Question 46 of 50

According to the introduction, what is the primary definition of pharmacogenomics?

What is the minimum frequency at which a variation in DNA must occur within a population to be classified as a polymorphism?

What is the most common type of genetic variation in humans, resulting from the substitution of one nucleotide base for another?

If a patient has a genetic variant causing diminished enzyme activity, and the drug they are taking is metabolized to an inactive product, what is the most likely outcome?

What is the likely clinical outcome for a patient who takes a prodrug that requires enzymatic conversion to be effective, but possesses a genetic variant causing that specific enzyme to be inactive?

Polymorphisms in genes that encode for membrane transporter proteins can influence drug response by altering which of the following processes?

According to the text, how many drugs are currently required to have pharmacogenetic testing performed before they are prescribed?

Which of the following is listed in the text as one of the four drugs that requires mandatory pharmacogenetic testing before prescription?

What is the ultimate goal of incorporating pharmacogenomic information into clinical practice, as stated in the text?

What is a potential consequence of a genetic variation that leads to extra copies of a gene for a drug-metabolizing enzyme?

Besides 'test required,' what are the other two labeling categories mentioned for drugs with pharmacogenomic information?

The human genome is described as being comprised of approximately how many nucleotide base pair sequences?

What is the typical strategy for most drug therapy when pharmacogenomic information is not initially used?

A patient who develops an exaggerated pharmacologic response to a standard drug dose may be expressing a phenotype suggestive of what underlying issue?

Which of the following is NOT listed as a form of genetic variation in the chapter?

According to the chapter, which area of pharmacogenomics has undergone the least amount of study to date?

For which clinical scenario would a prescriber using pharmacogenomic data most likely select an alternate drug rather than adjust the dose?

Which of the following specimens is NOT mentioned in the text as being typically used for DNA analysis in pharmacogenetic testing?

What potential issue regarding pharmacogenetic testing is mentioned in the text as a barrier for patients?

What is the role of genomic biomarkers as described in the text?

What are the four nucleotide bases that constitute the sequence of a single strand of DNA?

A genetic variation can lead to a truncated, dysfunctional, or complete lack of a protein product. What is the potential clinical consequence of this?

What kind of organizations offer pharmacogenetic testing to identify relevant genetic polymorphisms that predict drug response?

Besides drug-metabolizing enzymes, polymorphisms in which other two types of proteins can significantly affect drug responses?

What is the concept of 'personalized medicine' as described by patients in the text?

What happens to the parent drug in the body if it is metabolized to an inactive product, but the responsible enzyme's activity is diminished due to a genetic variant?

The text states that virtually every therapeutic area involving medication use includes a drug for which documented genetic variability has the potential to affect what?

For some agents, dosing recommendations based on an individual's genetic information are also called what?

What is the consequence if a drug that is an active parent drug is given to a patient who has a genetic variant resulting in an inactive metabolizing enzyme responsible for its breakdown?

What is an efflux transporter protein in the context of pharmacogenomics?

In addition to individual genes, pharmacogenomics increasingly examines the role of what in relation to drug therapy outcomes?

Why is the specific location of a single nucleotide polymorphism (SNP) within a gene considered important?

Which of the following processes is NOT listed as being potentially susceptible to the consequences of DNA sequence variations?

What is the status of the number of polymorphic genes responsible for variations in drug response at drug receptors compared to those for metabolizing enzymes or transport proteins?

Why is it essential for health care professionals to be able to interpret and utilize pharmacogenomic information?

What could be the outcome if a drug requires conversion to a pharmacologically active metabolite, but the patient has a genetic variation leading to extra copies of the responsible enzyme gene?

Which of the following is NOT a factor mentioned as part of the initial information considered when initiating drugs in the general population?

What is a potential outcome of a polymorphism in genes that encode for drug receptors?

What is the source of the 'unique human genome sequence' for each individual, with the exception of identical twins?

Which of the following drug classes is NOT mentioned in the list of four drugs requiring mandatory pharmacogenetic testing?

What is the primary role of proteins in relation to drug therapy, as described in the chapter?

If a genetic variation causes a drug-metabolizing enzyme to be absent, and that enzyme is required to convert an active drug to an inactive metabolite, the patient would be considered a what?

According to the text, a patient's 'phenotype' in the context of pharmacogenomics refers to what?

The text provides an example where a prescriber is contemplating a drug for which some genetic variants are associated with hypersensitivity reactions. What is the recommended action if the patient possesses that variant?

What does the text suggest about patient understanding of the utility of undergoing genetic testing?

What is the primary factor that influences whether a genetic variation leads to a significant alteration in drug response versus having no clinical consequence?

How can polymorphisms in drug transport proteins affect a drug's exposure to intracellular drug metabolizing enzymes?

The evolution from pharmacogenetics to pharmacogenomics represents a shift from studying single gene effects to studying what?

If a patient is identified as a 'poor metabolizer' for an enzyme that breaks down an active drug, what is a likely recommendation to avoid toxicity?