Antiseptics and disinfectants US Medical PG Practice Questions and MCQs
Practice US Medical PG questions for Antiseptics and disinfectants. These multiple choice questions (MCQs) cover important concepts and help you prepare for your exams.
Antiseptics and disinfectants US Medical PG Question 1: A patient with Graves' disease is treated with thiocyanate (a historical antithyroid agent). Thiocyanate helps reduce thyroid hormone production by:
- A. Inhibiting thyroid peroxidase
- B. Inhibiting 5'-deiodinase
- C. Inhibiting iodide follicular uptake (Correct Answer)
- D. Inhibiting beta-adrenergic receptors
- E. Inhibiting thyroid deiodinase
Antiseptics and disinfectants Explanation: ***Inhibiting iodide follicular uptake***
- Thiocyanate is a competitive inhibitor of the **sodium-iodide symporter (NIS)** on thyroid follicular cells, blocking the uptake of iodide into the thyroid gland.
- By preventing iodide entry, thiocyanate reduces the raw material needed for thyroid hormone synthesis, thereby mitigating the **hyperthyroidism** seen in Graves' disease.
*Inhibiting thyroid peroxidase*
- This is the mechanism of action for **thionamide drugs** (e.g., methimazole, propylthiouracil), which block the oxidation of iodide and its organification.
- While effective in Graves' disease, thiocyanate does not directly inhibit thyroid peroxidase activity.
*Inhibiting 5'-deiodinase*
- **Propylthiouracil (PTU)**, but not thiocyanate, inhibits the peripheral conversion of T4 to the more active T3 by blocking 5'-deiodinase enzymes.
- This action helps to reduce the overall effect of thyroid hormones in the body.
*Inhibiting beta-adrenergic receptors*
- **Beta-blockers** (e.g., propranolol) are used to manage the symptomatic effects of hyperthyroidism, such as palpitations, tremor, and anxiety.
- They do not affect thyroid hormone synthesis or release, but rather block the peripheral actions of thyroid hormones on adrenergic receptors.
*Inhibiting thyroid deiodinase*
- This option refers to the enzymes responsible for removing iodine from thyroid hormones, which is part of the normal catabolism of these hormones or for converting T4 to T3.
- Thiocyanate does not primarily act by inhibiting these deiodinase enzymes within the thyroid gland or peripherally; its main action is on iodide uptake.
Antiseptics and disinfectants US Medical PG Question 2: The occupational health department at a hospital implements new safety precautions to prevent laboratory-acquired infections. One of the new precautions includes disinfecting the microbiology laboratory benches with 70% ethanol before and after use. This measure is most likely to be effective in preventing the transmission of which of the following viruses?
- A. Hepatitis A virus
- B. Herpes simplex virus (Correct Answer)
- C. Poliovirus
- D. Parvovirus
- E. Polyomavirus
Antiseptics and disinfectants Explanation: ***Herpes simplex virus***
- Herpes simplex virus is an **enveloped virus**, meaning it has a lipid outer layer that is easily disrupted by disinfectants like **70% ethanol**.
- The disruption of its envelope renders the virus inactive and unable to infect host cells, making this a highly effective prevention strategy.
*Hepatitis A virus*
- Hepatitis A virus is a **non-enveloped virus**, making it relatively **resistant to many common disinfectants**, including alcohol-based ones.
- Its robust protein capsid protects its genetic material, requiring stronger disinfection methods than 70% ethanol for inactivation.
*Poliovirus*
- Poliovirus is another **non-enveloped virus** that exhibits significant **resistance to alcohol-based disinfectants** due to its stable protein capsid.
- Effective inactivation typically requires disinfectants with greater germicidal activity, such as chlorine-based solutions.
*Parvovirus*
- Parvovirus is one of the **most resistant non-enveloped viruses** to disinfection, including inactivation by 70% ethanol.
- Its small size and extremely stable capsid make it challenging to eliminate from surfaces, often necessitating harsh chemical treatments.
*Polyomavirus*
- Polyomaviruses are **non-enveloped DNA viruses** that are generally more **resistant to alcohol-based disinfectants** than enveloped viruses.
- Their lack of a lipid envelope provides protection against agents like ethanol that target lipid bilayers.
Antiseptics and disinfectants US Medical PG Question 3: A 3-year-old boy is brought in by his parents to the emergency department for lethargy and vomiting. The patient was fine until this afternoon, when his parents found him in the garage with an unlabeled open bottle containing an odorless liquid. On exam, the patient is not alert or oriented, but is responsive to touch and pain. The patient is afebrile and pulse is 90/min, blood pressure is 100/60 mmHg, and respirations are 20/min. Which of the following is an antidote for the most likely cause of this patient’s presentation?
- A. Glucagon
- B. Epinephrine
- C. Fomepizole (Correct Answer)
- D. Succimer
- E. Sodium bicarbonate
Antiseptics and disinfectants Explanation: ***Fomepizole***
- The patient's presentation with **lethargy**, **vomiting**, and altered mental status after unsupervised access to an **unlabeled, odorless liquid** highly suggests **toxic alcohol ingestion** (e.g., ethylene glycol or methanol).
- **Fomepizole** is a competitive inhibitor of **alcohol dehydrogenase**, preventing the metabolism of toxic alcohols into their highly toxic acid metabolites (oxalic acid, formic acid), thus reducing organ damage.
*Glucagon*
- **Glucagon** is primarily used to treat severe **hypoglycemia**, especially in patients who cannot tolerate oral glucose or if intravenous access is difficult.
- It is also indicated in the management of **beta-blocker overdose** to bypass beta-adrenergic receptors and increase cardiac contractility.
*Epinephrine*
- **Epinephrine** is a potent **vasopressor** and bronchodilator used in emergencies such as **anaphylaxis**, **cardiac arrest**, and severe asthma exacerbations.
- It works by stimulating alpha- and beta-adrenergic receptors, leading to vasoconstriction, increased heart rate, and bronchodilation.
*Succimer*
- **Succimer** is a **chelating agent** primarily used in the treatment of **lead poisoning** in children with blood lead levels above a certain threshold.
- It binds to lead ions, forming a stable complex that can be excreted in the urine.
*Sodium bicarbonate*
- **Sodium bicarbonate** is used to correct **metabolic acidosis**, which can occur in various conditions, including severe sepsis, diabetic ketoacidosis, and certain poisonings (e.g., salicylates, tricyclic antidepressants).
- While toxic alcohol ingestion can cause metabolic acidosis, sodium bicarbonate addresses the acidosis itself, not the underlying toxic alcohol metabolism, for which fomepizole is the specific antidote.
Antiseptics and disinfectants US Medical PG Question 4: A group of medical students is studying bacteria and their pathogenesis. They have identified that a substantial number of bacteria cause human disease by producing exotoxins. Exotoxins are typically proteins, but they have different mechanisms of action and act at different sites. The following is a list of exotoxins together with mechanisms of action. Which of the following pairs is correctly matched?
- A. Tetanospasmin - binds 60S ribosome subunit and inhibits protein synthesis
- B. Cholera toxin - ADP-ribosylates Gs, keeping adenylate cyclase active and ↑ [cAMP] (Correct Answer)
- C. Diphtheria toxin - cleaves synaptobrevin, blocking vesicle formation and the release of acetylcholine
- D. Botulinum toxin - cleaves synaptobrevin, blocking vesicle formation and the release of the inhibitory neurotransmitters GABA and glycine
- E. Anthrax toxin - ADP-ribosylates elongation factor - 2 (EF-2) and inhibits protein synthesis
Antiseptics and disinfectants Explanation: ***Cholera toxin - ADP-ribosylates Gs, keeping adenylate cyclase active and ↑ [cAMP]***
- **Cholera toxin** works by irrevocably activating **adenylate cyclase** via **ADP-ribosylation** of the **alpha subunit of Gs protein**.
- This leads to a persistent increase in intracellular **cyclic AMP (cAMP)**, resulting in excessive secretion of water and electrolytes into the intestinal lumen, causing characteristic **rice-water diarrhea**.
*Tetanospasmin - binds 60S ribosome subunit and inhibits protein synthesis*
- **Tetanospasmin (tetanus toxin)** acts by cleaving **synaptobrevin**, a SNARE protein, which inhibits the release of **inhibitory neurotransmitters (GABA and glycine)** from Renhaw cells in the spinal cord.
- This blockade of inhibitory signals leads to uncontrolled muscle contractions and **spastic paralysis**.
*Diphtheria toxin - cleaves synaptobrevin, blocking vesicle formation and the release of acetylcholine*
- **Diphtheria toxin** works by **ADP-ribosylating elongation factor-2 (EF-2)**, which is crucial for protein synthesis.
- The inactivation of **EF-2** leads to the arrest of protein synthesis and ultimately **cell death**.
*Botulinum toxin - cleaves synaptobrevin, blocking vesicle formation and the release of the inhibitory neurotransmitters GABA and glycine*
- **Botulinum toxin** cleaves **SNARE proteins** (including synaptobrevin) at the **neuromuscular junction**, specifically blocking the release of **acetylcholine**.
- This inhibition of neurotransmitter release at the presynaptic terminal leads to **flaccid paralysis**.
*Anthrax toxin - ADP-ribosylates elongation factor - 2 (EF-2) and inhibits protein synthesis*
- **Anthrax toxin** consists of three proteins: Protective Antigen (PA), Edema Factor (EF), and Lethal Factor (LF). The **Edema Factor (EF)** is a **calmodulin-dependent adenylate cyclase** that increases intracellular **cAMP**, and the **Lethal Factor (LF)** is a **metalloprotease** that targets MAPK pathways.
- **Anthrax toxin** does not work by ADP-ribosylating EF-2; that mechanism is characteristic of **diphtheria toxin**.
Antiseptics and disinfectants US Medical PG Question 5: A 45-year-old female with a history of gastroesophageal reflux disease presents to her family physician with symptoms of epigastric pain right after a meal. The physician performs a urea breath test which is positive and the patient is started on appropriate medical therapy. Three days later at a restaurant, she experienced severe flushing, tachycardia, hypotension, and vomiting after her first glass of wine. Which of the following is the mechanism of action of the medication causing this side effect?
- A. Binds to the 30S ribosomal subunit preventing attachment of the aminoacyl-tRNA
- B. Blocks protein synthesis by binding to the 50S ribosomal subunit inhibiting protein translocation
- C. Blocks the synthesis of the peptidoglycan layer
- D. Inhibits the H+/K+ ATPase
- E. Forms toxic metabolites that damage bacterial DNA (Correct Answer)
Antiseptics and disinfectants Explanation: ***Forms toxic metabolites that damage bacterial DNA***
- The patient likely has a **_H. pylori_ infection** causing epigastric pain, diagnosed by a **positive urea breath test**.
- **Metronidazole**, a common treatment for _H. pylori_, causes a **disulfiram-like reaction** with alcohol, leading to flushing, tachycardia, hypotension, and vomiting. Metronidazole's mechanism involves forming **toxic free radicals** that damage bacterial DNA.
*Binds to the 30S ribosomal subunit preventing attachment of the aminoacyl-tRNA*
- This is the mechanism of action for **tetracyclines** (e.g., doxycycline) and **aminoglycosides** (e.g., gentamicin), which are sometimes used in _H. pylori_ regimens but do not typically cause this severe alcohol interaction.
- While tetracyclines are part of some _H. pylori_ treatment regimens, they are not primarily associated with a disulfiram-like reaction.
*Blocks protein synthesis by binding to the 50S ribosomal subunit inhibiting protein translocation*
- This describes the mechanism of action of **macrolide antibiotics** (e.g., clarithromycin), which are commonly used in _H. pylori_ treatment protocols.
- Although clarithromycin can cause gastrointestinal upset, it does not typically induce the severe disulfiram-like reaction described with alcohol.
*Blocks the synthesis of the peptidoglycan layer*
- This is the mechanism of action of **beta-lactam antibiotics** (e.g., amoxicillin), frequently included in _H. pylori_ eradication regimens.
- Amoxicillin does not cause a disulfiram-like reaction when combined with alcohol.
*Inhibits the H+/K+ ATPase*
- This describes **proton pump inhibitors (PPIs)** like omeprazole or pantoprazole, which are part of nearly all _H. pylori_ treatment regimens to reduce acid production.
- PPIs do not have a direct interaction with alcohol that causes this specific constellation of symptoms; their primary role is acid suppression, not antibacterial action leading to disulfiram effects.
Antiseptics and disinfectants US Medical PG Question 6: 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?
- A. Free radical-mediated lipid peroxidation
- B. Inhibition of polymerization of tubulin
- C. Inhibition of topoisomerase 1
- D. Inhibition of topoisomerase 2
- E. Formation of interstrand DNA cross-links (Correct Answer)
Antiseptics and disinfectants Explanation: ***Formation of interstrand DNA cross-links***
- **Cisplatin** is a **platinum-based chemotherapeutic agent** that acts by forming **interstrand and intrastrand DNA cross-links**.
- These cross-links interfere with **DNA replication and transcription**, leading to **DNA damage** and ultimately **apoptosis** in cancer cells.
*Free radical-mediated lipid peroxidation*
- While some chemotherapeutic agents, like **anthracyclines**, can induce **free radical formation** and subsequent damage, this is not the primary mechanism of action for cisplatin.
- **Lipid peroxidation** primarily affects cell membranes, whereas cisplatin's main target is DNA.
*Inhibition of polymerization of tubulin*
- This mechanism of action is characteristic of **vinca alkaloids** (e.g., vincristine, vinblastine) and **taxanes** (e.g., paclitaxel, docetaxel), which disrupt microtubule formation and function.
- Cisplatin does not target **tubulin polymerization**.
*Inhibition of topoisomerase 1*
- **Topoisomerase 1 inhibitors** such as **irinotecan** and **topotecan** prevent DNA unwinding by stabilizing the cleavable complex, leading to DNA breaks.
- This is not how cisplatin exerts its therapeutic effects.
*Inhibition of topoisomerase 2*
- **Topoisomerase 2 inhibitors** like **etoposide** and **doxorubicin** interfere with DNA replication and repair by preventing the religation of DNA strands.
- Cisplatin's mechanism is distinct from topoisomerase inhibition.
Antiseptics and disinfectants US Medical PG Question 7: A 67-year-old woman with advanced bladder cancer comes to the physician for a follow-up examination. She is currently undergoing chemotherapy with an agent that forms cross-links between DNA strands. Serum studies show a creatinine concentration of 2.1 mg/dL and a blood urea nitrogen concentration of 30 mg/dL. Urine dipstick of a clean-catch midstream specimen shows 2+ protein and 1+ glucose. Prior to initiation of chemotherapy, her laboratory values were within the reference range. In addition to hydration, administration of which of the following would most likely have prevented this patient's current condition?
- A. Leucovorin
- B. Amifostine (Correct Answer)
- C. Aprepitant
- D. Mesna
- E. Rasburicase
Antiseptics and disinfectants Explanation: **Amifostine**
- This patient's symptoms (elevated creatinine and BUN, 2+ protein, 1+ glucose in urine) suggest **renal tubular damage**, specifically acute tubular necrosis, likely caused by a nephrotoxic chemotherapeutic agent.
- **Amifostine** is a cytoprotective agent that scavenges reactive oxygen species in local tissues, thereby reducing the nephrotoxic effects of **alkylating agents** like cisplatin, which forms cross-links between DNA strands.
*Leucovorin*
- **Leucovorin** (folinic acid) is used to rescue normal cells from the adverse effects of **methotrexate**, enhancing its excretion and reducing toxicity.
- It is not indicated for preventing kidney damage from DNA cross-linking agents.
*Aprepitant*
- **Aprepitant** is a neurokinin-1 (NK1) receptor antagonist used to prevent **chemotherapy-induced nausea and vomiting**.
- It does not have protective effects against nephrotoxicity.
*Mesna*
- **Mesna** (2-mercaptoethane sulfonate sodium) is used to prevent **hemorrhagic cystitis** caused by acrolein, a toxic metabolite of cyclophosphamide and ifosfamide.
- It does not prevent nephrotoxicity from other types of chemotherapy agents.
*Rasburicase*
- **Rasburicase** is a recombinant urate oxidase enzyme used to prevent or treat **tumor lysis syndrome** by converting uric acid to allantoin, which is more soluble and easily excreted.
- It is not used for preventing direct kidney damage from chemotherapeutic agents.
Antiseptics and disinfectants US Medical PG Question 8: A tourist with a travel history to India presents with complaints of abdominal pain and multiple episodes of watery diarrhea. He reports having food at a local restaurant the previous night. Which of the following antidiarrheal agents is used in this condition?
- A. Bismuth subsalicylate
- B. Octreotide
- C. Loperamide
- D. Rifaximin (Correct Answer)
- E. Ciprofloxacin
Antiseptics and disinfectants Explanation: ***Rifaximin***
- This patient's symptoms, including **abdominal pain**, **watery diarrhea**, and a recent **travel history to India** coupled with eating at a local restaurant, strongly suggest **traveler's diarrhea**, often caused by bacterial pathogens.
- **Rifaximin** is a non-absorbable antibiotic specifically approved for treating non-invasive traveler's diarrhea, as it targets causative bacteria in the gut lumen with minimal systemic absorption.
- Rifaximin is preferred due to its **excellent safety profile**, minimal systemic effects, and targeted action against enteric pathogens.
*Ciprofloxacin*
- **Ciprofloxacin** is a fluoroquinolone antibiotic that can be effective for traveler's diarrhea and has been used historically for this indication.
- However, rifaximin is now preferred over ciprofloxacin due to increasing **fluoroquinolone resistance** among enteric pathogens, systemic absorption leading to more side effects, and FDA warnings about serious adverse effects associated with fluoroquinolones.
- Ciprofloxacin may be reserved for more severe or invasive diarrhea cases.
*Bismuth subsalicylate*
- While **bismuth subsalicylate** can be used for symptomatic relief in traveler's diarrhea due to its anti-secretory and anti-inflammatory properties, it is not an antimicrobial agent.
- It works by reducing fluid secretion and inflammation but does not directly address the underlying bacterial infection to the same extent as rifaximin.
*Octreotide*
- **Octreotide** is a somatostatin analog primarily used to treat severe, refractory diarrhea associated with conditions like neuroendocrine tumors or chemotherapy, not typical bacterial traveler's diarrhea.
- Its mechanism involves inhibiting gastrointestinal hormone secretion and reducing intestinal motility, which is too potent for this common, self-limiting condition.
*Loperamide*
- **Loperamide** is an opioid-receptor agonist that acts as an anti-motility agent, reducing the frequency of bowel movements.
- It is generally contraindicated as a primary treatment for traveler's diarrhea when an invasive bacterial infection is suspected, as it can prolong the retention of toxins and pathogens in the gut.
Antiseptics and disinfectants US Medical PG Question 9: A patient from a North-Eastern state was diagnosed to have an infection with P. Falciparum malaria. What is the most appropriate treatment for this patient?
- A. Chloroquine
- B. Mefloquine
- C. Sulfadoxine plus pyrimethamine
- D. Artemether plus lumefantrine (Correct Answer)
- E. Quinine plus doxycycline
Antiseptics and disinfectants Explanation: ***Artemether plus lumefantrine***
- Artemether-lumefantrine is the recommended first-line treatment for **uncomplicated P. falciparum malaria** in regions with known **chloroquine resistance**, such as North-Eastern India.
- This combination therapy, an **Artemisinin-based Combination Therapy (ACT)**, is highly effective due to its rapid parasiticidal action and synergy.
*Chloroquine*
- Chloroquine resistance in **P. falciparum malaria** is widespread, particularly in many parts of India, including the North East.
- Using chloroquine alone would likely lead to **treatment failure** and worsening of the patient's condition.
*Mefloquine*
- Mefloquine is an alternative treatment option, but it has significant drawbacks including **neuropsychiatric side effects** (e.g., anxiety, depression, hallucinations) and a long half-life.
- It is often reserved for specific situations or as a second-line agent when ACTs are not available or contraindicated.
*Sulfadoxine plus pyrimethamine*
- **Sulfadoxine-pyrimethamine (SP)** is an older antimalarial drug combination that is not recommended as first-line treatment for **uncomplicated P. falciparum malaria** due to widespread **parasite resistance**.
- While it was formerly used for prophylaxis and intermittent presumptive treatment, its efficacy against P. falciparum has significantly declined.
*Quinine plus doxycycline*
- **Quinine plus doxycycline** is an effective alternative for treating **P. falciparum malaria**, particularly in **severe cases** or when ACTs are contraindicated or unavailable.
- However, it is **not the first-line treatment** for uncomplicated malaria due to longer treatment duration (7 days), more frequent dosing, and potential side effects (cinchonism, GI disturbances).
- Requires adherence to a multi-day regimen, making ACTs more practical for uncomplicated cases.
Antiseptics and disinfectants US Medical PG Question 10: Which of the following chelating agents is indicated in iron overdose?
- A. Desferrioxamine (Correct Answer)
- B. BAL
- C. Calcium Edetate
- D. DTPA
- E. Penicillamine
Antiseptics and disinfectants Explanation: ***Desferrioxamine***
- **Desferrioxamine** is a **chelate** formed by the bacterium *Streptomyces pilosus* that has a high affinity for **iron**.
- It is currently the most commonly used chelating agent for **acute iron overdose** and **chronic iron overload** conditions like hemochromatosis or transfusional hemosiderosis.
*BAL*
- **BAL (dimercaprol)** is a chelating agent primarily used for poisoning with **arsenic**, **mercury**, and **gold**.
- It works by forming stable cyclic compounds with these metals, facilitating their excretion.
*Calcium Edetate*
- **Calcium edetate (Calcium-EDTA)** is primarily used for **lead poisoning**.
- It works by forming a stable, water-soluble complex with lead, which is then excreted by the kidneys.
*DTPA*
- **Diethylenetriamine pentaacetate (DTPA)** is a chelating agent primarily used for poisoning with **plutonium** and other **radioactive metals**.
- It is not indicated for iron overdose.
*Penicillamine*
- **Penicillamine** is a chelating agent primarily used for **copper** overload (Wilson's disease) and can also be used for **lead** and **mercury** poisoning.
- It is not effective for iron chelation in overdose situations.
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