Pharma eXtremes: May 17, 2012

TABLES

S.No Substance Colour &State Taste Solubility

1. Sodium acid phosphate Colour less crystals Saline Freely soluble in water

2. Sodium bicarbonate White Saline Freely soluble in H20

3. Sodium citrate Colourless crystals Saline Very soluble in boiling H2O

4. Magnesium sulphate Colourless Saline, Bitter Freely soluble in H2O

5. Sodium potassium tartarate Colour less Salty Freely soluble in H2O

crystals

6. Sodium sulphate (Na2So4) White crystalline Saline, Bitter Freely soluble in water

7. Magnesium chloride Colour less crystals Bitter Freely soluble in water

8. Ferrous sulphate Pale green or pale Astringent, Freely soluble in water,

bluish green metallic taste Very soluble in boiling water

9. Ferrous gluconate Yellowish grey Burnt sugar Freely soluble in water

10 Potassium iodide Colourless Slight bitter, Very soluble in water

salty

11. Aluminium sulphate White crystalline powder Slight sweet Freely soluble in water

12. Ammonium chloride Colour less Saline Freely soluble in water

13. Calamine Pink or reddish Taste less Insoluble in water, soluble

brown in mineral acids

14. Potassium permanganate Dark purple with Sweet and Soluble in water

metallic luster astringent

15. Silver nitrate Colourless crystals Bitter, metallic Highly soluble in water

16. Iodine Bluish black with -- Freely soluble in chloroform

metallic luster , Carbon tetra chloride, CS2.

17. Povidone iodine Yellowish brown -- Soluble in water

powder

18. Precipitated sulphur Pale greenish yellow Taste less Completely soluble in CS2

19. Sublimated sulphur Yellow colour -- Soluble only to the exact of

about 80% in CS2

20. Heavy kaolin Whitish or yellowish Earthy of clay Insoluble in water

white like

21. Light kaolin White Taste less Insoluble in water & mineral

acid

22. Aluminium hydroxide gel White Tasteless Soluble in dilute mineral

acids and in an excess of

caustic alkali solution

23. Barium sulphate White powder Tasteless Insoluble in water

24. Bentonite Pale buff colour Slightly earthy Insoluble in water but swells

in to a homogenous mass

25. Calcium gluconate White Taste less Freely soluble in boiling

water

26. Calcium hydroxide White powder Alkaline and Soluble in glycerin and in

slightly bitter aqueous solution of sugars

27. Calcium lactate White powder Slight or not Readily soluble in hot water

unpleasent

28. Dibasic calcium White powder Tasteless Insoluble in water, Soluble

phosphate in Dil.HCl, Dil.HNO3

29. Tribasic calcium phosphate White powder Tasteless Insoluble in water, Soluble

in Dil.HCl, Dil.HNO3

30 Ferrous fumarate Reddish orange to Slightly Slightly soluble in water

reddish brown powder astringent

31. Magnesium trisilicate White Tasteless Insoluble in water

32. Potassium bromide Colourless crystals Saline and Soluble in water and glycerin

slightly bitter

33. Potassium citrate White granular crystals Saline Very soluble in water

34. Potassium chloride Colourless crystals Saline Freely soluble in water

35. Sod. Benzoate White Saline, Freely soluble in water

36. Sodium chloride Colourless Saline Freely soluble in water

37. Sod hydroxide White sticks -- Freely soluble in water &

alcohol

38. Sodium lauryl sulphate White or pale yellow -- Soluble in water

crystals

39. Sodium meta bisulphite Colourless Acid and saline Freely soluble in water

40. Sodium phosphate Colourless -- Freely soluble in water

41. Sodium salicylate Colourless Sweetish, Freely soluble in water

Saline

42. Sodium thiosulphate Colourless crystals Saline Very soluble in water

43. Talc White Tasteless Insoluble in water

44. Titanium dioxide White Tasteless Insoluble in water, slowly

soluble in hot H2SO4

45. Zinc chloride White Tasteless Very soluble in water

46. Zinc oxide White or white Taste less Insoluble in water

yellowish powder

47. Zinc sterate White Tasteless Insoluble in water

48. Zinc sulphate Colourless Astringent Very soluble in water

49. Zinc undecylenate White or pale -- Insoluble in water

yellowish white

Table II

List of synonyms of inorganic medicinal compounds

S.No. INORGANIC COMPOUND SYNONYM

1. Potassium aluminium sulphate Alum

2. Ammoniated mercury Aminochloride of mercury

3. Aluminium oxide Corundum

4. Aromatic spirit of ammonia Spirit of Sal. volatile

5. Solid carbondioxide Dry ice

6. Antimony sodium tartarate Tartar emetic

7. Barium sulphate compound powder Barium meal, Shadow meal

8. Borax Sodium tetra borate

9. Calamine Prepared calamine

10. Calcium hydroxide Slaked lime

11. Copper sulphate Blue vitriol

12. Aqueous iodine solution Lugol’s solution

13. Aromatic Sulphuric acid Elixir of vitriol

14. Aluminumacetate solution Burrow’s solution

15. Bentonite Soap clay

16. Compound sod.chloride solution Ringer’s injection

17. Chlorinated lime Bleaching powder

18. Calcium carbonate Precipitated chalk

19. Calcium oxide Quick lime

20. Chlorinated lime & Boric acid sol. Eusol

21. Dried sodium phosphate Exsiccated slamber’s salt (or)

Exsiccated sodium sulphate

22. Dicalcium phosphate Dibasic calcium phosphate

23. Heavy kaolin China clay

24. Iron and ammonium citrate Ferric ammonium citrate

25. Lead acetate Sugar of lead

26. Magnesium sulphate Epsom salt

27. Magnesium hydroxide mixture Milk of magnesia

28. Mercury with chalk Grey Powder

29. Mercurous Chloride Calomel

30. Potassium iodide Kalli idodium

31. Nitrous oxide Laughing gas

32. Plaster of Paris Gypsum

33. Potassium acid tartarate Potassium hydrogen tartarate

34. Potassium nitrate Indian salt petre

35. Potassium hydroxide Caustic potash

36. Sodium bicarbonate Baking soda

37. Sodium chloride injection Normal saline solution for injection

38. Sodium hydroxide Caustic soda

39. Sodium nitrate Chile salt petre

40. Sodium potassium tartarate Rochelle salt

41. Sodium sulphate Glauber’s salt

42. Sodium thiosulphate Hypo

43. Sodium metaphosphate Madrell’s salt [Graham’s salt ]

44. Silver nitrate Luhar caustic

45. Weak solution of iodine Iodine tincture

46. Zinc sulphate White vitriol

47. Zinc oxide compound paste Zinc paste

48. Zinc gelatin Unna’s paste

49. Ferrous sulphate Green vitriol

Table III

S: No Inorganic medicinal Chemical formula Medicinal use

chemical compound

1. Alum KAl(SO4)2. 12H2O Astringent, Styptic(Stops bleeding)

2. Aluminium hydroxide Al(OH)3 Antacid

3. Ammoniated mercury NH2HgCl Local anti-infective

4. Ammonium chloride NH4Cl Expectorant, Diuretic & Systemic

Acidifier

5. Antimony potassium C4H4O7Sbk. ½ H2O Emetic orally and treatment of Kala-

tartarate azar by I.V

6. Barium sulphate BaSO4 Radio-opaque contrast media for the

x-ray examination of GIT

7. Borax Na2B4O7. 10H2O Antibacterial

8. Boric acid H3BO3 Local anti-infective

9. Calcium carbonate CaCO3 Non-systemic antacid

10. Calcium chloride CaCl2 Electrolyte replenisher

11. Calcium gluconate C12H22O14Ca.H2O Calcium replenisher

12. Chlorinated lime CaOCl2 Electrolyte replenisher

13. Dicalcium phosphate CaHPO4. 2H2O Source of calcium, phosphorus and

diluent in tablets.

14. Ferrous sulphate FeSo4. 7H2O Haematinic

15. Hydrogen peroxide H2O2 Oxidising agent

16. Light kaolin Al2O3.2SiO2. 2H2O Adsorbent (GIT infections)

17. Magnesium hydroxide Mg (OH)2 Antacid and laxative

18. Magnesium oxide MgO Antacid

19. Magnesium sulphate MgSo4. 7H2O Saline cathartic and sedative by I.V/ I.M

20. Magnesium trisilicate 2MgO. 3SiO2. XH2O Antacid

21 Mercurous chloride HgCl Cathartic

22. Nitrous oxide N2O General anaesthetic

23. Phosphoric acid H3PO4 Pharmaceutical aid

24. Plaster of Paris CaSO4. ½ H2O For making bandages, surgical aid.

25. Potassium chloride Kcl Electrolyte replenisher

26. Potassium citrate C6H5K3O7. H2O Systemic alkaliser

27. Potassium iodide KI Expectorant

28. Potassium permanganate KMno4 Antiseptic, oxidising agent

29. Selenium sulphide SeS2 Antidandruff

30. Silver nitrate AgNO3 Antibacterial

31. Sodium acetate CH3COONa. 3H2O Preparation of peritoneal dialysis fluid

32. Sodium benzoate C6H5COONa preservative

33. Sodium bicarbonate NaHCO3 Systemic antacid

34. Sodium carbonate Na2CO3 Pharmaceutical aid

35. Sodium chloride NaCl Electrolyte replenisher

36. Sodium dihydrogen

phosphate C6H5Na3O7. 2H2O Urinary acidifier

37. Sodium fluoride. NaF To prevent dental caries

38. Sodium hydroxide NaOH Pharmaceutical aid

39. Sodium metabisulphite Na2S2O5 Antioxidant

40. Sodium nitrite NaNO2 Antidote in cyanide poisoning

41. Sodium potassium tartarate C4H4KNaO6. 4H2O Saline cathartic

42. Sodium thiosulphate Na2S2O3. 5H2O Antidote in cyanide poisoning

43. Stannous fluoride SnF2 Prevention dental caries

44. Strontium chloride SrCl2 Desensitizing agent in tooth preparations.

45. Talc 3MgO.4SiO2.H2O Glidant in tablets, filter medium and

used in dusting powders.

46. Titanium dioxide TiO2 Topical protective, opacity agent

47. Yellow mercuric oxide HgO Local antibacterial

48. Zinc chloride ZnCl2 Pharmaceutical aid

49. Zinc oxide ZnO Mild astringent

50. Zinc sterate (C17H35COO)2 Zn Lubricant

51. Zinc sulphate ZnSo4.7H2O Astringent & Anti septic

Table-IV

Solubilities

Descriptive phase Volume of solvent dissolving in

part of solvent

Very soluble Less than one part

Freely soluble 1 to 10 parts

Soluble 10 to 30 parts

Sparingly soluble 30 to 100 parts

Slightly soluble 100 to 1000 parts

Very slightly soluble 1000 to 10,000 parts

Table V

Classification of solvents

S.No Solvent Definition Examples

1. Protophilic A solvent that is capable of accepting protons Acetone, Ether,

from the solute Liquid ammonia.

2. Protogenic A solvent that is capable of donating protons. Formic acid, Acetic acid,

Sulphuric acid, Hydrochloric

acid

3. Amphiprotic A solvent that is capable of donating as well Water, Alcohol

as accepting protons

4. Aprotic A solvent that neither accept nor donate Hydrocarbons

protons

Table VI

S.No Limit test Principles

1. Limit test for chlorides It is based on the formation of the opalescence due to inter

reaction of chlorides present in the substance with silver

nitrate in presence of nitric acid and it is compared with a

standard opalescence produced by definite amount of

chlorides (NaCl )

2. Limit test for sulphates It is based on the formation of turbidity due to interaction of

sulphates present in substance with barium chloride in

presence of hydrochloric acid, and it is compared with a

standard turbidity produced by definite amount of sulphates

(K2SO4)

3. Limit test for Iron It is based on the formation of purple colour due to the

interaction of thioglycollic acid with iron in the presence

of citric acid and in ammonical alkaline medium. It is

compared with standard purple colour produced by definite

amount of iron.

4. Limit test for Lead It is based on the violet colour produced in chloroform due

to the reaction between lead impurity and dithizone which

results in the formation of lead dithizonate. The intensity of

final violet colour produced in the chloroform medium is

compared with standard.

5. Limit test for Arsenic (Gutzeit Test) It is based on the formation of yellow stain on mercuric

chloride paper by arsine gas which is produced by

reduction of arsenic compound with zinc and HCl in the

presence of potassium iodide. The yellow stain is compared

with standard.

6. Limit test for heavy metals It is based on the reaction between Hydrogen sulphide and

(Lead, Antimony, Bismuth, Tin & Cobalt) heavy metals in an acidic medium to produce the metal

sulphides (Brown colour). It is compared with standard

containing definite quantity of lead nitrate.

Table VII

S.No Limit tests Reagent Use

1. Limit test for chlorides Nitric acid Prevent opalescence being caused due to

silver carbonates or CO2 or alkaline

impurities

2. Limit test for sulphates Barium sulphate reagent:

a) Barium chloride To produce turbidity

b) Potassium sulphate Increases sensitivity of the test by giving

ionic concentration in the reagents which

just exceeds the solubility of BaSo4

3. Limit test for iron i) Thioglycollic acid Strong reducing agent which reduces

ferric to ferrous and produce purple colour

ii) Citric acid Prevents precipitation of iron with

ammonia

4. Limit test for arsenic Potassium iodide Helps in the reduction of pentavalent

(Modified Gutziet Test) arsenic acid into trivalent arsenic acid

Granulated zinc Produces steady evaluation nascent

hydrogen

Stannous chloride Reducing agent

Table VIII Assays

S.No Chemical compound Method (titration) Principle (By titration with standard

solution)

1. Boric acid Acid-base Sodium hydroxide using phenolphthalein

as indicator. Glycerin is added to convert

boric acid into strong acid

2. Sodium bicarbonate Acid-base Standard solution of hydrochloric acid

using methyl orange solution as an

indicator

3. Ammonium chloride Acid-base Sodium hydroxide using phenolphthalein

as an indicator

4. Calcium gluconate Complexometric titration M/20 disodium edetate using mordant

black-II mixture as an indicator

5. Calcium lactate Complexometric titration M/20 disodium edetate using mordant

black-II mixture as an indicator

6. Magnesium sulphate Complexometric titration Disodium edetate using mordant black-II

mixture as an indicator

7. Zinc sulphate Complexometric titration Disodium edetate using Xylenol orange

as an indicator

8. Ferrous gluconate Oxidation-reduction Cerric ammonium sulphate using ferroin

sulphate solution as an indicator

9. Ferrous sulphate Oxidation-reduction Cerric ammonium sulphate using ferroin

sulphate solution as an indicator

10. Hydrogen peroxide Oxidation-reduction Potassium permanganate solution in

presence of sulphuric acid

11. Chlorinated lime Oxidation-reduction Sodium thiosulphate using starch

(Iodometry) mucilage as an indicator

12. Potassium permanganate Oxidation-reduction By using oxalic acid solution, which is

titrated with pot. permanganate solution

which is a self indicator.

13. Iodine Iodometry Sodium thiosulphate using starch

mucilage as an indicator

14. Copper sulphate Iodometry Sodium thiosulphate using starch

mucilage as an indicator

15. Sodium chloride Volhard’s method Ammonium thiocyanate using ferric

ammonium sulphate as an indicator.

16. Yellow mercuric oxide Thiocyanate method Ammonium thiocyanate using ferric alum

as an indicator

Table IX

S.No Method of titration Example of compounds assayed

1. Acid-alkali method Ammonium chloride

2. Complexo metric titration Calcium gluconate, Magnesium sulphate and zinc

sulphate

3. Non-aqueous titrations Sodium citrate, Potassium citrate and sodium acetate

4. Gravimetric method Barium sulphate, Magnesium trisilicate and disodium

auro-thiomalate

5. Precipitation titrations Silver nitrate, Sodium chloride and potassium chloride

6. Oxidation-Reduction method

a) Permanganometry Potassium permanganate and Hydrogen peroxide

b) Iodometry Iodine, Copper sulphate, Chlorinated lime and sodium

thiosulphate

c) Cerimetry Ferrous gluconate and ferrous sulphate

Table X Pharmaceutical analytical techniques

S.No Method Description Examples

1. Spectral method Based on the use of light absorbtion Visible spectroscopy,

(or) emission characteristics of drugs Ultraviolet spectroscopy

Flourimetry, Nephlometry,

Infra red spectro metry,

NMR spectro scopes,

ESR spectroscopy,

Mass spectroscopy

2. Chromatographic method Based on the use of affinity(or)partition Thin layer chromatography,

co-efficiant differences between drugs Paper chromatography, Gas chromatography,

Ion exchange chromatography,

Column chromatography,

High pressure liquid

chromatography

3. Electro analytical Based on the use of electro chemical Potentiometry,

techniques property of drugs. Conductometry,

Polarography, Amperometry,

Paper electrophoresis etc.

4. Biological and Based on the use of either animals(or) Biological assay of some Microbiological methods micro-organisms for analysis. Vitamins microbiological

assay of antibiotics and

vitamins.

5. Radioactive methods Based on the radio immuno assay and

related techniques.

6. Physical methods Based on the use of measure some Differential Thermal Analysis,

physical characteristics of drugs (DTA)

Differential Scanning

Calorimetry, (DSC)

Thermo Mechanical Analysis,

(TMA)

Thermo Gravimetric Analysis.
(TGA)

7. Miscellaneous Like conventional titrimetric methods,

techniques Polarimetric methods

Table XI Physical properties used for analysis

S.No Physical property measured Instrumental methods based on measurement of property

1. Absorbtion of radiation Spectrophotometry (X-ray, U.V, visible I.R) Calorimetry,

Atomic absorbtion, Nuclear magnetic resonance and

electron spin resonance spectroscopy.

2. Emission of radiation Emission spectroscopy (X-ray, U.V, visible) Flame photometry,

Fluorescence (X-ray, U.V, visible), Radio chemical methods

3. Scattering of radiation Turbidimetry, Nephelometry, Raman spectroscopy,

4. Refraction of radiation Refractometry, Interfero metry,

5. Diffraction of radiation X-ray, Electror defraction methods

6. Rotation of radiation Polarimetry, Optical rotatory dispersion and circular dichroism

7. Electrical potential Potentio metry, chrono potensiometry

8. Electrical conductance Conductivity

9. Electrical current Polargraphy, Amperometric titrations

10. Quantity of electricity Coulometry

11. Mass-to-charge ratio Mass spectrometry

12. Thermal properties Thermal conductivity and enthalpy methods

Table XII Hardness of water

S.No Type of water Due to the presence of Removal methods

1. Temporary hardness of Bicarbonates of calcium and 1. Boiling

water (Carbonate hardness) magnesium 2. Clarke’s process (milk of lime)

2. Permanent hardness of water Chlorides and sulphates of calcium and 1. Gan’s permutit process

(Non-carbonate hardness) magnesium (zeolytes)

2. Calgon process (sodium

hexameta phosphate)

3. Ion exchange method

PHARMACOPEIAS Editions of I.P

1. I.P= Indian Pharmacopeia First edition I.P= 1955

2. B.P=British Pharmacopeia Second edition of I.P=1966

3. B.P.C= British pharmaceutical codex Third edition of I.P=1985

4. N.F=National formulary Fourth edition of I.P=1996 (Latest edition)

5. U.S.P= United states Pharmacopeia

6. E.P=European Pharmacopeia

LIST OF PHARMACOPEIAS

1. Indian Pharmacopeia(I.P) 9. Pharmaceutical codex

2. British Pharmacopeia(B.P) 10. Merck index

3. British pharmaceutical codex(B.P.C) 11. British national formulary

4. National formulary(N.F) 12. United states national formulary

United states

Pharmacopeia(U.S.P) 13. United states Dispensatory

6. European Pharmacopeia(E.P) 14. Indian pharmaceutical codex

7. International Pharmacopoeia 15. Mrtindale extra Pharmacopoeia

8. Japanese Pharmacopoeia

Definitions:

Arhenious theory:

i) Acid: Generates [H+] ion in solution

ii) Base: Generates [OH-] ion in solution

Eq: Acid+Base Salt+ Water

Eg: HCl+NaOH NaCl +H2O

Bronsted-Lowery theory:

i) Acid: Any thing that donates a H+

(Proton donar)

ii) Base: Any thing that accepts a H+.

(Proton acceptor)

Eq: Acid+Base Acid+Base

Eg: HNO2+ H2O NO2+ H3O+

[Acid] [Base]

Lewis theory:

Acid: Accepts an electron pair.

Base: Donates an electron pair

Strong acids: These acids completely ionize in solution, so they are always represented in chemical equation in their ionised form.

Eg: H2So4, Hno3, HClo3, HCl, Hbr, HF

Strength of few acids in decreasing order:

HClo4>HBr>H2So4>HCl>HNo3

Weak acids: These acids partially ionize in solution so they are always represented in chemical equation in their ionized form.

Strong bases: These bases completely ionize in solution and are always represented in their ionized form in chemical equations.

Eg: NaOH, LiOH, KOH, RbOH, Ca(OH)2, Sr(OH)2

pH: It is defined as the negative logarithm of the concentration of hydrogen ion[H+] or [H3o+] in solution

pH=-log10 [H+] or log1/[H+]

· If hydrogen ion concentration is one molar the pH becomes “0”.

· If hydroxyl ion concentration is one molar the pH becomes 14.

· The pH 0-7 is acidic and 7-14 is basic

pH=-log [H3O+]

pH+poH= pKW (Where pKW=14)

pOH=pKW-pH

Henderson’s equation: The pH of an acid or base buffer solution can be calculated by the use of Henderson’s equation

pH=pKa+log [base/acid]

Buffer: Solution which resists any change in its pH value on dilution or on addition of small quantity of an acid or alkali.

Buffer action: The process by which added H⁺ and OH- ions are removed so that pH remains constant is known as buffer action.

Acidic buffer solution: It consist of weak acid and its salt with a strong base

Eg: CH3COOH+ CH3COONa

Basic buffer solution: It consists of a weak base and its salt with a strong acid

Eg: NH4OH+ NH4Cl

Buffer capacity Ø: The buffer capacity of a buffer solution is defined as the number of mole of a strong acid or a strong base required to change the pH of one litre of a buffer by one unit.

Buffer capacity (Ø) =

Number of moles of acid/ Base added to the one litre of the solution

Change in pH

Hard water: Which doesn’t stable lather

readily with soap solution is called hard water.

Soft water: Which gives stable lather readily with soap solution is called soft water.

Radio activity: The emission of alpha, beta or gamma particles due to nuclear decay is called radioactivity.

Bequerel(BQ): it is the unit for the rate of decay

BQ=1Decay/second

Isotopes: The nuclides of the same element having different mass number are called isotopes.

Their chemical properties are similar but differ in their physical and radio active properties

Radioactive isotopes: The isotopes which emit radiations are called radioactive isotopes.

Iso bars: The nuclides of different elements with the same mass numbers and different atomic numbers are called isobars.

Isobars will have different physical as well as chemical and radioactive properties.

Curie(Ci): It is the unit representing the rate of decay and is equal to 3.7X10¹⁰ disintegrations /sec

1Ci=3.7X10¹⁰ Bq

Rad: It is the unit of absorbed dose

1Rad=10^-2JKg ^-1

Roentgen(R): It is the unit of exposure

1R=2.58X10^-4CKg ^-1

Red Equivalent Man:(REM) It is the unit of dose equivalent

Dose in REM=Dose in Rads X Quality

factor X Distribution factor

Half life of Radio Pharmaceuticals

i) Physical half life (Tp): The amount of time

necessary for the radio active atoms to decay to one half their original number.

Biological half life (Tb): The amount of time required for the body to metabolize or eliminate one of the administered dose of any substance through biological process.

Effective half life (Te): The time required for an administered radiopharmaceutical dose to be reduced by one of due to both physical and biological decay mechanisms

Te=Tp+Tb / TpXTb

Where Te= Effective half life

Tp= Physical half life

Tb=Biological half life

Molarity(M): 1gm molecular weight of solute dissolves in 1000ml of solution.

Molality(m): 1gm molecular weight of solute dissolve in 1000gms of solution.

Normality(N): 1gm of equivalent weight of solute dissolves in 1000ml of solution.

Mole fraction(X): The ratio of the moles of one constituent of a solution to the total moles of all constituents.

Oxidation: Loss of electrons (gain in positive charge)

Reduction: Gain of electrons (gain in negative charge)

Cations: Positively charged ions, attracted to the negative electrode, cathode.

Anions: Negatively charged ions, attracted to the positive electrode, anode.

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