This document provides information about a pharmaceutical suspension submitted by Rahul Raj, a B-Pharmacy student with roll number 045. It begins with an introduction that defines suspensions and classifies them based on physical state, proportion of solid particles, behavior of dispersed phase, size of dispersed particles, and general use. The document then discusses properties of well-formulated suspensions, advantages and disadvantages of suspensions, and various methods for formulating suspensions including precipitation, dispersion, controlled flocculation, and use of structured vehicles. It provides a general procedure for suspension formulation and includes flow charts. Finally, it details common formulation components such as suspending agents, wetting agents, surfactants, hydrophilic colloids, solvents
it is a complete overview on ophthalmic dosage form. beginning from anatomy and physiology of eye with drug absorption mechanism including all factors to formulation considerations and evaluation of the products i.e. eye drops and eye ointment & the evaluation tests. it will help you make the concepts clear about ophthalmic drug deliveries.
SELF MICRO EMULSIFYING DRUG DELIVERY SYSTEM [SMEDDS]Sagar Savale
Oral route is the main route of drug administration in many diseases. Major problem in oral route of drug administration is bioavailability which mainly results from poor aqueous solubility. This leads to lack of dose uniformity and high intrasubject/intersubject variability. It is found that 40% of active substances are poorly water-soluble. Various technologies are developed to overcome this problem, like solid dispersion or complex formation. Much attention has been given to lipid-based formulation with particular emphasis on self-micro emulsifying drug delivery system to improve the oral bioavailability of lipophilic drugs. It requires small amount of dose and also drugs can be protected from hostile environment in gut. Self-micro emulsifying drug delivery systems are specialized form of delivery system in which drug is encapsulated in a lipid base with or without pharmaceutical acceptable surfactant.
Improved and Novel Excipients – Need, sources of new excipients-co-processing and particle engineering, benefits of co-processed excipients, characterization, examples, regulatory aspects
it is a complete overview on ophthalmic dosage form. beginning from anatomy and physiology of eye with drug absorption mechanism including all factors to formulation considerations and evaluation of the products i.e. eye drops and eye ointment & the evaluation tests. it will help you make the concepts clear about ophthalmic drug deliveries.
SELF MICRO EMULSIFYING DRUG DELIVERY SYSTEM [SMEDDS]Sagar Savale
Oral route is the main route of drug administration in many diseases. Major problem in oral route of drug administration is bioavailability which mainly results from poor aqueous solubility. This leads to lack of dose uniformity and high intrasubject/intersubject variability. It is found that 40% of active substances are poorly water-soluble. Various technologies are developed to overcome this problem, like solid dispersion or complex formation. Much attention has been given to lipid-based formulation with particular emphasis on self-micro emulsifying drug delivery system to improve the oral bioavailability of lipophilic drugs. It requires small amount of dose and also drugs can be protected from hostile environment in gut. Self-micro emulsifying drug delivery systems are specialized form of delivery system in which drug is encapsulated in a lipid base with or without pharmaceutical acceptable surfactant.
Improved and Novel Excipients – Need, sources of new excipients-co-processing and particle engineering, benefits of co-processed excipients, characterization, examples, regulatory aspects
a suspension is a heterogeneous mixture containing solid particles that are sufficiently large for sedimentation. Usually they must be larger than one micrometer. A suspension is a heterogeneous mixture in which the solute particles do not dissolve but get suspended throughout the bulk of the medium.
What’s a suspension ?
Suspension Requirements?
Why a suspension?
Stability;
HOW TO MAKE A FINE POWDER? (10-50 MICRON)
Fluid Energy
Preparing Flocculated suspensions
Formulation considerations for orally administered suspension:
Rheology
Rheology for Pharmacists
Excipients used in the formulation of suspensions for oral administration:
Excipients used in the formulation of suspensions for oral administration:
Some subdosage forms of suspensions
Extemporaneous Prepration:
Settling in Suspensions, Formulation of Flocculated and Defloculated Suspens...Suyash Jain
Suspension
Settling in Suspensions,
Stroks law
Theory Of Sedimentation
Formulation of suspensions
Precipitation method:
Dispersion method
Comparision of partical setteling in Defloculated Suspension and Floculated Suspension
Characteristics of an Ideal Suspensions
Formulation of Flocculated and Defloculated Suspensions
Suspension are biphasic liquids dosage form in which insoluble solid particulate are uniformly distributed in liquid phase which may be stabilized by inclusion of suspending agents.
Methods of Solubility Enhancement bt Mr.Vishal Shelke
https://youtube.com/vishalshelke99
https://instagram.com/vishal_stagram
Sub :- Biopharmaceutics & Pharmacokinetics
M.Pharmacy Sem 1
Savitribai Phule Pune University
Introduction :-
Solubility :-
“Solubility is the property of a solid, liquid, or gaseous chemical substance called solute to dissolve in a solid, liquid, or gaseous solvent to form a homogeneous solution of the solute in the solvent.”
Solubalization :-
“ A Preparation of thermodynamically stable isotropic solution of a substance normally insoluble or slightly soluble in a given solvent by introduction of an additional component
Importance of Solubility :-
Therapeutic efeectivness of a drug depends upon the bioavailability & ultimately upon the solubility of drug molecules
Solubility is one of the important parameter to achieve desired concentration of a drug in systemic circulation for pharmacological ressponse to be shown.
Currently only 8% of new drugs have both high solubility & Permeability.
Nearly 40% of the new chemical entities currently being discovered are poorely water soluble
Methods :-
Spray freezing into liquid (SFL)
Ultra-Rapid Freezing
Kneading Technique
Co-precipitation
Solubalizing Agents
SOLID DISPERSION
Definition: The technology is the science of dispersing one or more active ingredients in an inert matrix in the solid stage.
Need of solid dispersion:
Increases Oral bioavailability of a drug
Increased dissolution rate.
Enhanced release of drugs from ointment.
Improved the solubility & stability.
The concept of solid dispersion was originally proposed by Sekiguchi & obi.
Increasing the dissolution, absorption & therapeutic efficacy of drugs in dosage forms.
Increasing solubility in water.
Improving the oral absorption and bioavailability of BCS Class II drugs.
a suspension is a heterogeneous mixture containing solid particles that are sufficiently large for sedimentation. Usually they must be larger than one micrometer. A suspension is a heterogeneous mixture in which the solute particles do not dissolve but get suspended throughout the bulk of the medium.
What’s a suspension ?
Suspension Requirements?
Why a suspension?
Stability;
HOW TO MAKE A FINE POWDER? (10-50 MICRON)
Fluid Energy
Preparing Flocculated suspensions
Formulation considerations for orally administered suspension:
Rheology
Rheology for Pharmacists
Excipients used in the formulation of suspensions for oral administration:
Excipients used in the formulation of suspensions for oral administration:
Some subdosage forms of suspensions
Extemporaneous Prepration:
Settling in Suspensions, Formulation of Flocculated and Defloculated Suspens...Suyash Jain
Suspension
Settling in Suspensions,
Stroks law
Theory Of Sedimentation
Formulation of suspensions
Precipitation method:
Dispersion method
Comparision of partical setteling in Defloculated Suspension and Floculated Suspension
Characteristics of an Ideal Suspensions
Formulation of Flocculated and Defloculated Suspensions
Suspension are biphasic liquids dosage form in which insoluble solid particulate are uniformly distributed in liquid phase which may be stabilized by inclusion of suspending agents.
Methods of Solubility Enhancement bt Mr.Vishal Shelke
https://youtube.com/vishalshelke99
https://instagram.com/vishal_stagram
Sub :- Biopharmaceutics & Pharmacokinetics
M.Pharmacy Sem 1
Savitribai Phule Pune University
Introduction :-
Solubility :-
“Solubility is the property of a solid, liquid, or gaseous chemical substance called solute to dissolve in a solid, liquid, or gaseous solvent to form a homogeneous solution of the solute in the solvent.”
Solubalization :-
“ A Preparation of thermodynamically stable isotropic solution of a substance normally insoluble or slightly soluble in a given solvent by introduction of an additional component
Importance of Solubility :-
Therapeutic efeectivness of a drug depends upon the bioavailability & ultimately upon the solubility of drug molecules
Solubility is one of the important parameter to achieve desired concentration of a drug in systemic circulation for pharmacological ressponse to be shown.
Currently only 8% of new drugs have both high solubility & Permeability.
Nearly 40% of the new chemical entities currently being discovered are poorely water soluble
Methods :-
Spray freezing into liquid (SFL)
Ultra-Rapid Freezing
Kneading Technique
Co-precipitation
Solubalizing Agents
SOLID DISPERSION
Definition: The technology is the science of dispersing one or more active ingredients in an inert matrix in the solid stage.
Need of solid dispersion:
Increases Oral bioavailability of a drug
Increased dissolution rate.
Enhanced release of drugs from ointment.
Improved the solubility & stability.
The concept of solid dispersion was originally proposed by Sekiguchi & obi.
Increasing the dissolution, absorption & therapeutic efficacy of drugs in dosage forms.
Increasing solubility in water.
Improving the oral absorption and bioavailability of BCS Class II drugs.
-suspension (Pharmaceutical)
-definition of suspension
-types of suspension,
-examples of pharmaceutical
-suspension
-pharmaceutical application of suspension
-advantages of suspension
- disadvantages of suspension
-classification of suspension
-flocculated and deflocculated
-formulation additives
- methods of preparation
-formulation of suspension
Suspensions containing diffusible solids
Suspensions containing in diffusible solids
Suspensions containing poorly wettable solids
Suspensions of precipitate forming liquids
Suspensions produced by chemical reactions
- Packaging and storage
stability of suspension
- routes of administration of suspension
-evaluation of suspension
Suspension is made of two phase system, consisting of a finely divided solid particles (Dispersed phase) distributed in a particular manner throughout another medium (Continuous phase).
INTRODUCTION, CLASSIFICATION, FORMULATION, PREPARATION METHOD, BENEFITS AND DISADVANTAGES, STORAGE
The physical chemist defines the word “suspension” as a two-phase system consisting of an undissolved or immiscible material dispersed in a vehicle (solid, liquid, or gas).
Suspension are generally taken orally or by parenteral route, and the suspensions meant for external use should have small particle size to avoid gritty feeling to the skin
The suspensions have dispersed particles above the colloidal size, which is 0.5–5 microns.
Based On Pharmaceutical Use
Oral suspension
Externally applied suspension
Parenteral suspension
Ophthalmic Suspension
Based On the proportion of solid particles
Dilute suspension (2 to10 10 percent; w/v solid)
Concentrated suspension (50 percent; w/v solid)
Based On Electrokinetic Nature Of Solid Particles
Flocculated suspension
Deflocculated suspension
Based On Size Of Solid Particles
Colloidal suspension (< 1 micron)
Coarse suspension (>1 micron)
Nano suspension (10 ng)
Oral Suspension
Topical Suspension
Parenteral Suspension
Ophthalmic Suspension
Suspending and thickening agents
Wetting Agents
Dispersing agent
Flocculating Agent
Preservative
Organoleptic Additives
Suspensions containing diffusible solids
Suspensions containing insoluble solids
Suspensions of precipitate-forming liquids
Suspensions produced by chemical reactions
An excipient is a pharmacologically inactive/ inert substance formulated alongside the active pharmaceutical ingredient of a medication. Drug products contain both drug substance (commonly referred to as active pharmaceutical ingredient or API) and excipients.
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1. NAME- RAHUL RAJ
CLASS – B-PHARMACY
ROLL NO- 045
SEC- A
SUBMITTED BY- RAHUL RAJ
SUBMITTED TO- KANCHAN SHARMA
2.
3. Introduction
Definition:
A Pharmaceutical suspension is a heterogeneous
system consisting of two phases in which internal phase is
dispersed uniformly throughout the external phase.
• The internal phase consists of particulate matter that is
essentially insoluble but dispersed uniformly throughout
the continuous phase with aid of single or combination
of suspending agent.
• The external phase (suspending medium) is generally
aqueous in some instance, may be an organic or oily
liquid for non-oral use.
4. Introduction
Classification:
Suspensions can be classified as:
1 Based on physical state:
Suspension
Aerosols
Foams
2 Based on Proportion of Solid Particles:
Dilute suspension (2 to10% w/v solid). For example cortisone
acetate, prednisolone acetate
Concentrated suspension (50%w/v solid). For example zinc oxide
suspension
3-Based on behavior of Dispersed Phase:
Flocculated Suspension (Dispersed phase maybe a network of
particle)
Deflocculated Suspension (Dispersed phase may consist of discrete
particles)
5. Introduction
4-Based on Size of Dispersed Particles:
Molecular Dispersion (Particle size is less than 1 nm)
Colloidal Dispersion (Particle size between 0.1-0.2 µm)
Coarse Dispersion (Particle size is greater than 0.2 µm)
5-General classification of Suspension:
Oral suspension (Example is Paracetamol suspension)
Topical suspension (Dispersed phase is in high
concentration often exceeds 20% w/v. Example is Calamine
Lotion)
Parenteral suspension (Solid Contents is between 0.5-5%
w/v. Example includes Procaine penicillin G suspension.
Reference: Lachman/Lieberman’s The theory and practice of
industrial pharmacy 4th edition page no. 655
6. Properties of a Suspension
• A well formulated suspension should have:
• Easy and rapid redispersion of sedimented
particles for uniformity of dose.
• No cake formation on sedimentation.
• Optimum viscosity for pouring.
• Physical and chemical stability.
• Free from gritting particles (in case of external
use)
7. Advantages And Disadvantages:
Advantages:
• Suspension can improve chemical stability of certain drug. For example
Procaine penicillin G.
• Drug in suspension exhibits higher rate of bioavailability than other dosage
forms.
Solution > Suspension > Capsule > Compressed Tablet > Coated tablet
• Duration and onset of action can be controlled. For example Protamine
Zinc-Insulin suspension.
• Suspension can mask the unpleasant/bitter taste of drug. For example
Chloramphenicol
Disadvantages:
• Physical stability, sedimentation and compaction can causes problems.
• It is bulky. Sufficient care must be taken during handling and transport.
• It is difficult to formulate.
• Uniform and accurate dose may not be achieved.
8. Methods For Formulation of Suspension
1-Precipitation method:
Three precipitation methods are used:
Organic solvent precipitation:
• Water insoluble drugs can be precipitated by dissolving them in water-
miscible organic solvent and then adding organic phase to distilled water
under standard conditions.
• Organic solvents used are ethanol, methanol, propylene glycol and
polyethylene glycol.
Precipitation by pH:
• The method of changing the pH of medium is more readily accomplished
and does not present the same difficulties associated with organic solvent
precipitation.
• This method is applicable only to those drugs in which solubility is
dependent on pH value.
• Examples include Estradiol Suspension and Insulin Suspension.
Double Decomposition:
• This method involves simple chemistry.
• Example includes White Lotion (NF XIII).
9. Methods For Formulation of Suspension
2-Dispersion Method:
• In this method, the vehicle must be formulated so that solid phase is easily
wetted and dispersed.
• The use of surfactant is desirable to ensure uniform wetting of
hydrophobic solid.
• The use of suspending agent such as synthetic polymer, natural gums and
others maybe indicated depending upon specific application.
• The actual dispersing of solids may or may not cause particle size
reduction. If particle size reduction occurs, the particles obtained may
have different solubilities and this may lead to super saturation of the
system.
3-Use of controlled flocculation:
• Controlled flocculation of particles is obtained by adding flocculating
agents, which are:
Electrolytes
Surfactants
Polymers
10. Methods For Formulation of Suspension
4-Use of structured vehicle:
• Structured vehicles called also thickening or suspending agents.
• They are aqueous solutions of natural and synthetic gums.
• These are used to increase the viscosity of the suspension.
• These structured vehicles entrapped the particle and reduces the
sedimentation of particles.
• Thus, the use of deflocculated particles in a structure vehicle may form
solid hard cake upon long storage.
• Too high viscosity is not desirable as:
It causes difficulty in pouring and administration.
It may affect drug absorption since they adsorb on the surface of particle
and suppress the dissolution rate.
Structured vehicle is not useful for parenteral suspension because they
may create problem in syringeability due to high viscosity.
Reference: Lachman/Lieberman’s The theory and practice of industrial
pharmacy 4th edition page no. 655
11. Formulation of Suspension
General Procedure
• First the particle size is reduced to a desired size with the help of mill or
other equipments.
• The insoluble materials are levigated or grinded to a smooth paste with a
vehicle containing the wetting agent.
• All soluble ingredients are dissolved in same portion of the vehicle and
added to the smooth paste to get slurry.
• If preparing on small scale, the slurry is then transferred to a graduated
cylinder and mortar is rinsed with successive portion of vehicle.
• If preparing on industrial scale, then slurry is transferred to a colloid mill or
a disperser or any other equipment to completely wet the particles.
• Then a deflocculated suspension is obtained.
• Decide whether the solids are:
Suspended in a structured vehicle
Flocculated
Flocculated and then suspended
• Add the vehicle containing the suspending agent or flocculating agent.
• Make up the dispersion to the final volume.
• Thus suspension is prepared.
12. Flow Chart for formulation of Suspension
Finely divided particles
Particles are added in dispersion medium
Wetting agent is added
Deflocculated Suspension
13. Flow Chart for formulation of Suspension
Deflocculated Suspension
Addition of
Structured Vehicle
Deflocculation
Suspension in structured
vehicle
Flocculating agents
are added
Flocculated suspension
Flocculating agents
are added
Addition of structured
Vehicle
Flocculated Suspension in
structured vehicle
14. Formulation Components
1-Suspending agents:
• Suspending agent are also known as hydrophilic colloids which form
colloidal dispersion.
• Suspending agent form film around particle and decrease interparticle
attraction.
• Most suspending agents perform two functions i.e. besides acting as a
suspending agent they also imparts viscosity to the solution.
• Sodium alginate, Methylcellulose (1-2%), Hydroxyethyl cellulose (1-2%),
Hydroxypropyl cellulose(1-2%) Hydroxypropyl methylcellulose (1-2%)
2-Wetting Agents:
• Hydrophilic materials are easily wetted by water while hydrophobic
materials are not.
• However hydrophobic materials are easily wetted by non-polar liquids.
• The extent of wetting by water is dependent on the hydrophillicity of the
materials.
• The concentration used is less than 0.5 %.
15. Formulation Components
3-Surfactants:
• Surfactants decrease the interfacial tension between drug particles and liquid thus
liquid is penetrated in the pores of drug particle displacing air from them and thus
ensures wetting.
• Generally, we use non-ionic surfactants but ionic surfactants can also be used
depending upon certain conditions.
• Polysorbate 80 is most widely used due to its following advantages:
It is non-ionic so no change in pH of medium.
No toxicity. Safe for internal use.
4-Hydrophilic colloids:
• Hydrophilic colloids coat hydrophobic drug particles in one or more than one layer.
• This will provide hydrophillicity to drug particles and facilitate wetting
• E.g. acacia, tragacanth, alginates, guar gum.
5-Solvents:
• The most commonly used solvents used are alcohol, glycerin, polyethylene glycol
and polypropylene glycol.
• The mechanism by which they provide wetting is that they are miscible with water
and reduce liquid air interfacial tension.
• Liquid penetrates in individual particle and facilitates wetting.
16. Formulation Components
6-Buffers:
• Buffers are the materials which when dissolved in a
solvent will resist any change in pH when an acid or base
is added.
• To encounter stability problems all liquid formulation
should be formulated to an optimum pH.
• Generally pH of suspension preferably at 7.4-8.4.
• Most commonly used buffers are salts of weak acids such
as carbonates, citrates, gluconates, phosphate
17. Formulation Components
7-Preservatives:
• Naturally occurring suspending agents such as tragacanth, acacia, xanthan gum
are susceptible to microbial contamination.
• This leads to loss in suspending activity of suspending agents, loss of color, flavor
and odor, change in elegance etc.
• Propylene glycol, Disodium EDTA (0.1%), Benzalkonium chloride (0.01-0.02%)
Benzoic acid (0.1%)
8- Flavoring and Coloring Agents:
• They are added to increase patient acceptance.
• Only sweetening agent are not capable of complete taste masking of unpleasant
drugs therefore, a flavoring agents are incorporated.
• Examples include Acacia, Ginger, Sarsaparilla syrup, Anise oil, Glucose, Spearmint
oil.
9-Coloring agents:
• Colors are obtained from natural or synthetic sources.
• The synthetic dyes should be used within range of( 0.0005 % to 0.001%)
• Color aids in identification of the product.
• The color used should be acceptable by the particular country.
• Most widely used colors are as follows.
• Titanium dioxide (white), Brilliant blue (blue), Indigo carmine(blue), Amaranth
(red), Tartarazine (yellow), Annatto seeds(yellow to orange)
18. Formulation Component
11- Sweetening Agents:
• They are used for taste masking of bitter drug particles.
• Sugars such as xylose, ribose, glucose, mannose.
12-Humectants:
• Humectants absorb moisture and prevent degradation of API by
moisture.
• Examples of humectants most commonly used in suspensions are
propylene glycol ,glycerol.
• Total quantity of humectants should be between 0-10 % w/w.
13-Antioxidants:
• Ascorbic acid derivatives such as ascorbic acid, erythorbic acid,
• Thiol derivatives such as thio glycerol, cytosine, acetyl cysteine,
• Tocopherols
Reference: Lachman/Lieberman’s The theory and practice of
industrial pharmacy 4th edition page no. 665, 666, 667.
19. Equipment for Suspensions
1-Mortar and pestle
• It consists of a glass or porcelain mortar and a pestle.
Advantages:
• (i) Small quantity suspenisons can be prepared in the laboratory.
• (ii) Low cost
• (iii) Simplest operation among all other instruments.
Disadvantages:
• (i) Generally, the final particle size is considerable larger then in other
equipment.
• (ii) It is necessary for the ingredients to have a certain viscosity prior to
trituration in order to achieve a satisfactory shear.
20. Equipment for Suspensions
2. Agitators / Mechanical stirrers
• A suspension may be prepared by means of various impellers (propellers:
produce axial movements; turbines produce radial and tangential
movements) mounted on shafts.
• For low viscosity suspensions propeller type can be used but for higher
viscosity turbine type is used.
• The degree of agitation is controlled by the rotational speed of impeller,
by the patterns of the liquid flow and the resultant efficiency of mixing are
controlled by the type of impeller, its position in the container, the
presence of baffles, and the general shape of the container.
Advantages: Can be used for small-scale production and laboratory purpose.
Disadvantages: Continuous shaking tends to break up not only the phase to
be dispersed but also the dispersion medium, in this way, impairs the ease of
suspension.
Remedy: Slow the speed of agitator. Avoid continuous running.
23. Equipments for suspension
3. Colloid mill
• The principle of operation of the colloid mill is the passage of
the mixed phases of a suspension between a stator and a high
speed rotor revolving at speeds of 2000 to 18,000 rpm.
• The clearance between the rotor and the stator is adjustable,
usually from 0.001 inch upward. The suspension mixture,
while passing between the rotor and the stator, is subjected
to a tremendous shearing action which effects a fine
dispersion of uniform size.
• The shearing forces applied in the colloid mill usually raises
the temperature within the suspension. Hence, a coolant is
used to absorb the excess heat.
26. Equipments for suspension
Advantage
• (i) Very high shearing force can be generated.
• (ii) Very fine particles can be prepared.
• (iii) Particularly useful in preparing suspensions containing poorly wetted
solids.
• (iv) Useful for the preparation of relatively viscous emulsions.
Disadvantages:
• It has no wide applications in solids
• Wear of the rotating plates
• No fine grinding
• Consume energy
4. Homogenizers
• Impeller type of equipment frequently produce a satisfactory emulsion;
however, for further reduction in particle size, homogenizers may be
employed.
• Homogenizers may be used in one of two ways:
• i) The ingredients in the suspension are mixed and then passed through the
homogenizer to produce the final product.
• (ii) A coarse suspension is prepared in some other way and then passed
through a homogenizer for the purpose of decreasing the particle size and
obtaining a greater degree of uniformity and stability.
27. Equipments for suspension
• The coarse suspension (basic product) enters the valve seat at high
pressure (1000 to 5000 psi), flows through the region between the valve
and the seat at high velocity with a rapid pressure drop, causing
cavitation; subsequently the mixture hits the impact ring causing further
disruption and then is discharged as a homogenized product. It is
postulated that circulation and turbulence are responsible mainly for the
homogenization that takes place.
• Sometimes a single homogenization may produce an emulsion which,
although its particle size is small, has a tendency to clump of form clusters.
Emulsions of this type exhibit increased creaming tendencies. This is
corrected by passing the emulsion through the first stage of
homogenization at a high pressure (e.g. 3000 to 5000 psi) and then
through the second stage at a greatly reduced pressure (e.g. 1000 psi).
This breaks down any clusters formed in the first step (it is a two stage
homogenizer).
29. Equipment for suspension
Piston homogenizers:
• It is the most powerful device for producing emulsions and
suspensions
• It uses high power positive displacement piston type pump to
produce pressure of 3000-10,000 psig and then force the premixed
product through a specially designed restricting wall where a
extremely high shear forces are exerted
• Here turbulence and high shear are the major parameters in size
reduction
• It having continuous Capabilities of 2500L/hr at 15hp to 50,000L/hr
at 150hp.
• Limitations:
• They cannot handle the product feed above 200cps
• High maintenance cost and down time.
31. Equipment for suspension
• 5. Ultrasonic devices
• The preparation of emulsions by the use of ultrasonic vibrations also is
possible. An oscillator of high frequency (100 to 500 kHz) is connected to
two electrodes between which placed a piezoelectric quartz plate. The
quartz plate and electrodes are immersed in an oil bath and, when the
oscillator is operating, high-frequency waves flow through the fluid.
Emulsification is accomplished by simply immersing a tube containing the
emulsion ingredients into this oil bath.
• Advantages
• Can be used for low viscosity and extremely low particle size.
• Disadvantages
• Only in laboratory scale it is possible. Large scale production is not
possible
33. Equipment for suspension
Size Reduction Equipments:
Triple roll mill:
• Disperse small tightly bound agglomerates and hard
discrete particles.
• Particles are subjected to high shear, mechanical crushing.
Ball Mill:
• It is used for size reduction fine solid discrete particles or
for deagglomeration of very tightly bound agglomerates.
• The machine consists of cylindrical drum into which a
charge of heavy spherical balls usually metal or ceramic is
loaded along with the components of the dispersion.
34. Equipment for suspension
Triple Roll Mill
REFERENCE: Pharmaceutical engineering(principles & practices) by
C.V.S. Subrahmanyam.pg.no:155,161,229.
36. Stability Studies
1-Sedimentation Volume:
• Sedimentation volume (F) or height (H) for flocculated suspensions is a
ratio of the ultimate volume of sediment (Vu) to the original volume of
sediment (VO) before settling.
F = Vu / VO
• Where, Vu = final or ultimate volume of sediment VO = original volume of
suspension before settling
• F has values ranging from less than one to greater than one.
• When F < 1 then Vu <VO
• When F =1 then Vu = VO
• The system is in flocculated equilibrium and shows no clear supernatant
on standing.
• When F > 1 then Vu >VO
• Sediment volume is greater than the original volume due to the network
of flocs formed in the suspension and so loose and fluffy sediment
• The sedimentation volume gives only a qualitative account of flocculation.
38. Stability Studies
2-Degree of Flocculation (β):
• It is the ratio of the sedimentation volume of the flocculated suspension, F, to the
sedimentation volume of the deflocculated suspension, F∞
ß = F / F∞
• The minimum value of ß is 1,when flocculated suspension sedimentation volume is
equal to the sedimentation volume of deflocculated suspension.
3-Brownian Movement (Drunken walk):
Brownian movement of particle prevents sedimentation by keeping the dispersed
material in random motion.
• Brownian movement depends on the density of dispersed phase and the density
and viscosity of the disperse medium.
• The kinetic bombardment of the particles by the molecules of the suspending
medium will keep the particles suspending, provided that their size is below
critical radius (r).
Brownian movement can be observed,
If particle size is about 2 to 5mm,
When the density of particle & viscosity of medium are favorable.
• Brownian motion is given by equation:
𝐷𝑖2 = 𝑅𝑇𝑡 ÷ 𝑁3𝜋 η r
• Where, R = gas constant T = temp. in degree Kelvin N = Avogadro’s number η =
viscosity of medium t = time r = radius of the particle.
39. Stability Studies
4-Electro kinetic Properties:
Zeta Potential:
• The zeta potential is defined as the “difference in potential between the surface of
the tightly bound layer (shear plane) and electro-neutral region of the solution”.
• As the potential drops off rapidly at first, followed more gradual decrease as the
distance from the surface increases.
• This is because the counter ions close to the surface acts as a screen that reduce
the electrostatic attraction between the charged surface and those counter ions
further away from the surface.
• Zeta potential has practical application in stability of systems containing dispersed
particles.
• Since this potential, rather than the Nernst potential, governs the degree of
repulsion between the adjacent, similarly charged, dispersed particles.
• If the zeta potential is reduced below a certain value, the attractive forces exceed
the repulsive forces, and the particles come together.
• This phenomenon is known as flocculation.
• The flocculated suspension is one in which zeta potential of particle is -20 to +20
mV.
• Thus the phenomenon of flocculation and de flocculation depends on zeta
potential carried by particles.
41. Stability Studies
Deflocculation and flocculation:
• Flocculated Suspensions:
• In flocculated suspension, formed flocs (loose aggregates) will cause
increase in sedimentation rate due to increase in size of sedimenting
particles.
• Hence, flocculated suspensions sediment more rapidly.
• Here, the sedimentation depends not only on the size of the flocs but also
on the porosity of flocs.
• Deflocculated suspensions:
• In deflocculated suspension, individual particles are settling.
• Rate of sedimentation is slow, which prevents entrapping of liquid
medium which makes it difficult to re-disperse by agitation.
• This phenomenon called ‘caking’ or ‘claying’.
• In deflocculated suspension larger particles settle fast and smaller remain
in supernatant liquid so supernatant appears cloud.