Haematology - Pharmacology

Question 1

What is the mechanism by which heparin anticoagulates?

Answer 1

It catalyzes the activation of antithrombin III and reduces levels of thrombin and factor Xa

Question 2

How can you rapidly reverse the anticoagulation induced by heparin administration?

Answer 2

Give protamine sulfate, a positively charged molecule that binds negatively charged heparin

Question 3

Compare enoxaparin and heparin.

Answer 3

Enoxaparin is more specific for factor Xa, has higher bioavailability, and 2-4 times longer half-life

Question 4

What difference between heparin and enoxaparin should be considered when there is a concern of excessive anticoagulation?

Answer 4

Enoxaparin is not easily reversible, whereas heparin can be reversed by the administration of protamine sulfate; heparin also has a shorter half-life

Question 5

What are the benefits of enoxaparin that allow it to be used in the outpatient setting, as opposed to heparin?

Answer 5

Enoxaparin can be administered subcutaneously, has a longer half-life, and does not need monitoring

Question 6

Name four toxicities of heparin.

Answer 6

Bleeding, thrombocytopenia, osteoporosis, and drug-drug interactions

Question 7

During pregnancy, is heparin or warfarin the preferred method of anticoagulation?

Answer 7

Heparin; unlike warfarin, which is a teratogen, heparin does not cross the placenta and thus can be used during pregnancy

Question 8

What laboratory test can be used to determine if the heparin dose is in the therapeutic range?

Answer 8

The partial thromboplastin time, because heparin activates antithrombin III, which is involved in the intrinsic coagulation pathway

Question 9

A 70-year-old woman is given prophylactic heparin while hospitalized for pneumonia. Five days later she develops deep vein thromboses and has a low platelet count. What disease is the likely cause of her sudden thrombocytopenic, hypercoagulable state?

Answer 9

Heparin-induced thrombocytopenia; this is an antibody-mediated process that destroys some platelets and overactivates those that remain

Question 10

Name five clinical uses for heparin.

Answer 10

Immediate anticoagulation for pulmonary embolism, stroke, acute coronary syndrome, myocardial infarction, deep vein thrombosis

Question 11

What is the mechanism of action of lepirudin or bivalirudin?

Answer 11

These are hirudin derivatives (an anticoagulant produced by leeches) that directly inhibit thrombin

Question 12

A patient who was started on heparin therapy develops heparin-induced thrombocytopenia; what change should be made to his treatment regimen?

Answer 12

Discontinue the heparin and continue anticoagulation using lepirudin or bivalirudin (direct thrombin inhibitors)

Question 13

What is the mechanism by which warfarin anticoagulates?

Answer 13

It interferes with normal synthesis and the gamma-carboxylation of the vitamin K-dependent clotting factors II, VII, IX, and X and proteins C and S

Question 14

What laboratory test is used to determine if a patient taking warfarin is in the therapeutic range?

Answer 14

The prothrombin time will be increased because warfarin affects the EXtrinsic pathway (factor VII) (remember: the EX-PresidenTwent to WAR(farin))

Question 15

What is the therapy of choice for patients who require chronic anticoagulation: heparin or warfarin?

Answer 15

Warfarin; this is preferred to heparin because it can be administered orally

Question 16

Name four toxicities of warfarin.

Answer 16

Bleeding, teratogenic effects (contraindicated in pregnancy), drug-drug interactions, and skin/tissue necrosis

Question 17

How is warfarin metabolized?

Answer 17

By the cytochrome P450 pathway in the liver

Question 18

What is the difference in administration between heparin and warfarin?

Answer 18

Heparin is administered parenterally (intravenously or subcutaneously) whereas warfarin is given orally

Question 19

What is the difference in the onset of action between heparin and warfarin?

Answer 19

Heparin acts within seconds, whereas warfarin has a slow onset dependent on the half-lives of the normal clotting factors

Question 20

Describe the treatment of acute warfarin overdose.

Answer 20

Intravenous vitamin K and fresh frozen plasma

Question 21

Name four drugs that can be used to lyse an existing thrombus.

Answer 21

Thrombolytics include streptokinase, urokinase, tissue plasminogen activator (alteplase), and anisoylated plasminogen streptokinase activator complex (anistreplase)

Question 22

Which terminal pathway in the coagulation cascade is enhanced by the administration of thrombolytics?

Answer 22

Degradation of fibrin and fibrinogen to fibrin-split-products and deactivation of thrombin

Question 23

What treatment option can potentially reverse the pathology of an early myocardial infarction or ischemic stroke?

Answer 23

Prompt administration of thrombolytics

Question 24

What major complication can be seen from the administration of thrombolytics?

Answer 24

Bleeding

Question 25

Name five contraindications for thrombolytics that are related to increased risk of bleeding.

Answer 25

Patients with active bleeding, a history of intracranial bleeding, recent surgery, known bleeding disorders, or severe hypertension

Question 26

What is the pharmacologic treatment for thrombolytic toxicity?

Answer 26

Aminocaproic acid, an inhibitor of fibrinolysis; this medication can also be given to hemophiliacs for dental procedures

Question 27

What is the primary enzymatic reaction that thrombolytics affect?

Answer 27

They either directly or indirectly aid the conversion of plasminogen to plasmin, which initiates fibrinolysis

Question 28

How do thrombolytics affect the prothrombin time, partial thromboplastin time, and platelet count?

Answer 28

There is an increase in both the prothrombin time and partial thromboplastin time due to deactivation of thrombin, and no effect on the platelet count

Question 29

How does abciximab downregulate platelet aggregation?

Answer 29

Abciximab is a monoclonal antibody that binds to the glycoprotein receptor IIb/IIIa on activated platelets, thereby preventing aggregation

Question 30

What is the mechanism of action of aspirin as an anticoagulant?

Answer 30

Aspirin acetylates and irreversibly inhibits cyclooxygenase-1 and cyclooxygenase-2 to prevent the conversion of arachidonic acid to thromboxane A2

Question 31

What is the effect of aspirin on bleeding time, prothrombin time, and partial thromboplastin time?

Answer 31

Aspirin increases bleeding time but has no effect on prothrombin time or partial thromboplastin time (it only affects platelets)

Question 32

Name five common toxicities of aspirin.

Answer 32

Gastric ulceration, bleeding, hyperventilation, Reye;s syndrome, and tinnitus (cranial nerve VIII)

Question 33

Name four clinical effects of aspirin administration.

Answer 33

Antipyretic, analgesic, antiinflammatory, and antiplatelet

Question 34

What is the mechanism of action of clopidogrel and ticlopidine?

Answer 34

They inhibit platelet aggregation by irreversibly blocking adenosine diphosphate receptors; without adenosine diphosphate activation there is no glycoprotein IIb/IIIa expressed to bind fibrinogen

Question 35

Name a potentially life-threatening toxicity of the antiplatelet drug ticlopidine.

Answer 35

Neutropenia

Question 36

What are three common clinical uses of clopidogrel and ticlopidine?

Answer 36

Acute coronary syndrome, during coronary stenting, and reducing the incidence or recurrence of thrombotic stroke

Question 37

Name a monoclonal antibody that binds the glycoprotein IIb/IIIa receptor on activated platelets and that prevents aggregation.

Answer 37

Abciximab

Question 38

What are clinical uses of abciximab?

Answer 38

Coronary artery disease: acute coronary syndromes or during percutaneous transluminal coronary angioplasty

Question 39

Name the two most common toxicities of abciximab.

Answer 39

Bleeding and thrombocytopenia

Question 40

What occurs during stage G1 of the cell cycle?

Answer 40

The synthesis of components that are needed for DNA synthesis

Question 41

What occurs during stage S of the cell cycle?

Answer 41

DNA synthesis

Question 42

What occurs during stage G2of the cell cycle?

Answer 42

The synthesis of components that are needed for mitosis

Question 43

What occurs during stage M of the cell cycle?

Answer 43

Mitosis

Question 44

During which stage of the cell cycle do vinca alkaloids and taxols work?

Answer 44

M

Question 45

During which stage of the cell cycle do antimetabolite drugs work?

Answer 45

S

Question 46

During which stages of the cell cycle does etoposide work?

Answer 46

G2

Question 47

During which stage of the cell cycle does bleomycin work?

Answer 47

G2

Question 48

Name three antineoplastic drugs that function by interfering with nucleotide synthesis.

Answer 48

Methotrexate, fluorouracil, and 6-mercaptopurine

Question 49

What reaction is inhibited by the administration of either methotrexate or fluorouracil?

Answer 49

The synthesis of thymidine, a pyrimidine

Question 50

What reaction is inhibited by the administration of 6-mercaptopurine?

Answer 50

The synthesis of purines

Question 51

Name five antineoplastic drugs that function by damaging DNA.

Answer 51

Alkylating agents, cisplatin, dactinomycin, doxorubicin, etoposide

Question 52

How do alkylating agents and cisplatin exert an antineoplastic effect?

Answer 52

These agents introduce cross-links in the DNA structure

Question 53

Which antineoplastic drugs interfere with DNA by intercalating into the double helix?

Answer 53

Doxorubicin, dactinomycin

Question 54

How does etoposide exert its antineoplastic effect?

Answer 54

Etoposide inhibits topoisomerase II, which is needed to relieve DNA supercoils

Question 55

Name two antineoplastic drugs that function by interfering with cellular division.

Answer 55

Vinca alkaloids, paclitaxel

Question 56

How do vinca alkaloids exert their antineoplastic effect?

Answer 56

They inhibit microtubule formation, which results in an inability of the cell to perform mitosis

Question 57

How does paclitaxel exert its antineoplastic effect?

Answer 57

Paclitaxel inhibits microtubule disassembly, which interrupts the dynamic process required for cell division

Question 58

What drug, used as an antineoplastic agent, is a folic acid analog that works by inhibiting dihydrofolate reductase?

Answer 58

Methotrexate; inhibiting dihydrofolate reductase results in less deoxythymidine monophosphate, which is needed for DNA and protein synthesis

Question 59

Name four cancers that methotrexate can be used to treat.

Answer 59

Leukemias, lymphomas, choriocarcinomas, and sarcomas (all have many dividing tumor cells)

Question 60

Name three nonneoplastic conditions in which methotrexate can be used.

Answer 60

Abortion in ectopic pregnancy (blocks cell proliferation), rheumatoid arthritis, and psoriasis (decreased immune proliferation and response)

Question 61

What agent can be administered to reverse the bone marrow suppression seen with methotrexate use?

Answer 61

Leucovorin (folinic acid) can be used to rescue the bone marrow by competing with methotrexate for binding sites; however, it does not reverse the effects of fluorouracil

Question 62

Other than myelosuppression, what are three toxicities of treatment with methotrexate?

Answer 62

Patients can develop a painful mucositis and microvesicular fatty changes in the liver, and it is a teratogen (remember: used for abortion in ectopic pregnancy)

Question 63

How does fluorouracil, a pyrimidine, interact with folic acid?

Answer 63

Fluorouracil is converted to 5F-dUMP, which covalently binds folic acid rendering it ineffective (noncompetitive inhibition)

Question 64

What enzyme is inhibited by the 5F-dUMP/folic acid complex?

Answer 64

This complex inhibits thymidylate synthase, which is needed to form deoxythymidine monophosphate for DNA and protein synthesis

Question 65

Often given in conjunction with methotrexate, fluorouracil is administered in the treatment of which tumors?

Answer 65

Colon cancer and solid tumors (it is a part of the FOLFOX regimen); it is applied topically for basal cell carcinoma

Question 66

A patient is given an excessive dose of fluorouracil; what can be administered to the patient to reduce toxicity?

Answer 66

Thymidine (remember: folinic acid will not reverse fluorouracil)

Question 67

What precaution should patients on fluorouracil take, especially in the summer?

Answer 67

Sun protection; fluorouracil can cause photosensitivity

Question 68

What is the mechanism by which 6-mercaptopurine and 6-thioguanine exert an antineoplastic effect?

Answer 68

These are purine analogs, which inhibit de novo purine synthesis; they are activated by hypoxanthine-guanine phosphoribosyltransferase

Question 69

6-mercaptopurine is used in the treatment of what types of cancers?

Answer 69

Leukemias and lymphomas (although not used in chronic lymphocytic leukemia or Hodgkin;s lymphoma)

Question 70

Which disease is treated using 6-thioguanine?

Answer 70

Acute lymphoblastic leukemia

Question 71

You are treating a patient with leukemia and are considering using either 6-mercaptopurine or 6-thioguanine. Which should be used if you are also going to treat with allopurinol to prevent tumor lysis syndrome?

Answer 71

6-thioguanine; 6-mercaptopurine is metabolized by xanthine oxidase, the enzyme blocked by allopurinol and may thus reach toxic levels if given together

Question 72

What adverse effects are seen in patients treated using 6-mercaptopurine or 6-thioguanine?

Answer 72

Bone marrow suppression and liver disease; patients on 6-mercaptopurine also often have gastrointestinal complaints

Question 73

How does cytarabine exert its antineoplastic effect?

Answer 73

It is a pyrimidine antagonist, which inhibits DNA polymerase (needed in S phase)

Question 74

What neoplasms are commonly treated using cytarabine?

Answer 74

Cytarabine is used to treat leukemias and lymphomas (acute myelogenous leukemia, acute lymphoblastic leukemia, and high-grade non-Hodgkin;s lymphoma)

Question 75

What are three adverse effects seen in the use of cytarabine?

Answer 75

Leukopenia, thrombocytopenia, and megaloblastic anemia

Question 76

Name three antineoplastic drugs that function by intercalating into DNA strands.

Answer 76

Dactinomycin (actinomycin D), daunorubicin, and doxorubicin work by intercalating in DNA strands, causing structural and functional distortions

Question 77

What are three neoplasms in which dactinomycin is commonly used?

Answer 77

Ewing sarcoma, Wilms; tumor, and rhabdomyosarcoma (think of childhood tumors: ACTinomycin D because children ACT out)

Question 78

Which of the antitumor antibiotics has the least myelosuppression as an adverse effect?

Answer 78

Bleomycin; myelosuppression is a common adverse effect of all other antitumor antibiotics

Question 79

What common mechanism is seen in the antineoplastic drugs bleomycin, daunorubicin, and doxorubicin?

Answer 79

These drugs generate free radicals, which can cause DNA strand breaks and halt cell replication

Question 80

Which malignancies are commonly treated with doxorubicin or daunorubicin?

Answer 80

Hodgkin;s lymphoma (the A in the ABVD regimen), myeloma, sarcoma, and solid tumors like breast, lung, or ovarian cancer

Question 81

A patient presents late in the course of chemotherapy treatments with new symptoms of heart failure; what antineoplastic drug was likely a part of his regimen?

Answer 81

Doxorubicin and daunorubicin are notorious for dose-dependent cardiotoxicity; patients may also develop alopecia or other tissue toxicity

Question 82

Name two neoplasms commonly treated with bleomycin.

Answer 82

Testicular cancer and Hodgkin;s lymphoma (the B in the ABVD regimen)

Question 83

After several rounds of chemotherapy, a patient complains of severe dyspnea and your exam fails to find symptoms of heart failure; what antitumor antibiotic is likely a part of his chemotherapy regimen?

Answer 83

Bleomycin, an antineoplastic agent that has the well-documented adverse effect of pulmonary fibrosis; you may also see skin changes as an adverse effect

Question 84

When does etoposide interfere with the cell cycle?

Answer 84

Between G2 and S phase; etoposide inhibits topoisomerase II, which is needed to uncoil DNA strands and synthesize a sister chromatid

Question 85

Name three neoplasms commonly treated using etoposide.

Answer 85

Small-cell carcinoma of the lung, small-cell carcinoma of the prostate, and testicular cancer

Question 86

Which chemotherapeutic drugs are most likely to cause alopecia as an adverse effect?

Answer 86

Doxorubicin, daunorubicin, and etoposide

Question 87

Which alkylating agent requires activation by the liver (and thus might not be effective in a patient with liver failure)?

Answer 87

Cyclophosphamide or ifosfamide; these cause DNA crosslinks at the 7 position of guanine

Question 88

Which alkylating agents are effective at penetrating the blood-brain barrier to access the central nervous system?

Answer 88

Nitrosoureas, including carmustine, lomustine, semustine, and streptozotocin

Question 89

Cyclophosphamide and ifosfamide are commonly used to treat which conditions?

Answer 89

These are used in breast cancer, ovarian cancer, and non-Hodgkin;s lymphoma; they are also used at lower doses as immunosuppressants

Question 90

A patient who has been receiving chemotherapy for breast cancer presents with dark urine and is found to have many red blood cells in urine; this could have been avoided using what medication?

Answer 90

Mesna; this patient has hemorrhagic cystitis from cyclophosphamide use

Question 91

Which alkylating agents are used especially in treating central nervous system neoplasms?

Answer 91

Nitrosoureas; since they penetrate the blood-brain barrier they are used to treat brain tumors like glioblastoma multiforme, but also have central nervous system toxicities like dizziness and ataxia

Question 92

Which alkylating agent would you choose in a patient about to undergo hematopoietic stem cell transplantation?

Answer 92

Busulfan, which will ablate the host bone marrow before transplantation; it is also used in the treatment of chronic myelogenous leukemia

Question 93

What toxicity is common to both busulfan and bleomycin?

Answer 93

Pulmonary fibrosis; both busulfan and bleomycin can result in lung disease

Question 94

Which antineoplastic drugs bind to tubulin during the M phase, inhibiting the formation of microtubules?

Answer 94

Vincristine or vinblastine; microtubules are the vines of your cells, and without them the mitotic spindle cannot form

Question 95

Name three neoplasms commonly treated using a vinca alkaloid (vincristine or vinblastine).

Answer 95

Hodgkin;s lymphoma (the MOPP regimen contains vincristine), Wilms; tumor, and choriocarcinoma

Question 96

What toxicities are associated with vincristine treatment?

Answer 96

Neurotoxicity, including areflexia and peripheral neuritis, as well as paralytic ileus

Question 97

What toxicity is associated with vinblastine treatment?

Answer 97

Bone marrow suppression (remember: vinBLASTine BLASTs Bone marrow)

Question 98

What antineoplastic drug functions by hyperstabilizing the mitotic spindle so that tumor cells are unable to complete anaphase?

Answer 98

PacliTAXel or other TAXols (remember: it is TAXing to stay polymerized [the microtubule stays polymerized])

Question 99

Which neoplasms are commonly treated using taxols?

Answer 99

Breast and ovarian carcinomas

Question 100

What are the clinical uses of cisplatin and carboplatin?

Answer 100

Testicular, bladder, ovary, and lung carcinomas

Question 101

Name two major toxicities of cisplatin and carboplatin.

Answer 101

Nephrotoxicity and acoustic nerve damage

Question 102

Which drug inhibits ribonucleotide reductase, acting during the S phase to decrease DNA synthesis?

Answer 102

Hydroxyurea

Question 103

What are the three clinical uses for hydroxyurea?

Answer 103

Melanoma, chronic myelogenous leukemia, and sickle cell disease (hydroxyurea increases concentration of hemoglobin F)

Question 104

What is the most commonly used glucocorticoid in cancer chemotherapy?

Answer 104

Prednisolone

Question 105

Which cancers have prednisone as part of their treatment regimen?

Answer 105

Chronic lymphocytic leukemia, Hodgkin;s lymphoma (MOPP regimen)

Question 106

How is prednisone thought to exert an antineoplastic effect?

Answer 106

Prednisone is thought to induce apoptosis, and may even affect nondividing cells

Question 107

Name two selective estrogen receptor modulators that are used to treat breast cancer.

Answer 107

Tamoxifen and raloxifene

Question 108

What is the primary mechanism of action of tamoxifen and raloxifene?

Answer 108

They are selective estrogen receptor modulators that block binding of estrogen to estrogen-receptor-positive cells

Question 109

A postmenopausal woman who recently started on a selective estrogen receptor modulator for breast cancer complains of vaginal spotting; what condition should you be concerned about?

Answer 109

Endometrial carcinoma; because of its partial agonist effects, tamoxifen increases the risk of endometrial carcinoma; raloxifene does not increase the risk of endometrial carcinoma

Question 110

Why is raloxifene not associated with an increased risk of endometrial carcinoma?

Answer 110

Raloxifene acts as an antagonist at the level of the endometrium; tamoxifen acts as an agonist (increasing endometrial cancer risk)

Question 111

The presence of what tumor marker would prompt you to use tamoxifen in the treatment of breast cancer?

Answer 111

Selective estrogen receptor modulators, like tamoxifen, act on the estrogen receptor, so the tumor should be estrogen receptor positive

Question 112

What treatment option is available in a patient who has metastatic breast cancer that is HER-2/erb-B2 positive?

Answer 112

Trastuzumab, a monoclonal antibody against HER-2

Question 113

What is the proposed mechanism of action of trastuzumab?

Answer 113

Helps kills breast cancer cells that overexpress HER-2, possibly through antibody-dependent cytotoxicity

Question 114

What organ should be monitored closely for adverse effects in a patient taking trastuzumab?

Answer 114

The heart; an adverse effect of trastuzumab therapy is cardiotoxicity

Question 115

What is the mechanism of action of imatinib?

Answer 115

This molecule binds to and inhibits the tyrosine kinase formed by the bcr-abl translocation found in chronic myelogenous leukemia

Question 116

What are the clinical uses for imatinib?

Answer 116

Chronic myelogenous leukemia and gastrointestinal stromal tumors (both express the bcr-abl tyrosine kinase)