G2 Phase: The cell prepares for mitosis.
M Phase: Replicated DNA is condensed and segregated into chromosomes.
G0 Phase: A resting state where the cell is not actively dividing.

Question 11

44. This is the dose limiting ADR of alkylating agents *
    A. Agranulocytosis
    B. Myelosuppression
    C. Teratogenesis
    D. Gonadal atrophy

Answer 11

B. Myelosuppression.

The most common and significant dose-limiting adverse reaction of alkylating agents is myelosuppression, which is the decrease in the production of blood cells, often leading to conditions such as anemia, leukopenia, and thrombocytopenia.

Question 12

For Numbers 45-48: RESISTANCE *
A. Cisplatin
B. Dactinomycin
C. Vincristine
D. 6 Mercaptopurine

45. Change in binding affinity
46. Decrease drug accumulation
47. Formation of Drug inactivating enzyme
48. Increased nucleic acid repair mechanism

Answer 12

45. Change in binding affinity
    
    • Match: C. Vincristine
    • Rationale: Resistance to vincristine can occur due to changes in tubulin’s binding affinity, which is the target of vincristine.
46. Decrease drug accumulation
    
    • Match: B. Dactinomycin
    • Rationale: Dactinomycin resistance can occur due to decreased intracellular accumulation of the drug, possibly through changes in cell membrane permeability or active efflux mechanisms.
47. Formation of Drug inactivating enzyme
    
    • Match: D. 6 Mercaptopurine
    • Rationale: Resistance to 6 Mercaptopurine can be due to the increased activity of drug-inactivating enzymes, such as thiopurine methyltransferase.
48. Increased nucleic acid repair mechanism
    
    • Match: A. Cisplatin
    • Rationale: Cisplatin forms DNA adducts and cross-links within DNA strands; resistance can develop when cells enhance their ability to repair this type of DNA damage.

Question 13

49. Uses of Cyclophosphamide EXCEPT *
    A. chemotherapy
    B. immunosuppressant
    C. for rheumatoid arthritis
    D. antibiotic
    E. for autoimmune nephritis

Answer 13

D. antibiotic.

Cyclophosphamide is used as a chemotherapy agent and an immunosuppressant, and it can be used in the treatment of rheumatoid arthritis and autoimmune nephritis. It is not used as an antibiotic because it does not have antibacterial activity.

Question 14

50. Carmustine is used for brain tumors because *
    A. it is best for adult cancers
    B. it penetrates the blood brain barrier excellently
    C. it is lipophobic
    D. all of the above

Answer 14

B. it penetrates the blood-brain barrier excellently.

Carmustine is used in the treatment of brain tumors largely because of its ability to cross the blood-brain barrier, allowing it to reach therapeutic concentrations within the central nervous system. It is not lipophobic; rather, it is lipophilic, which helps in crossing the blood-brain barrier.

Question 15

Cancer that usually occurs during childhood
a. ALL
b. Testicular cancer
c. CNS cancer

Answer 15

a. ALL

Acute Lymphoblastic Leukemia (ALL) is the most common cancer in children and can occur at a young age

Question 16

Cancer that usually occurs during reproductive age
a. ALL
b. Testicular cancer
c. CNS cancer

Answer 16

b. Testicular cancer

Testicular cancer predominantly affects younger men, typically between ages 15 and 35, which includes the reproductive years.

Question 17

What is Log-Kill Hypothesis?
a. Kills fixed percentage of cells
b. Kills fixed number of cells
c. Kills fixed type of cancer cells

Answer 17

a. Kills fixed percentage of cells

The Log-Kill Hypothesis states that a given dose of chemotherapy kills a constant proportion of cancer cells, not a constant number, hence “kills fixed percentage of cells”

Question 18

Drug that inhibits G2 phase
a. 6-MP
b. Bleomycin
c. Vincristine

Answer 18

b. Bleomycin

Bleomycin is known to cause breaks in DNA, thereby inhibiting the G2 phase of the cell cycle before mitosis.

Question 19

Example of antibiotics that are also chemotherapeutic drugs?
(3)
a. Actinomycin
b. Adriamycin
c. Daunorubucin
d. Sulfonamide

Answer 19

a. Actinomycin
b. Adriamycin
c. Daunorubucin

Actinomycin, Adriamycin (doxorubicin), and Daunorubicin are all antibiotics with chemotherapeutic properties,

Question 20

(6-7) Cite 2 features of vinca alkaloids
a. From plant
b. Alkaloid
c. ADR: Cardiotoxicity

Answer 20

a. From plant
b. Alkaloid

Vinca alkaloids are derived from the periwinkle plant (hence “from plant”) and are a class of cell cycle-specific chemotherapy drugs (hence “alkaloid”).

Question 21

Which is cell cycle-specific (CCS) drug
a. Antimetabolites
b. Alkylating agents

Answer 21

a. Antimetabolites

Question 22

Drug that target purine synthesis
a. 5-FU
b. 6MP

Answer 22

b. 6MP

6-MP is a purine antimetabolite, which interferes with the synthesis of purine nucleotides, essential components of DNA and RNA.

Question 23

Indication of tamoxifen
a. Breast CA
b. Colon CA
c. Lymphoma

Answer 23

a. Breast CA

Tamoxifen is an estrogen receptor modulator used primarily in the treatment of breast cancer.

Question 24

Indication of trastuzumab
a. Breast CA
b. Colon CA
c. Lymphoma

Answer 24

a. Breast CA

Trastuzumab is a monoclonal antibody that targets HER2/neu and is used in the treatment of HER2-positive breast cancers.

Question 25

Antidote for cyclophosphamide ADR
a. Leucovorin
b. Mesna
c. Pyridoxine

Answer 25

b. Mesna

Mesna is used to prevent hemorrhagic cystitis, a potential adverse reaction from cyclophosphamide treatment, by inactivating the toxic metabolites in the urinary tract.

Question 26

What is the target of Rituximab?

A) CD52
B) CTLA-4
C) CD20 on B cells
D) IL-2 receptors

Answer 26

C) CD20 on B cells

Question 27

Alemtuzumab is a monoclonal antibody targeting which cell surface marker?

A) CD20
B) CD52
C) CTLA-4
D) CD2

Answer 27

B) CD52

Question 28

Ofatumumab specifically targets which antigen on B cells?

A) CD52
B) CD20
C) IL-2 receptor
D) CTLA-4

Answer 28

B) CD20

Question 29

What does Ipilimumab target to modulate the immune system against cancer?

A) CD20 on B cells
B) CD52
C) CTLA-4 on T cells
D) IL-2 receptors

Answer 29

C) CTLA-4 on T cells

Question 30

Tositumomab and its radioiodinated form, Tositumomab-I, are designed to target which molecule?

A) IL-2 receptor
B) CD52
C) CTLA-4
D) CD20 on B cells

Answer 30

D) CD20 on B cells

Question 31

The target of Ibritumomab, a monoclonal antibody used in cancer therapy, is:

A) CD52
B) CTLA-4
C) CD20 on B cells
D) CD2

Answer 31

C) CD20 on B cells

Question 32

Denileukin targets which component of the immune system?

A) CD20 on B cells
B) CTLA-4 on T cells
C) CD52
D) IL-2 receptors

Answer 32

D) IL-2 receptors