Introduction to Physical pharmacy
Matter, Properties of Matter:
State of matter, change in the state of matter, latent heats and vapor
pressure, sublimation-critical point, Eutectic mixtures, gases,
aerosols-inhalers, relative humidity, liquid. complexes, liquid crystals, glassy
state, solids- crystalline, amorphous and polymorphism.
Micromeretics and Powder Rheology:
Particle size and distribution, average particle size, number and weight
distribution, particle number, methods for determining particle volume, methods
of determining particle size- optical microscopy, sieving, sedimentation;
measurements of particle shape, specific surface area; methods for determining
surface area; permeability, adsorption, derived properties of powders,
porosity, packing arrangement, densities, bulkiness & flow properties.
Surface and Interfacial Phenomenon:
Liquid interface, surface and interfacial tensions, surface free energy,
measurement of surface and interfacial tensions, spreading coefficient,
adsorption at liquid interfaces, surface active agents, HLB classification,
solubilization, detergency, adsorption at solid interfaces, solid-gas and
solid-liquid interfaces, complex films, electrical properties of interface.
Viscosity and Rheology:
Newtonian systems, Law of flow, kinematic viscosity, effect of temperature;
non-Newtonian systems: pseudoplastic, dilatant, plastic; thixotropy, thixotropy
in formulation, negative thixotropy, determination of viscosity, capillary,
falling ball, rotational viscometers.
Colloidal dispersions: Definition, types, properties of colloids, protective
colloids, applications of colloids in pharmacy; Suspensions and Emulsions:
Interfacial properties of suspended particles, settling in suspensions, theory
of sedimentation, effect of Brownian motion, sedimentation of flocculated
particles, sedimentation parameters, wetting of particles, controlled
flocculation, flocculation in structured vehicles, rheological considerations;
Emulsions-types, theories, physical stability.
Classification of complexes, methods of preparation and analysis, applications.
Kinetics and Drug Stability:
General considerations & concepts, half-life determination, Influence of
temperature, light, solvent, catalytic species and other factors, Accelerated
stability study, expiration dating.
Importance of microbiology in pharmacy
Structure of bacterial cell; Classification of microbes and their taxonomy:
Actinomycetes, bacteria, rickettsiae, spirochetes and viruses;
Identification of Microbes:
Stains and types of staining techniques, electron microscopy; Nutrition,
cultivation, isolation of bacteria, actinomycetes, fungi, viruses, etc;
Microbial genetics and variation;
Control of microbes by physical and chemical methods:
Disinfection, factors influencing disinfectants, dynamics of disinfection,
disinfectants and antiseptics and their evaluation;
different methods, validation of sterilization methods & equipments;
Sterility testing of all pharmaceutical products. Microbial assays of
antibiotics, vitamins & amino acids.
Immunology and Immunological Preparations:
Principles, antigens and heptans, immune system, cellular/humoral immunity,
immunological tolerance, antigen-antibody reactions and their applications.
Hypersensitivity, active and passive immunization. Vaccines and sera: their
preparation, standardization and storage.
Transformation, conjugation, transduction, protoplast fusion and gene cloning
and their applications. Development of hybridoma for monoclonal antibodies.
Study of drugs produced by biotechnology such as Activase, Humulin, Humatrope,
Historical development of antibiotics. Antimicrobial spectrum and methods used
for their standardization. Screening of soil for organisms producing
antibiotics, fermenter, its design, control of different parameters. Isolation
of mutants, factors influencing rate of mutation. Design of fermentation
process. Isolation of fermentation products with special reference to
penicillins, streptomycins tetracyclines and vitamin B12.
Introduction to pharmaceutical jurisprudence & ethics
A brief review; Drugs & Pharmaceutical Industry - A brief review;
Pharmaceutical Education - A brief review;
An elaborate study of the followings:
Pharmaceutical Ethics; Pharmacy Act 1948; Drugs and Cosmetics Act 1940 and
Rules 1945; Medicinal & Toilet Preparations (Excise Duties) Act 1955;
Narcotic Drugs & Psychotropic Substances Act 1985 & Rules; Drugs Price
A brief study of the following Acts with special reference to the main
provisions and the latest amendments:
Poisons Act 1919; Drugs and Magic Remedies (Objectionable Advertisements) Act
1954; Medical Termination of Pregnancy Act 1970 & Rules 1975; Prevention of
Cruelty to Animals Act 1960; States Shops & Establishments Act & Rules;
Insecticides Act 1968; AICTE Act 1987; Factories Act 1948; Minimum Wages Act
1948; Patents Act 1970.
A brief study of the various Prescription/Non-prescription Products.
Medical/Surgical accessories, diagnostic aids, appliances available in the
Introduction to dispensing and community pharmacy
Handling of prescription, source of errors in prescription, care required in
dispensing procedures including labeling of dispensed products. General
dispensing procedures including labeling of dispensed products; Pharmaceutical
calculations: Posology, calculation of doses for infants, adults and elderly
patients; Enlarging and reducing recipes percentage solutions, alligation,
alcohol dilution, proof spirit, isotonic solutions, displacement value etc;
Principles involved and procedures adopted in dispensing of :
Typical prescriptions like mixtures, solutions, emulsions, creams, ointments,
powders, capsules, pastes, jellies, suppositories, ophthalmic, pastilles,
lozenges, pills, lotions, liniments, inhalations, paints sprays tablet
Physical and chemical incompatibilities, inorganic incompatibilities including
incompatibilities of metals and their salts, non-metals, acids, alkalis,
organic incompatibilities. Purine bases, alkaloids, pyrazolone derivatives,
amino acids, quaternary ammonium compounds, carbohydrates, glycosides,
anesthetics, dyes, surface active agents, correction of incompatibilities.
Organization and structure of retail and whole sale drug store-types of drug
store and design, legal requirements for establishment, maintenance and drug
store-dispensing of proprietary products, maintenance of records of retail and
wholesale, patient counseling, role of pharmacist in community health care and
education (First aid, communicable diseases, nutrition, family planning).
Organization and Structure of hospital pharmacy:
Organization of a hospital and hospital pharmacy, Responsibilities of a
hospital pharmacist, Pharmacy and therapeutic committee, Budget preparation and
Contents, preparation and revision of hospital formulary.
Drug Store Management and Inventory Control:
Organization of drug store, Types of materials stocked, storage conditions;
Purchase and Inventory Control principles, purchase procedures, Purchase order,
Procurement and stocking;
Drug distribution Systems in Hospitals:
Out-patient dispensing, methods adopted; Dispensing of drugs to in-patients.
Types of drug distribution systems. Charging policy, labeling; Dispensing of
drugs to ambulatory patients; Dispensing of controlled drugs, Dispensing of
Central Sterile Supply Unit and their Management:
Types of materials for sterilization, Packing of materials prior to
sterilization, sterilization equipments, Supply of sterile materials.
Manufacture of Sterile and Non-sterile Products:
Policy making of manufacturable items, demand and costing, personnel
requirements, manufacturing practice, Master formula Card, production control,
Drug Information Services:
Sources' of Information on drugs, disease, treatment schedules, procurement of
information, Computerized services (e.g., MEDLINE), Retrieval of information,
Medication error- types of medication errors, correction and reporting.
Records and Reports:
Prescription filling, drug profile, patient medication profile, cases on drug
interaction and adverse reactions, idiosyncratic cases. Pharmacoeconomics:
Introduction to pharmacoeconomics, different methods of pharmacoeconomics,
application of pharmacoeconomics. Pharmacoepidemiology: Definition and scope,
method to conduct pharmacoepidemiological studies, advantages &
disadvantages of pharmacoepidemiological studies.
Methods of handling radioisotopes, radioisotope committee.
Importance of unit operations in manufacturing, Stoichiometry:
Material and energy balances, molecular units, mole fraction, tie substance,
gas laws, mole volume, primary and secondary quantities, equilibrium state,
rate process, steady and unsteady states, dimensionless equations,
dimensionless formulae, dimensionless groups, different types of graphic
representation, mathematical problems.
Types of flow, Reynold's number, Viscosity, Concept of boundary layer, basic
equations of fluid flow, valves, flow meters, manometers and measurement of
flow and pressure.
Concept of heat flow, applications of Fourier’s law, forced and natural
convection, surface coefficients, boiling liquids, condensing vapors, heat
exchangers, heat interchangers, radiation, black body, Stefan Boltzmann
equation, Kirchoff’s law.
Basic concept of phase equilibria, factor affecting evaporation, evaporators,
film evaporators, single effect and multiple effect evaporators, Mathematical
problems on evaporation.
Roult's law, phase diagrams, volatility; simple steam and flash distillations,
principles of rectification, Mc-Cabe Thiele method for calculations of number
of theoretical plates, Azeotropic and extractive distillation.
Moisture content and mechanism of drying, rate of drying and time of drying
calculations; classification and types of dryers, dryers used in pharmaceutical
industries and special drying methods.
Definition, objectives of size reduction, mechanisms of size reduction, factors
affecting size reduction, laws governing energy and power requirements of a
mills including ball mill, hammer mill, fluid energy mill. Size separation:
Different techniques of size separation, sieves, sieve shakers, sedimentation
tank, cyclone separators, bag fillers etc.
Theory of mixing, solid-solid, solid-liquid and liquid-liquid mixing
Filtration and Centrifugation:
Theory of filtration, continuous and batch filters, filter aids, filter media,
industrial filters including filter press, rotary filter, edge filter, etc.
Factors affecting filtration, filtration, optimum cleaning cycle in batch
filters. Principles of centrifugation, industrial centrifugal filters, and
Characteristics of crystals like-purity, size, shape, geometry, habit, forms
size and factors affecting them, Solubility curves and calculation of yields.
Material and heat balances around Swenson Walker Crystallizer. Supersaturation,
theory and its limitations, Nucleation mechanisms, crystal growth. Study of
various types of Crystallizers, tanks, agitated batch, Swenson Walker, Single
vacuum, circulating magma and Krystal Crystallizer, Caking of crystals and its
prevention. Numerical problems on yields;
Dehumidification and Humidity Control:
Basic concepts and definition, wet bulb and adiabatic saturation temperatures,
Hygrometric chart and measurement of humidity, application of humidity
measurement in pharmacy, equipments for dehumidificat4ion operations;
Refrigeration and Air Conditioning:
Principle and applications of refrigeration and air conditioning;
Material of Construction :
General study of composition, corrosion, resistance, Properties and
applications of the materials of construction with special reference to
stainless steel and glass.
Material Handling Systems:
Liquid handling - Different types of pumps, Gas handling-Various types of fans,
blowers and compressors, Solid handling-Bins, Bunkers, Conveyers, Air
Classification, mechanism of corrosion, factors affecting, prevention and
Layout, utilities and services.
Industrial Hazards and Safety Precautions:
Mechanical, Chemical, Electrical, fire and dust hazards. Industrial dermatitis,
Accident records etc.
Automated Process Control Systems:
Process variables, temperature, pressure, flow, level and vacuum and their
measurements; elements of automatic process control and introduction to
automatic process control systems; elements of computer aided manufacturing
(CAM). Reactors and fundamentals of reactors design for chemical reactions.
Dosages Forms, designing & evaluation
Liquid Dosages Forms:
Introduction, types of additives used in formulations, vehicles, stabilizers,
preservatives, suspending agents, emulsifying agents, solubilizers, colors,
flavors and others, manufacturing packaging, labeling, evaluation of clear
liquids, suspensions and emulsions official in pharmacopoeia;
Semisolid Dosage Forms:
Definitions, types, mechanisms of drug penetration, factors influencing
penetration, semisolid bases and their selection. General formulation of
semisolids, clear gels manufacturing procedure, evaluation and packaging;
Ideal requirements, bases, displacement value, manufacturing procedure,
packaging and evaluation;
Extraction and Galenical Products:
Principle and method of extraction, preparation of infusion, tinctures, dry and
soft liquid extracts;
Blood Products and Plasma Substitutes:
Collection, processing and storage of whole human blood, concentrated human
RBCs, dried human plasma, human fibrinogen, human thrombin, human normal
immunoglobulin, human fibrin, foam plasma substitutes, -ideal requirements,
PVP, dextran etc. for control of blood pressure as per I.P.;
Definition, propellants, general formulation, manufacturing' and packaging
methods, pharmaceutical applications;
Requirements, formulation, methods of preparation, labeling, containers,
Cosmeticology and Cosmetic Preparations:
Fundamentals of cosmetic science, structure and functions of skin and hair.
Formulation, preparation and packaging of cosmetics for skin, hair, dentifrice
and manicure preparations like nail polish, nail polish remover, Lipsticks, eye
lashes, baby care products etc.
Advantages and disadvantages of capsule dosage form, material for production of
hard gelatin capsules, size of capsules, formulation, method of capsule
filling, soft gelatin, capsule shell and capsule content, importance of base
absorption and minimum/gm factors in soft capsules, quality control, stability
testing and storage of capsule dosage forms.
Types of microcapsules, importance of microencapsulation in pharmacy,
microencapsulation by phase separation, coacervation, multi-orifice, spray
drying, spray congealing, polymerization complex emulsion, air suspension
technique, coating pan and other techniques, evaluation of micro capsules.
Advantages and disadvantages of tablets, Application of different types of
tablets, Formulation of different types of tablets, granulation, technology on
large-scale by various techniques, different types of tablet compression
machinery and the equipments employed, evaluation of tablets. Coating of
Tablets: Types of coating, film forming materials, formulation of coating
solution, equipments for coating, coating process, evaluation of coated
tablets. Stability kinetics and quality assurance.
Pre-formulation factors, routes of administration, water for injection, and
sterile water for injection, pyrogenicity, non aqueous vehicles, isotonicity
and methods of its adjustment, Formulation details, Containers and closures and
selection, labeling; Pre-filling treatment, washing of containers and closures,
preparation of solution and suspensions, filling and closing of ampoules,
vials, infusion fluids, lyophilization & preparation of sterile powders,
equipment for large scale manufacture and evaluation of parenteral products;
Aseptic Techniques-source of contamination and methods of prevention, Design of
aseptic area, Laminar flow bench services and maintenance. Sterility testing of
Definition, primary wound dressing, absorbents, surgical cotton, surgical
gauzes etc., bandages, adhesive tape, protective cellulosic hemostastics,
official dressings, absorbable and non-absorbable sutures, ligatures and
Packaging of Pharmaceutical Products:
Packaging components, types, specifications and methods of evaluation,
stability aspects of packaging. Packaging equipments, factors influence choice
of containers, legal and official requirements for containers, package testing.
Designing of dosage forms:
Pre-formulation studies, Study of physical properties of drug like physical
form, particle size, shape, density, wetting, dielectric constant. Solubility,
dissolution and organoleptic properties and their effect on formulation,
stability and bioavailability. Study of chemical properties of drugs like
hydrolysis, oxidation, reduction, racemization, polymerization etc., and their
influence on formulation and stability of products. Study of pro-drugs in
solving problems related to stability, bioavailability and elegancy of
formulations. Design, development and process validation methods for
pharmaceutical operations involved in the production of pharmaceutical products
with special reference to tablets, suspensions. Stabilization and stability
testing protocol for various pharmaceutical products. ICH Guidelines for
stability testing of formulations.
Performance evaluation methods:
In-vitro dissolution studies for solid dosage forms methods, interpretation of
dissolution data. Bioavailability studies and bioavailability testing protocol
and procedures. In vivo methods of evaluation and statistical treatment. GMP
and quality assurance, Quality audit. Design, development, production and
evaluation of controlled/sustained/extended release formulations.
Biopharmaceutics & Pharmacokinetcs
Introductiont to biopharmaceutics:
Passage of drugs across biological barrier (passive diffusion, active
transport, facilitated diffusion, ion-pair formation and pinocytosis); Factors
influencing absorption- biological, physico-chemical, physiological and
pharmaceutical; Drug distribution in the body, plasma protein binding.
Significance of plasma drug concentration measurement. Compartment model-
Definition and Scope. Pharmacokinetics of drug absorption - Zero order and
first order absorption rate constant using Wagner-Nelson and residual methods.
Volume of distribution and distribution coefficient. Compartment kinetics- One
compartment and two compartment models. Determination of pharmacokinetic
parameters from plasma and urine data after drug administration by
intravascular and oral route. Clearance concept, mechanism of renal clearance,
clearance ratio, determination of renal clearance. Extraction ratio, hepatic
clearance, biliary excretion, extra-hepatic circulation. Non-linear
pharmacokinetics with special reference to one compartment model after I.V.
Definition and scope: Dosage adjustment in patients with and without renal and
hepatic failure; Design of single dose bio-equivalence study and relevant
statistics; Pharmacokinetic drug interactions and their significance in
Bioavailability and bioequivalence:
Measures of bioavailability, Cmax, tmax, Keli and Area Under the Curve (AUC);
Design of single dose bioequivalence study and relevant statistics; Review of
regulatory requirements for conducting bioequivalent studies. Biopharmaceutical
Classification System (BCS) of drugs.
Inorganic pharmaceutical & medicinal chemistry
Importance of inorganic compounds in pharmacy and medicine;
An outline of methods of preparation, uses, sources of impurities, tests for
purity and identity, including limit tests for iron, arsenic, lead, heavy
metals, chloride, sulphate and special tests if any, of the following classes
of inorganic pharmaceuticals included in Indian Pharmacopoeia:
Acidifying agents, Antacids, Protectives and Adsorbents, Cathartics;
Major Intra- and Extra-cellular Electrolytes:
Physiological ions. Electrolytes used for replacement therapy, acid-base
balance and combination therapy;
Essential and Trace Elements:
Transition elements and their compounds of pharmaceutical importance, Iron and
haematinics, mineral supplements; Cationic and anionic components of inorganic
drugs useful for systemic effects;
Protectives, Astringents and Anti-infectives;
Gases and Vapors:
Oxygen, Anesthetics (inorganic) and Respiratory stimulants;
Dentifrices, Anti-caries agents; Complexing and chelating agents used in
Sclerosing agents, Expectorants, Emetics, Inorganic poisons and antidotes.
Pharmaceutical Aids Used in Pharmaceutical Industry:
Anti-oxidants, Preservatives, Filter aids, Adsorbents, Diluents, Excipients,
Suspending agents, Colorants;
Acids, Bases and Buffers:
Buffer equations and buffer capacity in general, buffers in pharmaceutical
systems, preparation, stability, buffered isotonic solutions, measurements of
tonicity, calculations and methods of adjusting isotonicity. Water;
Nuclear reaction, radioisotopes, radiopharmaceuticals, Nomenclature, Methods of
obtaining their standards and units of activity, half-life, measurement of
activity, clinical applications, dosage, hazards and precautions.
Physical Chemistry and its importance in pharmacy
Importance of basic fundamentals of physical chemistry in pharmacy:
Behaviour of Gases, Kinetic theory of gases, deviation from ideal behavior and
The Liquid State:
Physical properties (surface tension, parachor, viscosity, refractive index,
Ideal and real solutions, solutions of gases in liquids, colligative
properties, partition coefficient, conductance and its measurement, Debye Huckel
First, Second and Third laws, Zeroth law, Concept of free energy, enthalpy and
entropy, absolute temperature scale;
Thermochemical equations; Phase rule; Adsorption:
Freudlich and Gibbs adsorption, isotherms, Langmuir’s theory of adsorption;
Consequences of light absorption, Jabolenski diagram, Quantum efficiency;
Zero, First and Second order reactions, complex reactions, theories of reaction
kinetics, characteristics of homogeneous and heterogeneous catalysis, acid base
and enzyme catalysis;
Quantum Mechanics :
Postulates of quantum mechanics, operators in quantum mechanics, the
Schrodinger wave equation.
Organic Chemistry and its importance in pharmacy
Importance of fundamentals of organic chemistry in pharmaceutical sciences;
Structure and Properties:
Atomic structure, Atomic orbitals, Molecular orbital theory, wave equation,
Molecular orbitals, Bonding and Anti-bonding orbitals, Covalent bond, Hybrid
orbitals, Intramolecular forces, Bond dissociation energy, Polarity of bonds,
Polarity of molecules, Structure and physical properties, Intermolecular
forces, Acids and bases;
Nomenclature, isomerism, stereoisomerism, conformational and configurational
isomerism, optical activity, specification of configuration, Reactions
involving stereoisomers, chirality, conformations;
Stereoselective and stereospecific reactions; Structure, Nomenclature,
Preparation and Reactions of:
Alkanes, Alkenes, Alkynes, Cyclic analogs, Dienes, Benzene, Polynuclear
aromatic compounds, Arenes, Alkyl halides, Alcohols, Ethers, Epoxides, Amines,
Phenols, Aldehydes and ketones, Carboxylic acids, Functional derivatives of'
carboxylic acids, a,ß-Unsaturated carbonyl compounds, Reactive intermediates-
carbocations, carbanions, carbenes and nitrenes;
Nucleophilic and Electrophilic Aromatic Substitution Reactions:
Reactivity and orientation;
Electrophilic and Nucleophilic Addition Reactions; Rearrangements
(Beckman, Hoffman, Benzilic acid, pinacole-pinacolone and Beyer-Villiger);
Elimination reactions; Conservation of Orbital Symmetry and Rules:
Electrocyclic, Cycloaddition and Sigmatropic reactions;
Neighboring group effects; Catalysis by transition metal complexes;
Nomenclature, preparation, properties and reactions of 3, 4, 5, 6 &
7-membered heterocycles with one or two heteroatoms like 0, N, S. Chemistry of
lipids, Carbohydrates and Proteins.
Biochemistry in pharmaceutical sciences:
The concept of free energy, Determination of change in free energy - from
equilibrium constant and reduction potential, bioenergetics, production of ATP
and its biological significance;
Nomenclature, enzyme kinetics and their mechanism of action, mechanism of
inhibition, enzymes and iso-enzymes in clinical diagnosis;
Vitamins as co-enzymes and their significance. Metals as cofactors and their
significance; Carbohydrate Metabolism: Conversion of polysaccharides to
glucose-1-phosphate, Glycolysis, fermentation and their regulation,
Gluconeogenesis and glycogenolysis, Metabolism of galactose and galactosemia,
Role of sugar nucleotides in biosynthesis, and Pentose phosphate pathway;
The Citric Acid Cycle:
Significance, reactions and energetics of the cycle, Amphibolic role of the
cycle, and Glyoxalic acid cycle;
Lipids Metabolism :
Oxidation of fatty acids, ß-oxidation & energetics, biosynthesis of ketone
bodies and their utilization, biosynthesis of saturated and unsaturated fatty
acids, Control of lipid metabolism, Essential fatty acids & eicosanoids
(prostaglandins, thromboxanes and leukotrienes), phospholipids, and
sphingolipids, Biosynthesis of eicosanoids, cholesterol, androgens,
progesterone, estrogens corticosteroids and bile acids;
Redox-potential, enzymes and co-enzymes involved in oxidation reduction &
its control, The respiratory chain, its role in energy capture and its control,
energetics of oxidative phosphorylation. Inhibitors of respiratory chain and
oxidative phosphorylation, Mechanism of oxidative phosphorylation;
Metabolism of ammonia and nitrogen containing monomers:
Nitrogen balance, Biosynthesis of amino acids, Catabolism of amino acids,
Conversion of amino acids to specialized products, Assimilation of ammonia,
Urea. cycle, metabolic disorders of urea cycle, Metabolism of sulphur
containing amino acids;
Purine nucleotide inter-conversions;
and formation of deoxyribounucleotides;
Biosynthesis of Nucleic Acids:
Brief introduction of genetic organization of the mammalian genome, alteration
and rearrangements of genetic material, Biosynthesis of DNA and its
Physical & chemical mutagenesis/carcinogenesis, DNA repair mechanism.
Biosynthesis of RNA;
Genetic Code and Protein Synthesis:
Genetic code, Components of protein synthesis and Inhibition of protein
Physico-chemical and stereoisomeric (Optical, geometrical) aspects of drug
molecules and biological action, Bioisosterism, Drug-receptor interactions
including transduction mechanisms;
Drug metabolism and Concept of Prodrugs; Principles of Drug Design (Theoretical
Traditional analog and mechanism based approaches, QSAR approaches,
Applications of quantum mechanics, Computer Aided Drug Designing (CADD) and
Synthetic Procedures, Mode of Action, Uses, Structure Activity Relationships including
Physicochemical Properties of the Following Classes of Drugs:
Drugs acting at synaptic and neuro-effector junction sites: Cholinergics,
anti-cholinergics and cholinesterase inhibitors, Adrenergic drugs,
Antispasmodic and anti-ulcer drugs, Local Anesthetics, Neuromuscular blocking
Antihistamines, Eicosanoids, Analgesic-antipyretics, Anti-inflammatory
Steroidal nomenclature (IUPAC) and stereochemistry, Androgens and anabolic
agents, Estrogens and Progestational agents, Oral contraceptives,
Drugs acting on the central nervous system:
General Anesthetics, Hypnotics and Sedatives, Anticonvulsants,
Anti-Parkinsonian drugs, Psychopharmacological agents (Neuroleptics, Anti-depressants,
Anxiolytics), Opioid analgesics, Anti-tussives, CNS stimulants;
Diuretics; Cardiovascular drugs:
Anti-hypertensives, Anti-arrythmic agents, anti-anginal agents, Cardiotonics,
Anti-hyperlipedemic agents, Anticoagulants and Anti-platelet drugs;
Thyroid and Anti thyroid drugs; Insulin and oral hypoglycemic agents;
Chemotherapeutic Agents used in bacterial, fungal, viral, protozoal, parasitic
and other infections, Antibiotics: ß-Lactam, macrolides, tetracyclines,
aminoglycosides, polypeptide antibiotics, fluoroquinolones,
(including sulfonamides); Anti-neoplastic agents; Anti-viral agents (including
Immunosuppressives and immunostimulants; Diagnostic agents; Pharmaceutical
Introduction, types of reactions mediated by micro-organisms, design of
biotransformation processes, selection of organisms, biotransformation process
and its improvements with special reference to steroids;
Techniques of immobilization, factors affecting enzyme kinetics, Study of
enzymes such as hyaluronidase, penicillinase, streptokinase, amylases and
proteases, Immobilization of bacteria and plant cells.
Different techniques of pharmaceutical analysis, Preliminaries and definitions:
Significant figures, Rules for retaining significant digits, Types of errors,
Mean deviation, Standard deviation, Statistical treatment of small data sets,
Selection of sample, Precision and accuracy,
Fundamentals of volumetric analysis:
methods of expressing concentration, primary and secondary standards:
Acid Base Titrations:
Acid base concepts, Role of solvents, Relative strengths of acids and bases,
Ionization, Law of mass action, Common ion effect, Ionic product of water, pH,
Hydrolysis of salts, Henderson-Hasselbach equation, Buffer solutions,
Neutralization curves, Acid-base indicators, Theory of indicators, Choice of
indicators, Mixed indicators, Polyprotic systems, Polyamine and amino acid
systems, Amino acid titrations;
Oxidation Reduction Titrations:
Concepts of oxidation and reduction, Redox reactions, Strengths and equivalent
weights of oxidizing and reducing agents, Theory of redox titrations, Redox
indicators, Cell representations, Measurement of electrode potential, Oxidation-reduction
curves, Iodimetry and Iodometry, Titrations involving cerric ammonium sulphate,
potassium iodate, potassium bromate, potassium permanganate; titanous chloride,
stannous chloride and Sodium 2,6-dichlorophenolindophenol;
Precipitation reactions, Solubility product, Effect of acids, temperature and
solvent upon the solubility of a precipitate, Argentometric titrations and
titrations involving ammonium or potassium thiocyanate, mercuric nitrate, and
barium sulphate, indicators, Methods of end point determination (GayLussac
method, Mohr’s method, Volhard's method and Fajan's method).
Precipitation techniques, The colloidal state, Supersaturation,
Co-precipitation, Post-precipitation, Digestion, washing of the precipitate,
Filtration, Filter papers and crucibles, Ignition, Thermogravimetric curves,
Specific examples like barium sulphate, aluminium as aluminium oxide, calcium
as calcium oxalate and magnesium as magnesium pyrophosphate, Organic precipitants;
Acidic and basic drugs, Solvents used, Indicators;
Complexing agents used as titrants, Indicators, Masking and demasking;
Miscellaneous Methods of Analysis:
Diazotization titrations, Kjeldahl method of nitrogen estimation, Karl-Fischer
aquametry, Oxygen flask combustion method, Gasometry;
Extraction procedures including separation of drugs from excipients;
Standard redox potential, Nernst equation, Half-cell potential, Standard and
indicating electrodes, potentiometric titrations;
Specific and equivalent conductance, conductometric titrations;
Coulomb’s law, Coulometric titrations at fixed potential/current;
Decomposition potential, Half-wave potential, Diffision/migration/migration
current, Ilkovic equation, Cathodic/anodic polarography, Dropping mercury
electrode, Graphite electrode, Organic polarography;
Rotating platinum electrode, Amperometric titrations;
Theory of chromatography, plate theory, Factors affecting resolution, van
Deemter equation, The following chromatographic techniques (including
instrumentation) with relevant examples of Pharmacopoeial products: TLC, HPLC,
GLC, HPTLC, Paper Chromatography and Column Chromatography;
The Theoretical Aspects, Basic Instrumentation, Elements of Interpretation of
Spectra, and Applications (quantitative and qualitative) of the Following
Ultraviolet and visible spectrophotometry, Fluorimetry, Infrared
spectrophotometry, Nuclear Magnetic Resonance spectroscopy, Mass Spectrometry
(EI & CI only), Flame Photometry, Atomic Absorption Spectroscopy, X-ray
Diffraction Analysis, Radioimmunoassay.
GLP, ISO 9000, TQM, Quality Review and Quality documentation, Regulatory
control, regulatory drug analysis, interpretation of analytical data,
Validation, quality audit: quality of equipment, validation of equipment,
validation of analytical procedures.
Pathophysiology of common diseases; Basic Principles of Cell Injury and
Causes of Cellular injury, pathogenesis, morphology of cell injury, adaptations
and cell death.
Basic Mechanisms involved in the process of inflammation and repair:
Vascular and cellular events of acute inflammation, chemical mediators of
inflammation, pathogenesis of chronic inflammation, brief outline of the
process of repair.
T and B cells, MHC proteins, antigen presenting cells, immune tolerance,
pathogenesis of hypersensitivity reactions, autoimmune diseases, AIDS,
Pathophysiology of Common Diseases:
Asthma, diabetes, rheumatoid arthritis, gout, ulcerative colitis, neoplasia,
psychosis, depression, mania, epilepsy, acute and chronic renal failure,
hypertension, angina, congestive heart failure, atherosclerosis, myocardial
infarction, congestive heart failure, peptic ulcer, anemias, hepatic disorders,
tuberculosis, urinary tract infections and sexually transmitted diseases.
Wherever applicable the molecular basis should be discussed.
Fundamentals of general pharmacology:
Dosage forms and routes of administration, mechanism of action, combined effect
of drugs, factors modifying drug action, tolerance and dependence;
Pharmacogenetics; Principles of Basic and Clinical pharmacokinetics,
absorption, Distribution, Metabolism and Excretion of drugs, Adverse Drug
Reactions; Bioassay of Drugs and Biological Standardization; Discovery and
development of new drugs, Bioavailability and bioequivalence studies;
Pharmacology of Peripheral Nervous System:
Neurohumoral transmission (autonomic and somatic), Parasympathomimetics,
Parasympatholytics, Sympathomimetics, Adrenergic receptor and neuron blocking
agents, Ganglion stimulants and blocking agents, Neuromuscular blocking Agents,
Local anesthetic Agents.
Pharmacology of Central Nervous System:
Neurohumoral transmission in the C.N.S., General Anesthetics, Alcohols and
disulfiram, Sedatives, Hypnotics, Anti-anxiety agents and Centrally acting
muscle relaxants, Psychopharmacological agents (anti-psychotics), anti-maniacs
and hallucinogens, Antidepressants, Anti-epileptics drugs, Anti-Parkinsonian
drugs, Analgesics, Antipyretics, Narcotic analgesics and antagonists, C.N.S.
stimulants, Drug Addiction and Drug Abuse.
Pharmacology of Cardiovascular System:
Drugs used in the management of congestive cardiac failure, Antihypertensive
drugs, Anti-anginal and Vasodilator drugs, including calcium channel blockers
and beta adrenergic antagonists, Anti-arrhythmic drugs, Anti-hyperlipedemic
drugs, Drugs used in the therapy of shock.
Drugs Acting on the Hemopoietic System:
Hematinics, Anticoagulants, Vitamin K and hemostatic agents, Fibrinolytic and
anti-platelet drugs, Blood and plasma volume expanders.
Drugs acting on urinary system:
Fluid and electrolyte balance, Diuretics.
Histamine, Antihistaminic drugs, 5-HT- its agonists and antagonists,
Prostaglandins, thromboxanes and leukotrienes, Angiotensin, Bradykinin and
Substance P and other vasoactive peptides, non-steroidal anti-inflammatory and
Drugs Acting on the Respiratory System:
Anti-asthmatic drugs including bronchodilators, Anti-tussives and expectorants,
Drugs acting on the Gastrointestinal Tract:
Antacids, Anti-secretory and Anti-ulcer drugs, Laxatives and anti-diarrhoeal
drugs, Appetite Stimulants and Suppressants, Emetics and anti-emetics,
Miscellaneous: Carminatives, demulcents, protectives, adsorbents, astringents,
digestants, enzymes and mucolytics.
Pharmacology of Endocrine System:
Hypothalamic and pituitary hormones, Thyroid hormones and anti thyroid drugs,
parathormone, calcitonin and Vitamin D, Insulin, glucagons, incretins, oral
hypoglycemic agents and insulin analogs, ACTH and corticosteroids, Androgens
and anabolic steroids, Estrogens, progesterone and oral contraceptives, Drugs
acting on the uterus.
General Principles of Chemotherapy, Bacterial resistance; Sulfonamides and
cotrimoxazole, Antibiotics- Penicillins, Cephalosporins, Aminoglycosides,
Chloramphenicol, Macrolides, Tetracyclines, Quinolones, fluoroquinolones and
Miscellaneous antibiotics; Chemotherapy of tuberculosis, leprosy, fungal
diseases, viral diseases, HIV and AIDS, urinary tract infections and sexually
transmitted diseases, malaria, amoebiasis and other protozoal infections and
Anthelmentics. Chemotherapy of malignancy and immunosuppressive agents.
Principles of Toxicology:
Definition of poison, general principles of treatment of poisoning with
particular reference to barbiturates, opioids, organophosphorous and atropine
poisoning, Heavy metals and heavy metal antagonists.
Basic Concepts of Pharmacotherapy:
Clinical Pharmacokinetics and individualization of Drug therapy, Drug delivery
systems and their Biopharmaceutic & Therapeutic considerations, Drugs used
during infancy and in the elderly persons (Pediatrics & Geriatrics), Drugs
used during pregnancy, Drug induced diseases, The basics of drug interactions,
General principles of clinical toxicology, Common clinical laboratory tests and
Important Disorders of Organs, Systems and their Management:
Cardio-vascular disorders- Hypertension, Congestive heart failure, Angina,
Acute myocardial infarction, Cardiac arrhythmias.
Epilepsy, Parkinsonism, Schizophrenia,
Depression Respiratory disease-
Peptic ulcer, Ulcerative colitis, Hepatitis, Cirrhosis.
Diabetes mellitus and Thyroid disorders.
Tuberculosis, Urinary tract infections, Enteric infections, Upper respiratory
infections. Hematopoietic Disorders- Anemias,
Joint and Connective tissue disorders-
Rheumatic diseases, Gout and Hyperuricemia.
Acute Leukaemias, Hodgkin's disease. Therapeutic Drug Monitoring, Concept of
Essential Drugs and Rational Drug use.
Sources of Drugs:
Biological, marine, mineral and plant tissue cultures as sources of drugs;
Classification of Drugs:
Morphological, taxonomical, chemical and pharmacological classification of
Study of medicinally important plants belonging to the families with special
Apocynacae, Solanaceae, Rutacease, Umbelliferae, Leguminosae, Rubiaceae,
Liliaceae, Graminae, Labiatae, Cruciferae, Papaveraceae;
Cultivation, Collection, Processing and Storage of Crude Drugs:
Factors influencing cultivation of medicinal plants, Types of soils and
fertilizers of common use. Pest management and natural pest control agents,
Plant hormones and their applications, Polyploidy, mutation and hybridization
with reference to medicinal plants.
Quality Control of Crude Drugs:
Adulteration of crude drugs and their detection by organoleptic, microscopic,
physical, chemical and biological methods and properties.
Introduction to Active Constituents of Drugs:
Their isolation, classification and properties.
Systematic pharmacognostic study of the followings:
CARBOHYDRATES and derived products:
agar, guar gum acacia, Honey, Isabagol, pectin, Starch, sterculia and
Bees wax, Castor oil, Cocoa butter, Codliver oil, Hydnocarpus oil, Kokum
butter, Lard, Linseed oil, Rice, Bran oil, Shark liver oil and Wool fat;
Study of Drugs Containing Resins and Resin Combinations like Colophony, podophyllum,
jalap, cannabis, capsicum, myrrh, asafoetida, balsam of Tolu, balsam of Peru,
benzoin, turmeric, ginger;
Study of tannins and tannin containing drugs like Gambier, black catechu, gall
General methods of obtaining volatile oils from plants, Study of volatile oils
of Mentha, Coriander, Cinnamon, Cassia, Lemon peel, Orange peel, Lemon grass,
Citronella, Caraway, Dill, Spearmint, Clove, Fennel, Nutmeg, Eucalyptus,
Chenopodium, Cardamom, Valerian, Musk, Palmarosa, Gaultheria, Sandal wood;
Preparation of extracts, Screening of alkaloids, saponins, cardenolides and
bufadienolides, flavonoids and leucoanthocyanidins, tannins and polyphenols,
anthraquinones, cynogenetic glycosides, amino acids in plant extracts;
Study of fibers used in pharmacy such as cotton, silk, wool, nylon, glass-wool,
polyester and asbestos.
Study of the biological sources, cultivation, collection, commercial varieties,
chemical constituents, substitutes, adulterants, uses, diagnostic macroscopic
and microscopic features and specific chemical tests of following groups of
GLYCOSIDE CONTAINING DRUGS:
Liquorice, ginseng, dioscorea, sarsaparilla, and senega.
Digitalis, squill, strophanthus and thevetia,
Aloe, senna, rhubarb and cascara,
Psoralea, Ammi majus, Ammi visnaga, gentian, saffron, chirata, quassia.
ALKALOID CONTAINING DRUGS:
Tobacco, areca and lobelia.
Belladonna, hyoscyamus, datura, duboisia, coca and withania.
Quinoline and Isoquinoline:
Cinchona, ipecac, opium.
Ergot, rauwolfia, catharanthus, nux-vomica and physostigma.
Veratrum and kurchi.
Ephedra and colchicum.
Coffee, tea and cola. Biological sources, preparation, identification tests and
uses of the following enzymes: Diastase, papain, pepsin, trypsin, pancreatin.
Studies of Traditional Drugs:
Common vernacular names, botanical sources, morphology, chemical nature of
chief constituents, pharmacology, categories and common uses and marketed
formulations of following indigenous drugs: Amla, Kantkari, Satavari,
Tylophora, Bhilawa, Kalijiri, Bach, Rasna, Punamava, Chitrack, Apamarg, Gokhru,
Shankhapushpi, Brahmi, Adusa, Atjuna, Ashoka, Methi, Lahsun, Palash, Guggal,
Gymnema, Shilajit, Nagarmotha and Neem. The holistic concept of drug
administration in traditional systems of medicine. Introduction to ayurvedic
preparations like Arishtas, Asvas, Gutikas, Tailas, Chumas, Lehyas and Bhasmas.
General Techniques of Biosynthetic Studies and Basic Metabolic
Brief introduction to biogenesis of secondary metabolites of pharmaceutical
monoterpenes, sesquiterpenes, diterpenes, and triterpenoids.
a-carotenoids, ß-carotenes, vitamin A, Xanthophylls of medicinal importance.
Digitoxin, digoxin, hecogenin, sennosides, diosgenin and sarasapogenin.
Atropine and related compounds, Quinine, Reserpine, Morphine, Papaverine,
Ephedrine, Ergot and Vinca alkaloids.
Lignans, quassanoids and flavonoids. Role of plant-based drugs on National
A brief account of plant based industries and institutions involved in work on
medicinal and aromatic plants in India. Utilization and production of
phyto-constituents such as quinine, calcium sennosides, podophyllotoxin,
diosgenin, solasodine, and tropane alkaloids. Utilization of aromatic plants
and derived products with special reference to sandalwood oil, mentha oil,
lemon grass oil, vetiver oil, geranium oil and eucalyptus oil. World-wide trade
in medicinal plants and derived products with special reference to diosgenin
(disocorea), taxol (Taxus sps) digitalis, tropane alkaloid containing plants,
Papain, cinchona, Ipecac, Liquorice, Ginseng, Aloe, Valerian, Rauwolfia and
plants containing laxatives. Plant bitters and sweeteners.
Plant Tissue Culture:
Historical development of plant tissue culture, types of cultures, nutritional
requirements, growth and their maintenance. Applications of plant tissue
culture in pharmacognosy.
Novel medicinal agents from marine sources.
Natural allergens and photosensitizing agents and fungal toxins. Herbs as
health foods. Herbal cosmetics. Standardization and quality control of herbal
drugs, WHO guidelines for the standardization of herbal drugs.