Formulation and preparation of vanishing cream MCQs With Answer

Formulation and preparation of vanishing cream MCQs With Answer

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Introduction: Vanishing cream formulation and preparation is a core topic for B.Pharm students focusing on topical dosage forms, emulsions, and excipient selection. This introduction covers oil-in-water (O/W) vanishing creams, roles of stearic/cetostearyl alcohol, emulsifiers, HLB concepts, neutralizers like triethanolamine, humectants (glycerin), preservatives (parabens), rheology modifiers, stability testing and manufacturing steps including heating, homogenization and cooling. Emphasis is on quality control: pH, viscosity, microbial challenge testing, accelerated stability and packaging. Understanding formulation variables, incompatibilities and evaluation methods helps design safe, non-greasy, stable topical bases for therapeutic and cosmetic applications. ‘Now let’s test your knowledge with 30 MCQs on this topic.’

Q1. What type of emulsion is typically used for vanishing creams?

  • Water-in-oil (W/O) emulsion
  • Oil-in-water (O/W) emulsion
  • Microemulsion
  • Suspension

Correct Answer: Oil-in-water (O/W) emulsion

Q2. Which component is commonly neutralized with triethanolamine (TEA) to form an emulsifying soap in vanishing cream?

  • Stearic acid
  • Glycerin
  • Phenoxyethanol
  • Mineral oil

Correct Answer: Stearic acid

Q3. What is the primary purpose of using stearic/cetostearyl alcohol in vanishing cream formulations?

  • Preservative action
  • Emollient, co-emulsifier and viscosity builder
  • Antioxidant
  • Aqueous phase solvent

Correct Answer: Emollient, co-emulsifier and viscosity builder

Q4. The HLB system is most useful for selecting which ingredient in vanishing cream formulation?

  • Preservative
  • Colorant
  • Emulsifier
  • Fragrance

Correct Answer: Emulsifier

Q5. Typical pH range for a skin-compatible vanishing cream is approximately:

  • 2.0–3.5
  • 4.0–5.0
  • 5.5–7.0
  • 8.5–9.5

Correct Answer: 5.5–7.0

Q6. Why is the product termed “vanishing” cream?

  • It disappears chemically after application
  • It forms a permanent oily film on skin
  • Water and volatile components evaporate leaving a thin, non-greasy film
  • It converts to a gel on skin

Correct Answer: Water and volatile components evaporate leaving a thin, non-greasy film

Q7. Which humectant is most commonly used in vanishing creams to retain moisture?

  • Glycerin
  • Isopropyl myristate
  • Stearic acid
  • Caprylic triglyceride

Correct Answer: Glycerin

Q8. Which preservative system is traditionally used and effective in many vanishing cream formulations?

  • Methylparaben and propylparaben combination
  • Sodium chloride
  • Ethyl cellulose
  • Stearyl alcohol

Correct Answer: Methylparaben and propylparaben combination

Q9. What is the typical oil-phase percentage range in a classic vanishing cream formulation?

  • 0–5%
  • 5–10%
  • 15–30%
  • 50–70%

Correct Answer: 15–30%

Q10. Which statement correctly contrasts vanishing cream and cold cream?

  • Vanishing cream is W/O and greasy; cold cream is O/W and non-greasy
  • Vanishing cream is O/W and non-greasy; cold cream is W/O and more greasy
  • Both are O/W emulsions with identical properties
  • Cold cream always contains alcohol while vanishing cream does not

Correct Answer: Vanishing cream is O/W and non-greasy; cold cream is W/O and more greasy

Q11. Which instrument is commonly used to measure the viscosity of vanishing creams during QC?

  • pH meter
  • Brookfield viscometer
  • UV spectrophotometer
  • Refractometer

Correct Answer: Brookfield viscometer

Q12. The main function of homogenization in vanishing cream manufacture is to:

  • Increase microbial load
  • Reduce droplet size and improve emulsion stability
  • Remove preservatives
  • Create a powdered product

Correct Answer: Reduce droplet size and improve emulsion stability

Q13. Why is perfume usually added at the cooling stage of preparation?

  • Perfume requires heating to activate
  • To prevent loss of volatile fragrance and avoid heat degradation
  • Perfume acts as an emulsifier at high temperature
  • Perfume neutralizes stearic acid

Correct Answer: To prevent loss of volatile fragrance and avoid heat degradation

Q14. Which stability test is used to quickly detect phase separation in emulsions?

  • pH titration
  • Centrifugation test
  • HPLC assay
  • Freeze-drying

Correct Answer: Centrifugation test

Q15. Neutralization of stearic acid with TEA in vanishing creams primarily affects which property?

  • Color of the cream
  • Viscosity and formation of soap-type emulsifier
  • Antimicrobial potency
  • Melting point of water

Correct Answer: Viscosity and formation of soap-type emulsifier

Q16. Which incompatibility concern is most relevant when selecting an emulsifier for vanishing creams?

  • Interaction with pigments causing color change
  • Reaction with fragrances to form salts
  • Electrolytes causing emulsion destabilization if ionic emulsifiers used
  • Emulsifiers always improve stability regardless of other ingredients

Correct Answer: Electrolytes causing emulsion destabilization if ionic emulsifiers used

Q17. Which test assesses the preservative efficacy of a vanishing cream formulation?

  • Viscosity test
  • Preservative efficacy test (challenge test)
  • Particle size distribution
  • Friability test

Correct Answer: Preservative efficacy test (challenge test)

Q18. Addition of an antioxidant in the oil phase of vanishing cream primarily prevents:

  • Evaporation of water
  • Lipid rancidity and oxidative degradation of oils
  • Emulsion formation
  • pH change to acidic range

Correct Answer: Lipid rancidity and oxidative degradation of oils

Q19. Which excipient is most likely to increase the comedogenic potential of a vanishing cream?

  • Glycerin
  • Lanolin
  • Triethanolamine
  • Methylparaben

Correct Answer: Lanolin

Q20. Standard accelerated stability conditions often used for creams are approximately:

  • 5°C and 40% RH
  • 25°C and ambient RH
  • 40°C and 75% RH
  • 100°C and 0% RH

Correct Answer: 40°C and 75% RH

Q21. Which rheology modifier or co-emulsifier is commonly used to adjust cream consistency in vanishing creams?

  • Carbomer alone without neutralization
  • Cetostearyl alcohol
  • Sodium chloride at high concentration
  • Hydrogen peroxide

Correct Answer: Cetostearyl alcohol

Q22. Which factor would most likely decrease the stability (increase phase separation) of a vanishing cream?

  • Appropriate HLB emulsifier selection
  • Excessive electrolyte addition or high ionic strength
  • Proper homogenization reducing droplet size
  • Controlled cooling rate

Correct Answer: Excessive electrolyte addition or high ionic strength

Q23. For QC of vanishing cream, which test evaluates spreadability or ease of application?

  • Spreadability (slip or extensibility) test using glass slides
  • Freeze–thaw cycling
  • Karl Fischer titration
  • Atomic absorption spectroscopy

Correct Answer: Spreadability (slip or extensibility) test using glass slides

Q24. Which surfactant class is generally preferred for O/W vanishing creams to minimize irritation?

  • Anionic surfactants like SLS
  • Cationic surfactants
  • Nonionic surfactants
  • Strongly acidic surfactants

Correct Answer: Nonionic surfactants

Q25. Which packaging is most suitable to protect vanishing cream from contamination and oxidation?

  • Airtight, non-reactive opaque tubes or jars with good closure
  • Open trays
  • Perforated cardboard boxes
  • Paper sachets with large pores

Correct Answer: Airtight, non-reactive opaque tubes or jars with good closure

Q26. A formulation problem shows increasing viscosity on storage due to excess neutralization. Which component is most implicated?

  • Excess triethanolamine neutralizing stearic acid
  • Insufficient preservative
  • Too much fragrance
  • Excess water loss only

Correct Answer: Excess triethanolamine neutralizing stearic acid

Q27. Which procedure is essential immediately after manufacture to ensure microbiological quality of vanishing cream?

  • Particle size analysis
  • Microbial limit test and preservative efficacy (challenge) test
  • Determination of ignition point
  • pH meter calibration only

Correct Answer: Microbial limit test and preservative efficacy (challenge) test

Q28. If a 1000 g batch of a vanishing cream requires 20% oil phase, how many grams of oil-phase materials are needed?

  • 20 g
  • 200 g
  • 500 g
  • 800 g

Correct Answer: 200 g

Q29. Which of the following best describes the role of stearic acid-derived soap (formed with TEA) in vanishing creams?

  • Acts only as a preservative
  • Forms the primary emulsifying species stabilizing O/W emulsion
  • Removes water from the formulation
  • Acts as a bleaching agent

Correct Answer: Forms the primary emulsifying species stabilizing O/W emulsion

Q30. During formulation development, which analytical parameter helps predict long-term physical stability by monitoring droplet coalescence?

  • Particle/droplet size distribution (droplet size analysis)
  • Melting point of stearic acid only
  • Fragrance retention alone
  • Colorimetric pH indicator

Correct Answer: Particle/droplet size distribution (droplet size analysis)

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