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P P R R E E F F O O R R M M U U L L A A T T I I O O N N C C O O N N S S I I D D E E R R A A T T I I O O N N S S M M d d . . I I m m r r a a n n N N u u r r M M a a n n i i k k L L e e c c t t u u r r e e r r D D e e p p a a r r t t m m e e n n t t o o f f P P h h a a r r m m a a c c y y P P r r i i m m e e a a s s i i a a U U n n i i v v e e r r s s i i t t y y

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Page 1: 2201 preformulation considerations manik

PPRREEFFOORRMMUULLAATTIIOONN

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MMdd.. IImmrraann NNuurr MMaanniikk LLeeccttuurreerr

DDeeppaarrttmmeenntt ooff PPhhaarrmmaaccyy PPrriimmeeaassiiaa UUnniivveerrssiittyy

Page 2: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 1

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Preformulation Considerations

Introduction

Preformulation is the branch of Pharmaceutical science that utilizes biopharmaceutical principles

in the determination of physicochemical properties of the drug substance.

Prior to the development of any dosage form new drug, it is essential that certain fundamental

physical & chemical properties of drug powder are determined.

This information may dictate many of subsequent event & approaches in formulation

development.

This first learning phase is called as preformulation.

Definition:- Preformulation Considerations is the investigation of physico-chemical properties of the new drug compound that could affect drug performance and development of an efficacious dosage form”.

Objective of the Preformulation Considerations

Objective of the Preformulation Considerations is

to provide and understand

(i) The degradation process,

(ii) Any adverse conditions relevant to the drug,

(iii) Bioavailability,

(iv) Pharmacokinetics and formulation of similar compound and

(v) Toxicity.

Usefulness of Preformulation Considerations

Preformulation influences aids in the

(a) Selection of the drug candidate itself,

(b) Selection of formulation components,

(c) API& drug product manufacturing processes,

(d) Determination of the most appropriate container closure system,

(e) Development of analytical methods,

(f) Assignment of API retest periods

(g) The synthetic route of the API,

(h) Toxicological strategy.

Md. Imran Nur Manik

Page 3: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 2

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Preliminary evaluation and molecular optimization

a) Compound identity.

b) Formula and molecular weight.

c) Structure.

d) Therapeutic indications:

- Probable human dose.

- Desired dosage form(s)

- Bioavailability model

- Competitive products

e) Potential hazards

Md. Imran Nur Manik

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Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 3

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

f) Initial bulk lots:

- Lot number

- Crystallization solvent(s)

- Particle size range

- Melting point

- % volatiles

g) Analytical methods:

- HPLC assay

- TLC assay

- UV/ Visible spectroscopy

Organoleptic Properties

COLOR ODOUR TASTE

Off-white Pungent Acidic

Cream-yellow Sulfurous Bitter

Shiny Fruity Sweet

Aromatic Tasteless

Odorless Tasteless

Factors determining the activity of drugs

A large number of factors play their roles in determining the activity of a drug. Thus successful

integration of these factors results in successful drug therapy.

These factors include

1. Physico-chemical characteristics of the drug

These includes

a) Solubility of the drug and its dissolution rate,

b) Particle size and effective surface area,

c) Plymorphism, Amorphism,Pseudopolymorphism

d) Salt form of the drug,

e) Lipophilicity of the drug,

f) Drug pKa & pH,

g) Drug Stability.

Md. Imran Nur Manik

Page 5: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 4

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

2. Physicochemical Characteristics of dosage form

It encompasses

a) Disintegration time,

b) Dissolution time,

c) Manufacturing variation,

d) Nature and Type of dosage form,

e) Product age and Storage condition

f) Pharmaceutical ingredients.

3. Characteristics of the biological system involved

Generally four types of biological factors are involved. They are as follows

I. Absorption Related Factors: Which includes

a) Route of drug administration,

b) Gastric Empting time,

c) Intestinal transit time,

d) Interaction of Drug with the components of GIT.

e) Protein binding

II. Dissolution Related Factors: This Includes

a) Lipid Solubility

b) Membrane permeability

c) Enterohepatic cycling

III. Biotransformation related factors: This Includes

a) Biologic half life

b) Pre-systemic Metabolism at luminal gut wall

c) Hepatic Tissue Protrusion

d) Genetic effect

IV. Excretion related factors: This Includes

a) Glomerular Filtration

b) Drug interaction

4. Other factors

There are some other types of factors which includes

I. Individual Factors: This Includes

a) Age

b) Sex

c) Body weight

d) Diet

e) Pregnancy

Md. Imran Nur Manik

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Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 5

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

II. Pharmacologic Factors: This Includes

a) Log dose Response

b) Drug receptor

c) Drug interaction

d) Drug Concentration

e) Drug binding competition

f) Synergism

III. Clinical effect: This Includes

a) Placebo Effect

b) Concurrent disease

c) Precision in diagnosis

Bulk characterization

Characterization of an unidentified chemical with major three parameters is called bulk characterization.

It is required to avoid misleading in the prediction of stability or solubility which depends on particular

crystal form.

It encompasses

1. Bulk Characterization

i. Crystallinity and polymorphism

ii. Hygroscopicity

iii. Fine particle characterization

iv. Bulk density

v. Powder flowproperties

2. Solubility analysis

i. Ionization constant- pKa

ii. pH Solubility profile

iii. Common ion effect

iv. Thermal effectS

v. Solubilization

vi. Partition co-efficient

vii. Dissolution

3. Stability analysis

i. Stability in toxicology formulations

ii. Solution state stability

pH rate profile

iii. Solid state Stability

Bulk stability

Compatibility

Md. Imran Nur Manik

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Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 6

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Powder Flow Properties

Powder flow properties can be affected by change in particle size, shape & density.

The flow properties depends upon following-

1. Force of friction.

2. Cohesion between one particle to another.

Fine particle possess poor flow by filling void spaces between larger

particles causing packing & densification of particles.

By using glidant we can alter the flow properties.

e.g. Starch, Talc.

Determination of Powder Flow Properties

1. Measurement of Angle of Repose.

It is a maximum angle between the surface of a pile of powder & horizontal plane.

A greater angle of repose indicate poor flow.

It should be less than 30°. & can be determined by following equation.

Angle of repose is measured by the equation:

tanθ=h /r

here, h=height of conical heap &

r=radius of horizontal plane of powder

Angle Of Repose ( In degree) Type Of Flow

<25 Excellent

25-30 Good

30-40 Passable

>40 Very poor

2. Measurement of free flowing powder by Compressibility.

Also known as Carr's index.

CARR’S INDEX (%) = (TAPPED DENSITY – POURED DENSITY) X 100

TAPPED DENSITY

Md. Imran Nur Manik

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Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 7

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

It is simple, fast & popular method of predicting powder flow characteristics.

Carr’s Index Type of flow

5-15 Excellent

12-16 Good

18-21 Fair To Passable

23-35 Poor

33-38 Very Poor

>40 Extremely Poor

Particle Size

Particle size can influence variety of important factors:

- Dissolution rate

- Suspendability

- Uniform distribution

- Penetrability

- Lack of grittiness

Particle Shape

Particle shape will influence the surface area, flow of particles, packing & compaction properties

of the particles.

Md. Imran Nur Manik

Page 9: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 8

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Plasma Level Time Curve

Plasma level time curve is a graph depicting drug concentration in plasma as a function of time

after dosing.

The plasma level time curve is generated by obtaining the drug concentration in plasma samples

taken at various time intervals after a drug product is administered.

General description: The concentration of drug in each plasma sample is plotted on rectangular-

coordinate graph paper against the corresponding time at which the plasma sample was removed. As the

drug reaches the general (systemic) circulation, plasma drug concentrations will rise up to a maximum.

Usually, absorption of a drug is more rapid than elimination. As the drug is being absorbed into the

systemic circulation, the drug is distributed to all the tissues in the body and is also simultaneously being

eliminated. Elimination of a drug can proceed by excretion, biotransformation, or a combination of

both.

Terminologies:

1. MSC (MTC): Maximum safe Concentration( Minimum Toxic Concentration) is the concentration

of drug in plasma above which side effect or toxic effect of drug occurs in patient.

2. MEC: Minimum Effective Concentration reflects the minimum concentration of drug needed at

the receptors to produce the desired pharmacologic effect.

Md. Imran Nur Manik

Page 10: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 9

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

3. Onset of Action: The onset of action corresponds to the time required for the drug to reach the

MEC.

4. Duration of drug action: The duration of drug action is the difference between the onset time and the time for the drug to decline back to the MEC.

5. Cmax: It is the maximum drug concentration in the plasma.

6. tmax: The time of peak plasma level is the time required to achieve the maximum drug concentration

in the plasma .

7. The intensity of Action: It is the measurement of the pharmacologic response of the drug.

Generally the higher the plasma drug concentrations the greater the pharmacologic response,

which reaches up to a maximum.

8. Duration of Drug Action: The duration of drug action is the difference between the onset time and the time for the drug to decline back to the MEC.

Ionization constant (pKa)

Dissociation (or ionization) constants and pKa

Many drugs are either weak acids or weak bases. In solutions of these drugs equilibria exist between undissociated molecules and their ions. Thus, in a solution of a weakly acidic drug HA the equilibrium may be represented by Eqn 1:

HA H++A- ……………………….(1)

Similarly, the protonation of a weakly basic drug B can be represented by Eqn 2:

--------------------------------------------------(2)

In solutions of most salts of strong acids or bases in water, such equilibria are shifted strongly to one side of the equation because these compounds are completely ionized. The ionization constant (or dissociation constant} Ka of a weak acid can be obtained by applying the Law of Mass Action to Eqn 1 to yield:

----------------------------------------------(3)

Taking logarithms of both sides of Eqn 3 yields:

log Ka = log [H+] + log [A-] - log [HA] The signs in this equation may be reversed to give:

-log Ka = -log [H+] - log [A-] + log [HA] -------------------------------------(4) The symbol pKa, is used to represent the negative logarithm of the acid dissociation constant Ka in the same way that pH is used to represent the negative logarithm of the hydrogen ion concentration, and Eqn 4 may therefore be rewritten as: pKa = pH + log [HA] - log [A-]

Md. Imran Nur Manik

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Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 10

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

or,

----------------------------------------------------------(5)

A general equation may be written that is applicable to any acidic drug with one ionizable group, where Cu and Ci represent the concentrations of the unionized and ionized species, respectively. This is known as the Henderson--Hasselbalch equation, (Eqn 6):

-----------------------------------------------------------------------(6)

The Henderson-Hasselbalch equation for any weak base with one ionizable group may therefore be written as:

Or

Where ci and cu refer to the concentrations of the protonated and unionized species, respectively.

Bulk Density

It is the ratio of total mass of the powder to the bulk volume of the powder. It is measured by pouring

the weighed powder into a measuring cylinder and the volume is noted.

It is expressed in gm/ml and is given by

ρB = M / VB

Where , M is the total mass of the powder

VB is the Bulk Volume of the powder

Bulk Volume is the volume of powder itself and volume of intra and inter particle spaces.

Crystallinity and polymorphism

Depending on internal structure compounds is classified as

1. Crystalline

2. Amorphous

Crystalline materials are those in which the molecules are packed in a defined order, and this same

order repeats over and over again throughout the particle.

Md. Imran Nur Manik

Page 12: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 11

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Crystalline compounds are characterized by repetitious spacing of constituent atom or molecule in three

dimensional arrays.

In amorphous form atom or molecule are randomly placed.

Solubility & dissolution rate are greater for amorphous form then crystalline, as amorphous form has

higher thermodynamic energy.

Eg. Amorphous form of Novobiocin is well absorbed whereas crystalline form results in poor

absorption.

Crystallinity

Crystal habit & internal structure of drug can affect bulk & physicochemical property of molecule.

Crystal habit is description of outer appearance of crystal.

Internal structure is molecular arrangement within the solid.

Change with internal structure usually alters crystal habit.

Eg. Conversion of sodium salt to its free acid form produce both change in internal structure & crystal

habit.

Different shapes of crystals

Md. Imran Nur Manik

Page 13: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 12

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Techniques for studies of crystals

Microscopy

Hot stage microscopy

Thermal analysis

X-ray diffraction

Polymorphism

It is the ability of the compound to crystallize as more than one distinct crystalline species with different

internal lattice.

Different crystalline forms are called polymorphs.

Polymorphs are of 2 types

1. Enatiotropic

2. Monotropic

The polymorph which can be changed from one form into another by varying temp. or pressure is called

as Enantiotropic polymorph. Eg. Sulfur.

One polymorph which is unstable at all temp. & pressure is called as Monotropic polymorph.

Which means that only one polymorphic form is stable and any other polymorph that is formed will

eventually convert to the stable form.

Eg. Glyceryl stearate.

Polymorph differ from each other with respect to their physical property such as

Solubility (the stable polymorphic form will have the slowest dissolution rate)

Melting point

Density

Hardness

Compression characteristic

During preformulation it is important to identify the polymorph that is stable at room temp.

Eg. 1)Chloromphenicol exist in A,B & C forms, of these B form is more stable & most

preferable.

2)Riboflavin has I,II & III forms, the III form shows 20 times more water solubility than

form I.

Md. Imran Nur Manik

Page 14: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 13

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Hygroscopicity

A substance that absorbs sufficient moisture from the atmosphere to dissolve itself is known as a

hygroscopic or deliquescent materials.

For this reason pharmaceutical air conditioning is usually set below 50% RH, and very hygroscopic

products, e.g. effervescents, which are particularly moisture sensitive, are stored and made below 40%

RH.

Solubility analysis

A solution may be denned as a homogeneous mixture of two or more components that form a single

phase .

The component that determines the phase of the solution is termed the solvent and usually constitutes

the largest proportion of the system. The dispersed as molecules or ions throughout the solvent are

termed solutes

The transfer of molecules or ions from a solid state into solution is known as dissolution. The extent

to which the dissolution proceeds under a given set of experimental conditions is referred to as the

solubilityof the solute in the solvent.

Aqueous solubility: Dictates the ease

with which formulations for oral gavage

and intravenous injection studies in

animals are obtained.

Intrinsic solubility (C0) : Dictates the

fundamental solubility when completely

unionized.

In many instances, dissolution rate in the

fluids at the absorption site is the rate

limiting step in the absorption process.

Dissolution rate can affect

o Onset of action.

o Intensity of action.

o Duration of

response.

o Control the overall Bioavailability of drug form.

Md. Imran Nur Manik

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Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 14

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

The solubility should ideally be measured at two temperatures:

1. 4°C to ensure physical stability and extend short-term storage and chemical stability until more

definitive data are available.

The maximum density of water occurs at 4°C.This leads to a minimum aqueous solubility.

2. 37°C to support biopharmaceutical evaluation.

General Method of Increasing the Solubility

Addition of co-solvent

pH change method

Reduction of particle size

Temperature change method

Hydotrophy

Addition of Surfactant

Dielectrical Constant

Complexation

DISSOLUTION

An equation known as the Noyes-Whitney equation was developed to define the dissolution from a

single spherical particle.

According to it ,the rate of mass transfer of solute molecules or ions through a static diffusion layer

(dm/dt) is directly proportional to the area available for molecular or ionic migration (A), the

concentration difference (∆C) across the boundary layer, and is inversely proportional to the thickness of

the boundary layer (h).

Solubilization

“ Solubilization is defined as the spontaneous passage of poorly water soluble solute molecules into an

aqueous solution of a soap or detergent in which a thermodynamically stable solution is formed ”.

It is the process by which apparent solubility of an otherwise sparingly soluble substance is increased by

the presence of surfactant micelles .

Md. Imran Nur Manik

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Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 15

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Process of Solubilization

The process of solubilization involves the breaking of inter-ionic or intermolecular bonds in the solute,

the separation of the molecules of the solvent to provide space in the solvent for the solute, interaction

between the solvent and the solute molecule or ion.

Step 1: Holes opens in the solvent

Step2: Molecules of the solid breaks away from the bulk

Step 3: The free solid molecule is intergraded into the hole in the solvent

Descriptive Solubilities

Description Parts of solvent required for one part of solute

Very soluble < 1

Freely soluble 1 - 10

Soluble 10 - 30

Sparingly soluble 30 - 100

Slightly soluble 100 - 1000

Very slightly soluble 1000 - 10,000

Insoluble > 10,000

Applications of solubilization

Aqueous concentrates of volatile oils can be prepared by solubilization.

Example: soaps used for solubilising phenolic compounds for use as disinfectants- Lysol,

Roxenol etc.

Barbiturates, anticoagulant, alkloidal drugs are dissolved with polysorbate by solubilization.

Md. Imran Nur Manik

Page 17: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 16

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Thermal Analysis

It is used to study the physico-chemical interactions of two or more components.

Differential thermal analysis (DTA):DTA measures the temperature difference between the sample

and a reference as a function of temperature or time when heating at a constant rate.

Differential scanning calorimetry (DSC): It measures the enthalpy of transition

Effect of temperature on the solubility of drug can be determined by measuring heat of solution.

(∆Hs).

ln S = -∆Hs/RT + C.

where, S = Molar solubility at temperature T (K).

R = Gas constant.

Heat of solution represents the heat released or absorbed when a mole of solute is dissolved in a large

quantity of solvent. Mostly solution process is endothermic (∆Hs = +ve) & thus increasing the solution

Temperature increase the drug solubility.

Typical temp. range should include 5°C, 25°C, 37°C & 50°C

Importance:

Determination of temperature effect on solubility helps in predicting storage condition & dosage form

designing

Partition Coefficient

Partition coefficient is generally defined as the fraction of drug in an oil phase to that of an adjacent

aqueous phase.

P o/w = (C oil / C water) equilibrium

Accordingly compounds with relatively high partition coefficient are predominantly lipid soluble and

consequently have very low aqueous solubility.

Compounds with very low partition coefficients will have difficulty in penetrating membranes resulting

poor bioavailability.

Measurement of partition coefficient:

It can be measured by using following methods.

Shake flask (or tube) method. HPLC method.

Electrochemical method. Slow-Stirring Method.

Estimation method based on individual solubilities.

Md. Imran Nur Manik

Page 18: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 17

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Common Ion Effect

The common-ion effect is a term used to describe the effect on a solution of two dissolved solutes that

contain the same ion.

The common-ion effect is used to describe the effect on an equilibrium involving a substance that adds

an ion that is a part of the equilibrium. Adding a common ion prevents the weak acid or weak base from

ionizing as much as it would without the added common ion.

A common ion often significantly reduces the solubility of a slightly soluble electrolyte.

For example, silver chloride, AgCl, is a slightly soluble salt that in solution dissociates into the ions

Ag+ and Cl - , the equilibrium state being represented by the equation AgClsolid ⇒Ag++Cl -

According to Le Châtelier's principle, when a stress is placed on a system in equilibrium, the system responds by tending to

reduce that stress. If another solute containing one of those ions, e.g., sodium chloride, NaCl, is added

which supplies Cl - ions, the solubility equilibrium of the solution will be shifted to remove more Cl -

from the solution i.e. right to left by forming more solid AgCl. The net result is the decrease in the

solubility of AgCl.

Addition of common ion reduces the solubility of slightly soluble electrolyte.

{The “salting out” results from the removal of water molecules as solvent due to the competing hydration of other

ions.So weakly basic drug which are given as HCl salts have decreased solubility in acidic solution.

E.g. Chlortetracycline, Papaverine, Bromhexine, Triamterene, etc.

The reverse process “salting in” arises with larger anions. (E.g. Benzoate, salicylate) which can open the water

structure. These hydrotropes increase the solubility of poorly water soluble compounds}

Stability Analysis

Why Stability?

To provide a evidence on how the quality of a drug substance or drug product varies with time

under the influence of a variety of environmental factors such as….. temperature, Humidity and

light.

To establish a re-test period for the drug substance or a shelf life for the drug product and

recommended storage conditions.

To evaluate the physical, chemical or microbiological changes might impact the efficiency and

security of the final product

Where and Why?

Stability Studies are preformed on ...

• Drug Substances (DS) The unformulated drug substance that may subsequently be

formulated with excipients to produce the dosage form.

Md. Imran Nur Manik

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Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 18

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

• Drug Products (DP) The dosage form in the final immediate packaging intended for

marketing…….

Development of a drug substance into a suitable dosage form requires the

Preformulation stability studies of drug under the following categories:-

[1] Solid state stability.

[2] Solution state stability

1] Solid state stability

• Solid state reactions are much slower & more difficult to interpret than solution state reactions

because of reduced no. of molecular contacts between drug & excipient molecules & occurrence

of multiple reactions.

Techniques for solid state stability studies:

Solid State NMR Spectroscopy. (SSNMR)

Powder X-ray diffraction. (PXRD)

Fourier Transform IR. (FTIR)

Raman Spectroscopy.

Differential Scanning Calorimetry (DSC).

[2] Solution State Stability

• The primary objective is identification of conditions necessary to form a solution.

• These studies include the effects of

- pH - Temperature.

- Light - Oxygen.

- Co solvents - Ionic Strength.

- Solution Stability investigations usually commence with probing experiments to confirm decay at

the extremes of pH & temperature.

- If the results of this solution stability studies dictate the compound as sufficiently stable, liquid

formulation can be developed.

What are the changes?

Physical changes

• Appearance

Md. Imran Nur Manik

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Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 19

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

• Melting point

• Clarity and color of solution

• Moisture

• Crystal modification (Polymorphism)

• Particle size

Chemical changes

• Increase in Degradation

• Decrease of Assay

Microbial changes

Forced degradation studies

Acidic & Basic conditions. Dry heat exposure UV radiation exposure Influence of pH Influence of temperature Influence of ionic strength

Chemical degradation studies

Hydrolysis Oxidation Reduction Decarboxylation Photolysis

Testing scope for Solid dosageTablet & Capsule

Physical-chemical properties

o Appearance o Elasticity o Mean mass o Moisture o Hardness o Disintegration o Dissolution

Chemical properties

o Assay o Degradation

Microbial properties

Md. Imran Nur Manik

Page 21: 2201 preformulation considerations manik

Preformulation Considerations

Prepared By: Md. Imran Nur Manik; M.Pharm. (R.U.) Page 20

[email protected]; Lecturer; Department of Pharmacy; Primeasia University.

Container closure system properties

o Functionality tests (e.g. extraction from blister)

Testing scope for Oral liquid form

Physical-chemical properties

o pH o Color & clarity of solution o Viscosity o Particle size distribution (for oral suspensions only)

Chemical properties

o Assay o Degradation products o Degradation preservatives o Content antioxidants

Microbial properties

Container closure system properties

o Functionality tests

Testing scope for liquid forms for inj. and Parentral

Physical-chemical properties

o pH o Loss on weight o Color & clarity of solution

Chemical properties

o Assay o Degradation products o Degradation preservatives o Content antioxidants

Microbial properties

Container closure system properties

o Functionality tests

Md. Imran Nur Manik