Unorganized drugs – oleoresins MCQs With Answer

Unorganized drugs – oleoresins MCQs With Answer

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Unorganized drugs such as oleoresins are concentrated plant extracts widely studied in pharmacognosy and applied in pharmaceutical formulations. Oleoresins combine a volatile oil and a non‑volatile resinous fraction, offering concentrated flavor, aroma, and bioactive compounds from spices (pepper, ginger, capsicum, paprika). B.Pharm students must master their definitions, extraction methods (solvent extraction, solvent recovery, vacuum concentration), analytical techniques (GC-MS, HPLC, TLC), stability issues (oxidation, storage), and standardization markers (piperine, capsaicin). This concise, keyword‑rich overview prepares you for applied quality control and formulation roles. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. What best describes “unorganized drugs” in pharmacognosy?

  • Plant parts with defined histological structure like leaves and stems
  • Mineral substances used in pharmacy
  • Plant secretions or exudates lacking a definite cellular or organized form
  • Synthetic mixtures produced in laboratories

Correct Answer: Plant secretions or exudates lacking a definite cellular or organized form

Q2. Which statement correctly defines an oleoresin?

  • A pure volatile oil obtained by steam distillation
  • A concentrated plant extract containing both volatile oil and non‑volatile resinous components
  • A water‑soluble extract used for injection formulations
  • A crystalline alkaloid isolated from plant tissues

Correct Answer: A concentrated plant extract containing both volatile oil and non‑volatile resinous components

Q3. What are the major constituents of typical spice oleoresins?

  • Volatile oils, resinous (non‑volatile) fraction, and sometimes waxes or pigments
  • Only triglycerides and fatty acids
  • Pure chlorophyll and cellulose
  • Only inorganic salts and minerals

Correct Answer: Volatile oils, resinous (non‑volatile) fraction, and sometimes waxes or pigments

Q4. Which industrial method is most commonly used to obtain oleoresins from spices?

  • Direct steam distillation of whole spice
  • Cold water maceration
  • Solvent extraction followed by solvent removal/concentration
  • Supercritical CO2 extraction for all spices without exception

Correct Answer: Solvent extraction followed by solvent removal/concentration

Q5. How does an oleoresin differ from an essential oil?

  • Oleoresins are purely volatile; essential oils contain non‑volatile resins
  • Oleoresins contain both volatile and non‑volatile resinous fractions, whereas essential oils are predominantly volatile
  • Essential oils are solid at room temperature while oleoresins are gaseous
  • There is no chemical difference between them

Correct Answer: Oleoresins contain both volatile and non‑volatile resinous fractions, whereas essential oils are predominantly volatile

Q6. Which solvent property is most suitable for extracting oleoresins from plant material?

  • Highly polar and water miscible solvent only
  • Non‑polar to moderately polar organic solvent that solubilizes volatile oils and resins
  • Strongly acidic aqueous medium
  • Pure supercritical nitrogen

Correct Answer: Non‑polar to moderately polar organic solvent that solubilizes volatile oils and resins

Q7. Which spice is commonly processed to produce an oleoresin used as both flavor and colorant?

  • Clove essential oil
  • Paprika oleoresin
  • Tea leaf infusion
  • Soybean oil

Correct Answer: Paprika oleoresin

Q8. Which analytical technique is most appropriate for detailed profiling of volatile components in an oleoresin?

  • UV‑Vis spectrophotometry
  • Gas chromatography‑mass spectrometry (GC‑MS)
  • Atomic absorption spectroscopy
  • Gravimetric moisture analysis

Correct Answer: Gas chromatography‑mass spectrometry (GC‑MS)

Q9. Which method is commonly used to estimate the non‑volatile resinous fraction in an oleoresin?

  • Volatile distillation in a Clevenger apparatus
  • Gravimetric determination after solvent evaporation and drying
  • Flame photometry for metals
  • pH titration with strong acid

Correct Answer: Gravimetric determination after solvent evaporation and drying

Q10. What is the primary cause of odor and potency loss in stored oleoresins?

  • Polymerization to high molecular weight plastics
  • Oxidation and volatilization of sensitive constituents
  • Rapid crystallization into solid salts
  • Complete conversion to water‑soluble sugars

Correct Answer: Oxidation and volatilization of sensitive constituents

Q11. Which antioxidant is frequently added to oleoresins to improve shelf stability?

  • Sodium chloride
  • Butylated hydroxytoluene (BHT)
  • Hydrochloric acid
  • Calcium carbonate

Correct Answer: Butylated hydroxytoluene (BHT)

Q12. For standardization of black pepper oleoresin, which marker compound is commonly quantified?

  • Menthol
  • Piperine
  • Curcumin
  • Capsaicin

Correct Answer: Piperine

Q13. Which term describes a concentrated resinous extract used mainly in perfumery and not necessarily containing a volatile oil?

  • Oleoresin
  • Resinoid
  • Essential oil
  • Fixed oil

Correct Answer: Resinoid

Q14. What industrial process is typically used to concentrate oleoresins after solvent extraction?

  • Simple open‑pan boiling at atmospheric pressure
  • Vacuum evaporation to remove solvent at reduced temperature
  • Freeze‑drying at high temperatures
  • Direct combustion of solvent to ash

Correct Answer: Vacuum evaporation to remove solvent at reduced temperature

Q15. Why are oleoresins often preferred over essential oils in food and pharmaceutical formulations?

  • They are completely odorless and have no flavor
  • They provide concentrated flavor, better stability, and non‑volatile color/pigment components
  • They are aqueous solutions that dissolve in water easily
  • They lack any bioactive compounds

Correct Answer: They provide concentrated flavor, better stability, and non‑volatile color/pigment components

Q16. Which technique is commonly used to convert liquid oleoresins into a free‑flowing powder for formulations?

  • Spray drying with carriers like maltodextrin or adsorption onto carriers
  • Direct freeze crystallization without carriers
  • Electroplating onto metal sheets
  • High‑temperature incineration

Correct Answer: Spray drying with carriers like maltodextrin or adsorption onto carriers

Q17. Which solvent is typically used as a non‑polar extractor in oleoresin production?

  • Hexane
  • Distilled water
  • Concentrated nitric acid
  • Saturated sodium chloride solution

Correct Answer: Hexane

Q18. For fingerprinting the resinous (non‑volatile) fraction of an oleoresin, which technique is commonly applied?

  • Thin layer chromatography (TLC)
  • Clevenger hydrodistillation
  • Karl Fischer titration
  • Conductivity measurement

Correct Answer: Thin layer chromatography (TLC)

Q19. Which property distinguishes oleoresins from fixed oils (triglyceride oils)?

  • Oleoresins contain significant volatile oil components and resinous matter, while fixed oils are mainly triglycerides
  • Fixed oils are aromatic volatile compounds only
  • Oleoresins are purely water‑soluble substances
  • Fixed oils contain essential oils and resins together

Correct Answer: Oleoresins contain significant volatile oil components and resinous matter, while fixed oils are mainly triglycerides

Q20. What is a major pharmaceutical use of oleoresins?

  • As primary active injectable antibiotics
  • As flavoring agents, excipients, and sometimes source of bioactive principles in formulations
  • As bulk crystalline excipients for tablet compression
  • As sterile aqueous eye drops

Correct Answer: As flavoring agents, excipients, and sometimes source of bioactive principles in formulations

Q21. The pungent principle of capsicum oleoresin responsible for heat is:

  • Curcumin
  • Piperine
  • Capsaicin
  • Gingerol

Correct Answer: Capsaicin

Q22. Which compound is a characteristic pungent constituent found in ginger oleoresin?

  • Menthone
  • Gingerol
  • Linalool
  • Thymol

Correct Answer: Gingerol

Q23. Which apparatus is traditionally used to determine the volatile oil content (hydrodistillation) that helps quantify the volatile fraction of a spice?

  • Clevenger apparatus
  • HPLC pump
  • Karl Fischer titrator
  • Atomic absorption spectrometer

Correct Answer: Clevenger apparatus

Q24. What is the recommended primary packaging for oleoresins to reduce deterioration?

  • Clear PET bottles stored in direct sunlight
  • Amber glass bottles or metal containers with inert atmosphere, protected from light and heat
  • Open trays at ambient temperature
  • Paper envelopes in humid storage

Correct Answer: Amber glass bottles or metal containers with inert atmosphere, protected from light and heat

Q25. During storage, which process most directly results in loss of aroma from an oleoresin?

  • Polymer crosslinking forming rubber
  • Evaporation of volatile constituents and oxidative degradation
  • Precipitation of inorganic salts
  • Conversion to stable ionic crystals

Correct Answer: Evaporation of volatile constituents and oxidative degradation

Q26. Which of the following statements about oleoresins is FALSE?

  • They often contain pigments and non‑volatile flavor components
  • They are typically water‑soluble
  • They can be standardized against marker compounds like piperine or capsaicin
  • They require antioxidant or proper packaging for stability

Correct Answer: They are typically water‑soluble

Q27. Which analytical technique is most suitable for simultaneous profiling of both volatile and non‑volatile constituents when used in combination?

  • GC‑MS for volatiles and HPLC for non‑volatiles
  • Microscopy alone
  • Simple refractometry
  • Paper chromatography only

Correct Answer: GC‑MS for volatiles and HPLC for non‑volatiles

Q28. Which oleoresin is predominantly used as a natural colorant and flavorant in foods?

  • Black tea extract
  • Paprika oleoresin
  • Synthetic FD&C Red No. 40 only
  • Pure glycerol

Correct Answer: Paprika oleoresin

Q29. Which extraction method is generally NOT suitable for obtaining an oleoresin (though it may yield an essential oil)?

  • Solvent extraction using hexane or acetone
  • Steam distillation targeting only volatile compounds
  • Supercritical CO2 extraction tuned for both fractions
  • Solvent extraction followed by concentration under reduced pressure

Correct Answer: Steam distillation targeting only volatile compounds

Q30. A simple laboratory test to detect adulteration of an oleoresin with added fixed vegetable oil is:

  • Determination of saponification value or comparing fatty oil markers by GC
  • Measuring pH with universal indicator paper
  • Observing color change on exposure to UV light only
  • Measuring electrical conductivity

Correct Answer: Determination of saponification value or comparing fatty oil markers by GC

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