Limit tests for impurities in drugs MCQs With Answer

Limit tests for impurities in drugs MCQs With Answer

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Introduction: Limit tests for impurities in drugs are essential qualitative and semi‑quantitative checks used in pharmaceutical quality control to ensure safety and compliance with pharmacopeial standards. These tests screen for specific impurities—such as heavy metals, chlorides, sulfates, arsenic and sulfides—using classical analytical principles (precipitation, colorimetry, gravimetry and titrimetry). B.Pharm students must understand test principles, common reagents (e.g., silver nitrate, barium chloride, sodium rhodizonate), sample preparation, possible interferences and interpretation of results. Knowledge of limit tests supports regulatory compliance, batch release and patient safety. Key terms: limit tests, impurities, heavy metals, chloride, sulfate, arsenic, pharmacopeia, analytical methods, quality control. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. What is the primary objective of a pharmacopeial limit test?

  • To determine the exact concentration of an active pharmaceutical ingredient
  • To provide a qualitative or semi‑quantitative check that a specified impurity does not exceed a stated limit
  • To replace full quantitative assays for release testing
  • To measure dissolution rate of formulations

Correct Answer: To provide a qualitative or semi‑quantitative check that a specified impurity does not exceed a stated limit

Q2. Which reagent is commonly used in the limit test for chlorides based on precipitation?

  • Potassium permanganate
  • Silver nitrate with potassium chromate indicator (Mohr’s method)
  • Barium chloride
  • Sodium nitroprusside

Correct Answer: Silver nitrate with potassium chromate indicator (Mohr’s method)

Q3. The limit test for sulfates typically forms which insoluble precipitate?

  • Silver chloride
  • Barium sulfate
  • Lead sulfide
  • Calcium carbonate

Correct Answer: Barium sulfate

Q4. Which principle is commonly used in the limit test for heavy metals?

  • Formation of a colored complex measured by UV absorbance
  • Precipitation of metal sulfides and comparison against a reference standard (lead acetate/ sulfide test)
  • Gas evolution and volumetric measurement
  • High performance liquid chromatography

Correct Answer: Precipitation of metal sulfides and comparison against a reference standard (lead acetate/ sulfide test)

Q5. Which test reagent is classically used to detect arsenic in a limit test?

  • Gutzeit reagent producing a yellow‑brown stain with arsine (arsenic) on paper
  • Nessler’s reagent producing a brown color
  • Flame photometry
  • Potassium permanganate titration

Correct Answer: Gutzeit reagent producing a yellow‑brown stain with arsine (arsenic) on paper

Q6. Why are limit tests considered semi‑quantitative rather than fully quantitative?

  • They use advanced instrumentation that gives exact values
  • They indicate whether impurity is above or below a defined threshold, not a precise concentration
  • They always overestimate impurity levels
  • They cannot detect any impurities

Correct Answer: They indicate whether impurity is above or below a defined threshold, not a precise concentration

Q7. In the chloride limit test, what is the role of potassium chromate indicator?

  • To precipitate chloride as a colored complex
  • To indicate the endpoint by forming red silver chromate when excess silver is present
  • To dissolve the silver chloride precipitate
  • To reduce silver ions

Correct Answer: To indicate the endpoint by forming red silver chromate when excess silver is present

Q8. Which of the following is a common interference in the sulfate limit test and how is it controlled?

  • Carbonates cause turbidity; control by acidifying the solution to remove carbonate as CO2
  • Chlorides form the same precipitate; control by adding silver nitrate
  • Organic solvents increase turbidity; control by heating
  • Phosphate forms barium phosphate; control by adding hydrochloric acid

Correct Answer: Carbonates cause turbidity; control by acidifying the solution to remove carbonate as CO2

Q9. How is the sensitivity of a limit test typically established?

  • By using the most sensitive analytical instrument available
  • By testing a reference solution containing the specified limit concentration and confirming visibility/effect
  • By diluting the sample until no color remains
  • By comparing with unrelated standards

Correct Answer: By testing a reference solution containing the specified limit concentration and confirming visibility/effect

Q10. Which analytical technique can be used to confirm a positive result from a classic limit test?

  • Thin layer chromatography (TLC) only
  • Atomic absorption spectroscopy (AAS) or ICP‑MS for elemental confirmation
  • Visual inspection alone
  • pH paper

Correct Answer: Atomic absorption spectroscopy (AAS) or ICP‑MS for elemental confirmation

Q11. In heavy metals limit tests using sulfide precipitation, which gas or reagent is commonly used to generate sulfide?

  • Hydrogen sulfide (H2S) gas
  • Nitrogen gas
  • Oxygen gas
  • Carbon dioxide

Correct Answer: Hydrogen sulfide (H2S) gas

Q12. What is a major safety consideration when performing classical limit tests for arsenic and heavy metals?

  • No safety precautions are necessary
  • Handling and disposal of toxic reagents and gases (arsine, H2S) require appropriate controls and PPE
  • Only use of gloves is sufficient
  • Safety is not needed for limit tests because quantities are small

Correct Answer: Handling and disposal of toxic reagents and gases (arsine, H2S) require appropriate controls and PPE

Q13. Which factor can cause a false positive in the chloride limit test?

  • Presence of bromide or iodide that also precipitate with silver
  • High temperature during titration only
  • Low sample volume only
  • Using distilled water exclusively

Correct Answer: Presence of bromide or iodide that also precipitate with silver

Q14. For a limit test, why is sample preparation and dissolution important?

  • It has no impact on the test outcome
  • Proper dissolution ensures the impurity is in a measurable form and removes insoluble excipients
  • It only affects the color of the solution
  • It replaces the need for a reference standard

Correct Answer: Proper dissolution ensures the impurity is in a measurable form and removes insoluble excipients

Q15. How are limit values for impurities typically specified in pharmacopeias?

  • As exact concentrations only in mg per tablet
  • As maximum allowable concentrations (e.g., ppm, % w/w, or specified test limits) for safety and quality
  • As a range with no upper limit
  • Pharmacopeias do not specify limits

Correct Answer: As maximum allowable concentrations (e.g., ppm, % w/w, or specified test limits) for safety and quality

Q16. Which of the following best describes a positive outcome in a limit test for heavy metals?

  • No visible difference between test and blank
  • Test develops color or turbidity greater than that produced by the standard reference solution indicating limit exceeded
  • The solution evaporates completely
  • pH becomes neutral

Correct Answer: Test develops color or turbidity greater than that produced by the standard reference solution indicating limit exceeded

Q17. Which reagent is used in some arsenic limit tests to reduce arsenic species to arsine gas?

  • Sodium hypochlorite
  • Zinc and acid (to generate arsine from arsenic)
  • Sodium hydroxide alone
  • Hydrogen peroxide only

Correct Answer: Zinc and acid (to generate arsine from arsenic)

Q18. What role does acidification play in many anion limit tests (e.g., sulfate)?

  • To oxidize the anion
  • To remove interfering carbonates and prevent co‑precipitation, ensuring proper formation of the target precipitate
  • To evaporate the solvent
  • To neutralize the sample completely

Correct Answer: To remove interfering carbonates and prevent co‑precipitation, ensuring proper formation of the target precipitate

Q19. When validating a limit test, which parameter is least relevant?

  • Sensitivity (limit of detection relative to specified limit)
  • Specificity (ability to detect target impurity without interference)
  • Linearity over a wide concentration range beyond purpose
  • Precision at the specified limit level

Correct Answer: Linearity over a wide concentration range beyond purpose

Q20. A limit test uses a reference standard that produces slight turbidity when it contains the maximum allowable impurity. If the sample produces identical turbidity, how is the sample interpreted?

  • Sample is acceptable because it equals the specified limit
  • Sample is unacceptable because any turbidity is prohibited
  • Test must be repeated with no reference
  • Sample should be discarded without further testing

Correct Answer: Sample is acceptable because it equals the specified limit

Q21. Which modern instrumental method is often used as an alternative to classical limit tests for elemental impurities?

  • UV‑Vis spectrophotometry only
  • Inductively coupled plasma mass spectrometry (ICP‑MS)
  • Polarimetry
  • Gas chromatography with flame ionization detector

Correct Answer: Inductively coupled plasma mass spectrometry (ICP‑MS)

Q22. In a chloride limit test by titration, what indicates the endpoint?

  • Disappearance of any precipitate
  • Appearance of red silver chromate color indicating excess silver
  • Sample turning blue
  • Evolution of gas

Correct Answer: Appearance of red silver chromate color indicating excess silver

Q23. Which statement accurately contrasts a limit test and a full quantitative assay?

  • Limit tests quantify the active ingredient; assays only detect impurities
  • Limit tests determine pass/fail relative to a threshold; assays provide exact concentration of an analyte
  • Limit tests are more precise than assays
  • Assays are always faster and cheaper than limit tests

Correct Answer: Limit tests determine pass/fail relative to a threshold; assays provide exact concentration of an analyte

Q24. In practice, why might a laboratory follow a positive classical limit test with an instrumental analysis?

  • To increase the observed turbidity
  • To confirm identity and quantify the impurity with higher specificity and sensitivity
  • To avoid reporting results
  • Instrumental analysis is always required regardless of initial result

Correct Answer: To confirm identity and quantify the impurity with higher specificity and sensitivity

Q25. Which of the following is a common way to express limits for elemental impurities?

  • In molar fractions only
  • Parts per million (ppm) or micrograms per gram (µg/g)
  • As a pH value
  • In degrees Celsius

Correct Answer: Parts per million (ppm) or micrograms per gram (µg/g)

Q26. What is the effect of organic solvents or color in the sample matrix on classical limit tests that rely on visual comparison?

  • No effect because visual tests are always accurate
  • They can mask or mimic turbidity or color, causing false positives or negatives
  • They enhance the sensitivity of the test
  • They convert impurities to harmless forms

Correct Answer: They can mask or mimic turbidity or color, causing false positives or negatives

Q27. During a sulfate limit test, why is a blank run important?

  • To standardize volumetric glassware exclusively
  • To detect background turbidity or contamination from reagents that could affect interpretation
  • Blanks are unnecessary in limit tests
  • To change the chemical composition of the reagents

Correct Answer: To detect background turbidity or contamination from reagents that could affect interpretation

Q28. Which of the following best describes interference control in limit tests?

  • Ignoring interferences as they are rare
  • Using sample pretreatment, masking agents or adjusting pH to remove or prevent interfering species
  • Substituting reagents randomly
  • Relying solely on visual judgment without controls

Correct Answer: Using sample pretreatment, masking agents or adjusting pH to remove or prevent interfering species

Q29. For regulatory release, why are pharmacopeial limit tests still used despite availability of advanced instruments?

  • They are legally recognized, simple, cost‑effective screening tools and useful where instrumentation is unavailable
  • They are always more accurate than instruments
  • Instruments are never accepted by regulators
  • Limit tests are faster but never reliable

Correct Answer: They are legally recognized, simple, cost‑effective screening tools and useful where instrumentation is unavailable

Q30. When documenting a limit test result in quality control, what must be recorded?

  • Only the date and analyst name
  • Test procedure, reagent batch, observations, reference standard used, and conclusion (pass/fail)
  • Only the conclusion without supporting data
  • Only the instrument serial number

Correct Answer: Test procedure, reagent batch, observations, reference standard used, and conclusion (pass/fail)

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