1 / 30

EMULSIONS

EMULSIONS. Lecturer : Plaskonis Yu. Yu. Emulsions are homogeneous (by their appearance) medicinal forms consisting mutual insoluble thin dispersed liquids intended for internal, external application, for injections. DEFINITION AND CHARACTERISTICS OF EMULSIONS. Positive

alysona
Télécharger la présentation

EMULSIONS

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. EMULSIONS Lecturer : Plaskonis Yu. Yu.

  2. Emulsions are homogeneous (by their appearance) medicinal forms consisting mutual insoluble thin dispersed liquids intended for internal, external application, for injections.

  3. DEFINITION AND CHARACTERISTICS OF EMULSIONS • Positive • to combine immiscible liquids in one medicine; • to put into the medicine’s composition the hydrophilic and hydrophobic medicinal substances; • to regulate the bioavailability of medicinal substances (due to rapid and complete freeing or prolonging of the medicinal substances action); • to remove irritations on the skin and mucous, which are typical for certain medicinal substances; • to mask unpleasant taste and smell of some medicines. • Negative • instability of emulsions as dispersion systems under influencing of different factors (temperatures, air, light); • the possibility of the growth of microorganisms (emulsions are favourable media for the growth of microorganisms); • relatively long technological processes of manufacturing, which require the use of proper technological operations and special technological equipment; • the necessity of using emulsifiers for stabilization of the dispersion system.

  4. DEFINITION AND CHARACTERISTICS OF EMULSIONS • For preparation of emulsions we use: • Liquids insoluble in water: • Oil:peach, olive, vaseline, etc. • Cod-liver oil • Balm, etc. • Emulsifiers: HMC

  5. An emulsion is liquid preparation containing two immiscible liquids, one of which is dispersed as globules (dispersed phase = internal phase) in the other liquid (continuous phase = external phase). To stabilize these droplets, emulsifying agent should be added

  6. Primary and secondary emulsion: • Primary emulsion containing one internal phase, for example, oil-in-water emulsion (o/w) and water-in-oil emulsion (w/o). • Secondary emulsion= multiple-emulsion: it contains two internal phase, for instance, o/w/o or w/o/w. It can be used to delay release or to increase the stability of the active compounds.

  7. TYPES OF EMULSIONS • Oil-water (O/W) – direct, or I-st type (washed by water) • Water-oil (W/O) – reverse, or II-d type (can not be removed by water) • Water-oil-water (W/O/W) or • Oil-water-oil (O/W/O)

  8. Emulsion Type and Means of Detection: • using of naked eye, it is very difficult to differentiate between o/w or w/o emulsions. Thus, the four following methods have been used to identify the type if emulsions.

  9. 1) Dilution Test: • based on the solubility of external phase of emulsion. • - o/w emulsion can be diluted with water. • - w/o emulsion can be diluted with oil.

  10. 2) Conductivity Test: • water is good conductor of electricity whereas oil is non-conductor. Therefore, continuous phase of water runs electricity more than continuous phase of oil.

  11. = Bulb glows with O/W = Bulb doesn’t glow with W/O

  12. 3) Dye-Solubility Test: • - Water-soluble dye will dissolve in the aqueous phase. • - Oil-soluble dye will dissolve in the oil phase.

  13. 4-Fluorescence test: • oils give fluorescence under UV light, while water doesn’t. Therefore, O/W emulsion shows spotty pattern while W/O emulsion fluoresces.

  14. Theories of Emulsification: • Incase of two immiscible liquids

  15. Methods of formulation primary oily emulsions

  16. Calculation of amount of components for a primary emulsion • The oil’s amount is indicated in the prescription. If there are no indications, then take: 10.0 g of the oil (olive, peach or sunflower) per 100.0 g of the emulsion • The amount of the emulsifier is determined by its ability to emulsify • The amount of water to form a primary emulsion is determined by the emulsifier’s dissolution in water

  17. To 10.0 g of the oil add:

  18. Calculation of water for dilute the primary emulsion • Subtract the weight of the components of the primary emulsion (oil+water+emulsifier) from the emulsion’s total weight (according to the prescription)

  19. The scheme of technology and quality control of emulsions • Prescription formula • Verification of correctness: registration of the prescription form, prescribing and compatibility of ingredients, doses and norms of dispensing medicines • Calculation of the amount of medicinaland auxiliary substances • Formulation of emulsions: weighing, measuring, emulsification, dilution, dispersion, mixing, filtering (if necessary): • Sanitary preparation of the personnel, premises andequipment • Preparation of the raw material,materials, medicinal and auxiliary substances

  20. Rp.: Emulsi olei Persicorum 100.0 Coffeini-Natrii benzoatis 0.5 Misce. Da. Signa. 1 table-spoon WCP (reverse side) • (as an emulsifier – solution of Methylcellulose 5 %) • Peach oil: 100.0 / 10 = 10.0 • Solution of МС 5 %: 10.0 х 2 = 20.0(to prepare the primary emulsion water is not required)Purified water for dilution of the primary emulsion:100.0 – (10.0 + 20.0) = 70 ml

  21. Place 20.0 g of 5 % metylcellulose solution in a porcelain mortar and triturate thoroughly. Then add 10.0 g of peach oil dropwise while triturating and emulsifying thoroughly. Collect the mass several times with the celluloid plate from the walls of the mortar and the pestle. Check the readiness of the primary emulsion and then add the purified water gradually. • Since the emulsion contains caffeine benzoate sodium, approximately 20-25 ml of the purified water (or 10 % concentrated solution - 5 ml is used) for its dissolution is left. Then dilute the primary emulsion with the remaining amount of water and add the solution of caffeine benzoate sodium.

  22. WCP (front side) Date № Pr. Sol. Methylcellulosae 5 % 20.0 Olei Persicorum 10.0 Aq. purificatae 70 ml Coffeini-natrii benzoatis 0.5 m total = 100.5Prepared by: (signature)Checked by: (signature)

  23. Rp.: Emulsi olei Ricini 200.0 Camphorae 1.0 Misce. Da. Signa. 1 table-spoon 3 times a day. WCP (reverse side) (as an emulsifier – Tween-80) • Peach oil: 200.0 / 10 = 20.0 • Oil phase: 20.0 + 1.0 = 21.0 • Tween-80: 21.0 / 5 = 4.2Water for preparing the primary emulsion: 2.0 g ----- 2–3 ml 4.2 g ------ x x  5 mlWater for diluting the primary emulsion:201.0 – (21.0 + 4.2 + 5.0) = 170.8 ml

  24. Weigh out 20.0 g of castor oil (Oleum Ricinum) in a porcelain cup and dissolve 1.0 g of camphor, it can be done while heating (to 40°С) on the water bath. Place 4.2 g of tween-80 in a mortar, add an oily solution of camphor and mix. Then add 5 ml of water dropwise and emulsify until the primary emulsion is obtained. The primary emulsion prepared is then diluted by 170.8 ml of the purified water, which is gradually added.

  25. WCP (front side) Date № Pr. • Olei Ricini 20.0 • Camphorae 1.0 • Tweeni-80 4.2 • Aquae purificatae 75.8 ml mtotal = 201.0 • Prepared by: (signature)Checked by: (signature)

More Related