WBR0499: Difference between revisions
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|SubCategory=Neurology | |SubCategory=Neurology | ||
|Prompt=A pharmacologist is investigating the complex metabolism of several neuropsychiatric drugs. In one of his experiments, he administers a 20 mg intravenous (IV) bolus of phenytoin to 30 mice. He then measures the plasma concentrations of phenytoin at 5 minutes after administration, and at 2, 4, and 6 hours. Which of the following statements is true regarding the elimination of this drug? | |Prompt=A pharmacologist is investigating the complex metabolism of several neuropsychiatric drugs. In one of his experiments, he administers a 20 mg intravenous (IV) bolus of phenytoin to 30 mice. He then measures the plasma concentrations of phenytoin at 5 minutes after administration, and at 2, 4, and 6 hours. Which of the following statements is true regarding the elimination of this drug? | ||
|Explanation=Phenytoin follows | |Explanation=[[File: Drug_Elimination.png|700px]] | ||
Phenytoin follows zero-order elimination kinetics. Drugs with zero-order kinetics have a constant rate of elimination regardless of the plasma concentration of the drug itself. As a result, the plasma concentration of phenytoin falls linearly as a function of time. These kinetics are characteristic of capacity-limited elimination. The elimination is constant because it is limited by the capacity of the channels. In converse, first-order elimination is proportional to the drug concentration, where a specific ratio (not amount) of the drug is eliminated per unit time. First-order elimination is called flow-dependent elimination. It is dependent on the flow of a certain drug. As the plasma concentration of a drug drops, the flow across a certain channel decreases and so does the amount of drug eliminated. | |||
|AnswerA=Phenytoin follows a flow-dependent elimination | |AnswerA=Phenytoin follows a flow-dependent elimination | ||
|AnswerAExp=This is true for first-order elimination. Phenytoin on the other hand follows a capacity-limited elimination. | |AnswerAExp=This is true for first-order elimination. Phenytoin on the other hand follows a capacity-limited elimination. | ||
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|EducationalObjectives=Phenytoin follows zero-order elimination and rate of elimination is constant due to constant amount loss per unit time. | |EducationalObjectives=Phenytoin follows zero-order elimination and rate of elimination is constant due to constant amount loss per unit time. | ||
|RightAnswer=D | |RightAnswer=D | ||
|WBRKeyword= | |WBRKeyword=Plasma concentration, Phenytoin, Zero order elimination, Capacity-limited elimination, Flow-dependent elimination, | ||
|Approved= | |Approved=Yes | ||
}} | }} | ||
Revision as of 19:41, 22 October 2014
| Author | [[PageAuthor::Rim Halaby, M.D. [1]]] |
|---|---|
| Exam Type | ExamType::USMLE Step 1 |
| Main Category | MainCategory::Pharmacology |
| Sub Category | SubCategory::Neurology |
| Prompt | [[Prompt::A pharmacologist is investigating the complex metabolism of several neuropsychiatric drugs. In one of his experiments, he administers a 20 mg intravenous (IV) bolus of phenytoin to 30 mice. He then measures the plasma concentrations of phenytoin at 5 minutes after administration, and at 2, 4, and 6 hours. Which of the following statements is true regarding the elimination of this drug?]] |
| Answer A | AnswerA::Phenytoin follows a flow-dependent elimination |
| Answer A Explanation | AnswerAExp::This is true for first-order elimination. Phenytoin on the other hand follows a capacity-limited elimination. |
| Answer B | AnswerB::Phenytoin follows a zero-order elimination whereby a constant ratio of the drug is eliminated per unit time |
| Answer B Explanation | AnswerBExp::Although phenytoin indeed follows a zero-order elimination, the same amount (not the ratio) of drug is constantly eliminated per unit time. |
| Answer C | AnswerC::The rate of phenytoin elimination is directly proportional to the drug's concentration |
| Answer C Explanation | AnswerCExp::The rate of elimination is constant regardless of concentration. |
| Answer D | AnswerD::Plasma concentration levels of phenytoin fall linearly with time |
| Answer D Explanation | AnswerDExp::Because a constant amount of phenytoin is eliminated per unit time, plasma concentration levels falls linearly. |
| Answer E | AnswerE::The amount of eliminated drug is gradually decreased as the plasma concentration of phenytoin is deceased over time |
| Answer E Explanation | AnswerEExp::The statement is true for first-order reactions. In zero-order reactions, the eliminated amount is constant regardless of plasma concentrations. |
| Right Answer | RightAnswer::D |
| Explanation | [[Explanation::
Phenytoin follows zero-order elimination kinetics. Drugs with zero-order kinetics have a constant rate of elimination regardless of the plasma concentration of the drug itself. As a result, the plasma concentration of phenytoin falls linearly as a function of time. These kinetics are characteristic of capacity-limited elimination. The elimination is constant because it is limited by the capacity of the channels. In converse, first-order elimination is proportional to the drug concentration, where a specific ratio (not amount) of the drug is eliminated per unit time. First-order elimination is called flow-dependent elimination. It is dependent on the flow of a certain drug. As the plasma concentration of a drug drops, the flow across a certain channel decreases and so does the amount of drug eliminated. |
| Approved | Approved::Yes |
| Keyword | WBRKeyword::Plasma concentration, WBRKeyword::Phenytoin, WBRKeyword::Zero order elimination, WBRKeyword::Capacity-limited elimination, WBRKeyword::Flow-dependent elimination |
| Linked Question | Linked:: |
| Order in Linked Questions | LinkedOrder:: |