A 72-year-old man has been recently diagnosed with stage 3 squamous cell carcinoma of the oral cavity. After the necessary laboratory workup, concurrent chemoradiation therapy has been planned. Radiation therapy is planned to take place over 7 weeks and he will receive radiation doses daily, Monday–Friday, in 2.0 Gy fractions. For concurrent chemotherapy, he will receive intravenous cisplatin at a dosage of 50 mg/m2 weekly for 7 weeks. Which of the following best explains the mechanism of action of the antineoplastic drug that the patient will receive?

Formation of interstrand DNA cross-links

Free radical-mediated lipid peroxidation

Inhibition of polymerization of tubulin

A 65-year-old male presents to the physician after noticing gross blood with urination. He reports that this is not associated with pain. The patient smokes 1.5 packs per day for 45 years. Dipstick analysis is positive for blood, with 5 RBC per high-power field (HPF) on urinalysis. A cystoscopy is performed, which is significant for a lesion suspicious for malignancy. A biopsy was obtained, which is suggestive of muscle-invasive transitional cell carcinoma. Before radical cystectomy is performed, the patient is started on cisplatin-based chemotherapy. Which of the following is most likely associated with this chemotherapeutic drug?

Gentamicin enhances toxicity risk

Addition of mesna decreases drug toxicity

A 67-year-old woman who was diagnosed with cancer 2 months ago presents to her oncologist with a 6-day history of numbness and tingling in her hands and feet. She is concerned that these symptoms may be related to progression of her cancer even though she has been faithfully following her chemotherapy regimen. She is not currently taking any other medications and has never previously experienced these symptoms. On physical exam, she is found to have decreased sensation to pinprick and fine touch over hands, wrists, ankles, and feet. Furthermore, she is found to have decreased reflexes throughout. Her oncologist assures her that these symptoms are a side effect from her chemotherapy regimen rather than progression of the cancer. The drug most likely responsible for her symptoms has which of the following mechanisms?

Prevention of nucleotide synthesis

A hospitalized 70-year-old woman, who recently underwent orthopedic surgery, develops severe thrombocytopenia of 40,000/mm3 during her 7th day of hospitalization. She has no other symptoms and has no relevant medical history. All of the appropriate post-surgery prophylactic measures had been taken. Her labs from the 7th day of hospitalization are shown here: The complete blood count results are as follows: Hemoglobin 13 g/dL Hematocrit 38% Leukocyte count 8,000/mm3 Neutrophils 54% Bands 3% Eosinophils 1% Basophils 0% Lymphocytes 33% Monocytes 7% Platelet count 40,000/mm3 The coagulation tests are as follows: Partial thromboplastin time (activated) 85 seconds Prothrombin time 63 seconds Reticulocyte count 1.2% Thrombin time < 2 seconds deviation from control The lab results from previous days were within normal limits. What is the most likely cause of the thrombocytopenia?

Heparin-induced thrombocytopenia

Platinum compounds for USMLE Step 2 CK: High-Yield Pharmacology Lessons

Mechanism of Action - Platinum Power Play

Alkylating-like agents; are prodrugs activated by aquation (hydrolysis) in the low-chloride intracellular environment.
Covalently bind the N7 position of guanine & adenine.
Forms intrastrand (~90%) and interstrand DNA cross-links, distorting the DNA helix.
Inhibits DNA synthesis & replication, triggering apoptosis.

⭐ Resistance emerges via ↑DNA repair, ↓drug uptake, or inactivation by glutathione.

DNA segment with platinum binding sites

The Platinum Trio - Cisplatin, Carboplatin, Oxaliplatin

Mechanism of Action: Function as alkylating-like agents. They create intra-strand and inter-strand DNA cross-links, primarily at the N7 position of guanine, leading to inhibition of DNA synthesis and cell apoptosis.

Agent	Key Uses	Dominant Adverse Effects (ADEs)
Cisplatin	Testicular, bladder, ovarian, lung	Nephrotoxicity, ototoxicity, peripheral neuropathy, severe N/V.
Carboplatin	Ovarian, lung, head & neck	Myelosuppression (dose-limiting thrombocytopenia).
Oxaliplatin	Colorectal (FOLFOX), pancreatic	Neurotoxicity (acute cold-induced dysesthesia; chronic sensory).

📌 Mnemonic: Think of the toxicities:

Cisplatin: Cranial nerve VIII (ototoxicity) & Chemoprotectant for kidneys (nephrotoxicity).
Carboplatin: Affects Carb-loading cells in the bone marrow (myelosuppression).
Oxaliplatin: An Ox in the cold gets numb nerves (cold-induced neuropathy).

Adverse Effects - The Price of Platinum

Shared Toxicity: All platinum agents are myelosuppressive and can trigger hypersensitivity reactions, particularly after multiple cycles of therapy.
Cisplatin:
- ⚠️ Nephrotoxicity is the primary dose-limiting toxicity. Minimized with aggressive pre-hydration (chloride diuresis) and the cytoprotective agent amifostine.
- Significant ototoxicity (tinnitus, high-frequency hearing loss) and peripheral sensory neuropathy.
- 📌 Mnemonic: Cis-"plat-in" splats the kidneys and ears.
Carboplatin:
- Myelosuppression, particularly thrombocytopenia (↓ platelets), is the dose-limiting toxicity.
- Dosing is calculated using the Calvert formula, which targets a specific AUC based on GFR.
Oxaliplatin:
- Neurotoxicity is dose-limiting, presenting in two forms:
  - Acute: Pharyngolaryngeal dysesthesia, often triggered by exposure to cold.
  - Chronic: Cumulative, dose-dependent "stocking-glove" sensory neuropathy.

⭐ Oxaliplatin's unique acute, cold-sensitive neuropathy is caused by its metabolites affecting voltage-gated sodium channel function.

Stocking-glove neuropathy distribution

Clinical Use & Resistance - Where They Shine

Key Indications (Solid Tumors):
- Cisplatin: Curative for testicular cancer; also used for bladder, ovary, and lung cancers.
- Carboplatin: Ovarian cancer; an option when cisplatin's toxicity is a major concern.
- Oxaliplatin: Colorectal cancer, notably as a component of the FOLFOX regimen.
Primary Resistance Mechanisms:
- Reduced intracellular accumulation (↓ CTR1 transporter influx, ↑ ATP7A/B efflux).
- Increased inactivation by thiol-containing molecules like glutathione (GSH).
- Enhanced DNA repair (↑ Nucleotide Excision Repair).

⭐ Acquired resistance to cisplatin does not always confer cross-resistance to other platinum agents; oxaliplatin may retain activity.

High‑Yield Points - ⚡ Biggest Takeaways

Platinum compounds (cisplatin, carboplatin) form DNA cross-links at the N7 of guanine, inhibiting DNA synthesis.

Key uses include solid tumors like testicular, ovarian, bladder, and lung cancers.

Cisplatin’s major dose-limiting toxicities are nephrotoxicity and ototoxicity; co-administer amifostine for protection.

Carboplatin causes significant myelosuppression, particularly thrombocytopenia.

Oxaliplatin is associated with a unique cold-exacerbated peripheral neuropathy.

Resistance can emerge from increased DNA repair or inactivation by glutathione.

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Platinum compounds