Rajiv
Gandhi Proudyogiki Vishwavidalaya, Bhopal (M.P.)
B.
PHARMA-II SEMESTER
ADVANCED
MATHEMATICS PY-201
1. Differential
equations and its Applications: Revision of integral calculus,
definition and formation of
differential equations, equations of first order and first
degree, variable separable,
homogeneous and linear differential equations and
equations reducible to such
types, linear differential equations of order greater
than one with constant
coefficients, complementary function and particular
Integral, Simultaneous linear
differential equations, pharmaceutical applications.
2. Laplace
Transforms: Definition,
transforms of elementary functions, properties
of linearity and shifting,
inverse Laplace transforms, transforms of derivatives,
solution of ordinary and
simultaneous differential equations.
3. Biometrics: Significant
digits and rounding of numbers, data collection, random
and non-random sampling methods,
sample size, data organization, diagrammatic
representation of data, bar, pie,
2-D and 3-D diagrams, measures of central
tendency, measures of dispersion,
standard deviation, standard error of means,
coefficient of variations,
confidence (fiducial) limits.
4. Probability: probability and
events, Bayes theorem, probability theorems,
probability distributions,
elements of binomal and poisson distribution, normal
distribution curve and
properties,
5. Correlation
and regression: Method
of least squares, statistical inference,
Student’s and paired t-test,
F-test and elements of ANOVA, kurtosis and
skewness, Applications of
statistical concepts in Pharmaceutical Sciences.
BOOKS
RECOMMENDED:
1. Paria G.,
Ordinary Differential Equations with Laplace transform, Scholar’s
Publications, Indore.
2. Paria G.,
Differential Calculus, Scholar’s Publications, Indore.
3. Paria G.,
Integral Calculus, Scholar’s Publications, Indore.
4. Paria G.,
Statistics and Stochastic Process Part I and II, Scholar’s Publications,
Indore.
5. Baisnab A, and
M Jas, Introduction to statistics.
PHARMACEUTICS-II
PY-202 (PHYSICAL PHARMACY)
1. Micromeritics
and Powder Rheology: Introduction,
Particle size and size
distribution: Average particle
size, particle size distribution, number and weight
distribution, particle number;
Methods for determination particle size: optical
microscopy, sieving,
sedimentation; introduction to latest technique in particle
analysis Particle volume
measurement; Particle shape and surface area: particle
shape, specific surface; Methods
for determining surface area: adsorption method,
air permeability method, pore
size; Derived properties of powders: Porosity,
packing arrangement, densities of
powder, bulkiness and flow properties,
Compaction: Compressed tablet,
Pharmaceutical application.
2. Solubility
and Distribution Phenomenon: General principles: the phase rule,
solubility expressions;
Solvent-solute interaction: polar solvents, nonpolar
solvents, semipolar solvents;
Solubility of gases in liquids: Effect of pressure,
temperature, salting out, effect
of chemical reaction; Solubility of liquids in
liquids: Ideal and real solution,
complete miscibility, partial miscibility, influence
of foreign substance, three
component systems, dielectric constant and solubility,
molecular connectivity, molecular
surface are and solubility; Solubility of solids
in liquids: Ideal solutions,
Phase diagrams and the ideal solubility equation,
nonideal solution, extended
Hildebrand solubility approach, salvation and
association in solutions of polar
compounds, solubility and the heat of solution,
solubility of strong
electrolytes, solubility of slightly soluble electrolytes,
solubility of weak electrolyte,
the influence of solvents on the solubility of drugs,
combined effect of pH and
solvents, influence of surfactants; influence of
hydrotropic
agents on solubility of drugs. Distribution of solutes between
immiscible solvents.
3. Surface and
Interfacial Phenomenon: Liquid interfaces: surface and interfacial
tensions, surface free energy.
Measurement of surface and interfacial tensions:
Capillary rise method, The DuNouy
Ring Method. Adsorption at liquid interfaces:
surface active agents, Systems of
Hydrophile - Lipofile classification, Type of
mono-layers at liquid interfaces.
Adsorption at solid interface, the solid-gas
interface, the solid-liquid
interface, Activated Charcoal, Wetting, Application of
surface-active agents, Electric
properties of interfaces.
4. Diffusion and
Dissolution: Concept
of diffusion, Study state diffusion: Fick’s first
law, Fick’s second law, study
state, Procedure and apparatus. Dissolution:
dissolution rate, dissolution of
tablets, capsules and granules, Powder Dissolution:
The Hixson-Crowell cube Root Law.
Drug release: Drugs in polymer matrices,
release from granular matrices,
multilayer diffusion, membrane control and
diffusion layer control
phenomenon, diffusion principle in biological system.
5. Viscosity and
Rheology: Newtonian
Systems: Newton’s Law of flow; kinematics
viscosity; Temperature dependence
and theory of viscosity. Non-Newtonian
Systems: plastic flow,
pseudoplastic and dilatant flow. Thixotropy: measurement
thixotropy, Bulges and spurs,
Negative thixotropy, Thixotropy in formulations.
Determination of Rheologic
properties: choice of viscometer, Capillary
viscometer, Falling sphere
viscometer, Cup and bob viscometer, Cone and plate
Viscometer, Pharmaceutical
application of Rheology.
6. Complexation
and protein binding: Classification
of complexes, methods of
preparation and analysis,
Pharmaceutical applications. Protien binding: Binding
equilibria, equilibrium dialysis
and ultrafilration, dyanamic dialysis, hydrophobic
interaction, self-association,
factors affecting complexation and protein binding.
7. Buffered and
isotonic solutions: The
buffer equation: Common Ion Effect and the
Buffer Equation for a weak Acid
and its slat, The buffer equation for a weak base
and its salt. Factors influencing
the pH of buffer solutions. Buffer capacity:
Calculation of buffer capacity.
Buffer in pharmaceutical systems and biologic
system: In vivo biologic buffer
systems, Pharmaceutical buffers, influence of
buffer capacity and pH on Tissue
Irritation, pH and Solubility. Buffered isotonic
solutions: Measurement of
tonicity, tonicity calculations, Methods of adjusting
isotonicity and pH.
8. Colloids: Introduction to
the dispersed System, Types of colloidal systems, Optical
properties of the colloids,
kinetic properties of the colloids, electrical properties of
the colloids, Solubilization,
Pharmaceutical application of the colloids, advanced
thermodynamics of Micellization.
9. Coarse
Dispersion: Suspension: Interfacial properties of suspended particles,
Settling in suspensions: theory
of sedimentation, effect of Brownian Movement,
Sedimentation of flocculated
particles, Sedimentation parameters. Formulation of
suspensions: Wetting of
particles, Controlled flocculation, Flocculation in
Structured Vehicles, Rheologic
consideration, Preparation of suspensions,
Physical stability of
suspensions. Emulsions: Emulsion types, Pharmaceutical
applications, Theories of
emulsification, Physical stability of emulsions,
Preservation of emulsions,
Rheologic properties of emulsions. Semi-solids: Gels,
Syneresis and swelling,
Classification of Pharmaceutical semisolids, Hydrophilic
properties of Semisolids,
Rheologic properties of semisolids, Universe of Topical
Medications. Drug Kinetics in
Coarse disperse system, Drug Diffusion in Coarse
Disperse Systems.
LIST OF
PRACTICALS:
(Minimum fifteen
experiments should be performed in the semester. Student
should aware
with safety parameters and handling of chemicals related to
following
experiments)
1. Determine the particle size
and particle size distribution in the given sample of
powder by optical microscopy.
2. Determine particle size distribution of the given
granules by sieving method.
3. Determine the following
derived properties of the given powdered sample
(a) Flow property (b) Bulk
density (c) Granule density
(d) True density (e) Porosity (f)
Carr’s Index
(g) hussnor’s retio
4. Determine the surface tension
of the given sample by drop count and drop weight
Method.
5. Determine the Critical Micelle
Concentration (CMC) of the given surfactant by
Surface tension method.
6. Determine partition coefficient of the given drug
between benzene and water or octanol
and water system
7. Plot phase diagram of phenol-water system
8. Determine the effect of salt on the solubility of
given drug.
9. Determine the percent composition of an unknown
solution of glycerin in water using
Ostwald’s viscometer
10. Study the effect of shear rate on the flow of 1%
methyl cellulose solution.
11. Formulate suspension of the given drug and
evaluate it for sedimentation parameters.
12. Study the effect of thickening agent
concentration on the sedimentation of the suspension
of the given drug.
13. Prepare acetate buffer and compare theoretical
pH value with the experimental value.
14. Determine the viscosity of
the following Newtonian and Non-Newtonian system
(a) Water (b) Simple syrup I.P.
(c) Diclofenac gel (d) Tooth
paste
15. Determine the HLB value of
the given surfactant
16. Evaluate the given sample of
emulsion on the following parameters
(a) Type of emulsion (b) Globule
size distribution
(c) Physical stability (d)
Viscosity
17. Determine the optimum
concentration of Bentonite required for the maximum
physical stability of calamine
lotion.
18. To observe the effect of
hydrotropic agent sodium citrate on the solubility of
salicylic acid.
BOOKS
RECOMMENDED:
1. Lachman, L., Lieberman, H.A.
and Kanig, J.L., The Theory and Pratice of
Industrial Pharmacy, Lea and
Philadelphia.
2. Allen, L.V., Popovich, N.G.,
Ansel, H.C., Ansel’s Pharmaceutical Dosage Forms
and Drug Delivery Systems,
Lippincott Williams and Wilkins.
3. Banker G.S. and Rhode C.T.,
Modern Pharmaceutics, Marcell Decker Inc., New
York.
4. Aulton, M.E., Pharmaceutics The
Science of Dosage Form Design, Churchill
Livingstone, London.
5. Carter, S.J., Cooper and Gunn’s
Tutorial Pharmacy, CBS Publishers and
Distributors, New Delhi.
6. Martin A., Physical Pharmacy,
Lippincott Williams and Wilkins.
7. Gennaro, A.R., Remington: The
Science and Practice of Pharmacy, Lippincott
Williams and Wilkins.
PHARMACEUTICAL
CHEMISTRY-III PY-203 (ORGANIC-I)
1. Structure and
Properties: Electronegativity,
Polarity, Resonance;
Electrophiles/Nucleophiles, Orbitals, π-Bonds, Hybridization and Shape,
Isomerism, Polarity,
Intermolecular Forces, isotope effects and isotopic labelling.
2. Reactive
Intermediates: Stability
and reactivity of Radicals, Cations, Anions,
Nitrene and Nitrenium ion
3.
Stereochemistry: Stereo-isomerism,
classification and Nomenclature, Optical
activity, Chirality, R/S
Classification of Chiral Carbons. Miscellaneous
Stereochemistry, Diastereomers;
Racimic modification, Resolution of racimic
mixtures.
4. Hydrocarbons:
Alkanes and cycloalkanes: Nomenclature, Physical and chemical
properties of alkanes,
Conformations and Stability of Acyclic Alkanes and
Cycloalkanes.
Alkenes and
alkynes: Nomenclature,
Physical and Chemical properties of
alkenes, isomerism, and general
methods of preparation.
Aromatic
hydrocarbons: Benzene
and its homologues (Polynuclear
compounds), nomenclature, sources
of aromatic hydrocarbons, structure of
benzene, chemical reaction of
benzyne-mechanism and SNAr Mechanism of
nucleophilic substitution.
Directive influence of substituents and their effect on
reactivity.
Dienes and the
Allyl system: Conjugation,
Reactivity.
5. Organic
compounds with functional groups containing halogens (X):
Nomenclature, Structure,
Properties, Reactivity of Alkyl Halides (haloalkanes and
haloarenes): The SN2 and SN1
Substitution Reaction, The E1 and E2 Elimination
Reactions, Substitution vs.
Elimination reaction, reactivity of C-X bond in
haloalkanes and haloarenes
6. Organic
compounds with functional groups containing oxygen (Part I-):
Alcohols: Nomenclature,
Synthesis, reactivity of different Alcohols; conversion
of Alcohols to Tosylates or
Halides.
Phenols: Nomenclature,
methods of preparation, physical and chemical
properties; chemical reactivity
of phenols in electrophilic substitutions, acidic
nature of phenol.
Ethers: electronic
structure, structure of functional group, nomenclature,
important methods of preparation,
physical and chemical properties, some
commercially important compounds.
7. Organic
compounds with functional groups containing oxygen (Part II):
Aldehydes and
ketones : Electronic
structure of carbonyl group, nomenclature,
important methods of preparation,
physical properties and chemical reactions,
relative reactivity of aldehydic
and ketonic groups, aldol condensation.
nucleophilic addition reaction to
>C=O groups.
Carboxylic
acids: Electronic
structure of -COOH, Nomenclature, important
methods
of preparation, physical properties and effect of substituents on α-carbon
on acid strength, chemical
reactions.
Derivatives of
carboxylic acids: Electronic
structure of acid chloride, acid
anhydride, ester and amide
groups, Nomenclature, important methods of
preparation, comparative
reactivity of acid derivatives.
8. Organic
Compounds with functional group containing Nitrogen: Structure,
Nomenclature of Amino and Diazo
Compounds.
Amines: Primary,
secondary and tertiary amines, a general awareness, important
methods of preparation, physical
properties, basic character of amines, chemical
reactions.
Diazonium salts:
Preparation,
chemical reaction and uses of Benzene diazonium
chloride. Some commercially
important nitrogen containing carbon compounds,
(Aniline, TNT)
LIST OF
PRACTICALS:
1. Purify the given organic
compounds by distillation.
2. Purify the given organic
compounds by recrystillazation.
3. Introduction to the use of
stereo models.
4. Synthesis, Purification,
Characterization (by using Solubility, Melting Point,
T.L.C. and percentage purity) of
organic compounds and percent yield
calculations of the following
compounds:
a) 2, 4, 6-trinitro phenol
(Picric acid) from phenol
b) Iodoform from ethyl alcohol
c) 2, 4, 6-tribromoaniline from
aniline
d) 2, 4, 6-tribromo phenol from
phenol
e) Phenylbutazone from phenol
f) Benzanilide from aniline
g) Phthalidimide from phthalic
anhydride
h) Thiourea
i) Phenyl urea
j) Flourescein
k) Methly orange
l) Methly red
BOOKS
RECOMMENDED:
1. Organic Chemistry, R.T.
Morrison and R.N. Boyd, 6th
Edition,
New York.
2. Organic Chemistry, T.W.G.
Solomons, 8th
Edition,
John Wiley & Sons, Inc
3. Advanced Organic Chemistry, J.
March, Reaction Mechanisms and Structure,
John Wiley and Sons, N.Y.
4. Mechanisms and structure in
Organic Chemistry, E.S. Gould, Hold Rinchart and
Winston, New York.
5. Advanced Organic Chemistry,
Reaction Mechanisms, Bernard Miller, 2nd
edition, Pearson education Ptc.
Ltd. Singapore.
6. Named Organic Reactions,
Thomas Lane & Andreas Plagens, 2nd edition, John
Wiley and Sons, N.Y).
7. Organic Chemistry Finar Vol-1
& 2.
8. Structure and Mechanism in
Organic Chemistry, Ingold, C. K., Cornell
University.
9. Stereochemistry of Carbon
Compounds, Eliel, E.L., McGraw Hill, New York.
10. Elements of Stereochemistry,
Eliel, E.L., Wiley, New York.
PHARMACOGNOSY-I
PY-204
1. Study of
following families with spatial reference to medicinally important plants;
apocyanaceae, solanoceae,
graminae, labiatae, cruciferae,
papaveraceae,umbelifereae,
leguminosae, rubiaceae and liliaceae.
2. Definition,
history, scope and development of Pharmacognosy. Scheme for
pharmacognostical study of crude
drug. Sources of crude drugs and methods of
their classification. Traditional
and alternative systems of medicines.
3. Cultivation
collection, drying, natural drying, artificial drying, processing and
storage of crude drugs. Factors
affecting cultivation of medicinal plants like
climate, altitude, temperature,
humidity, rainfall, soils, fertilizers and mannures.
4. Pest control and
natural pest control agents. Methods of pest control like
mechanical, agricultural,
biological chemical etc.
5. Quality Control
of Crude Drugs: Different types of Adulteration and their
evaluation using various methods
like Organoleptic, Microscopic, Physical,
Chemical, and Biological,
Quantitative microscopy.
6. General methods
of their isolation, classification, properties and systematic
pharmacognostic study of –
a. Carbohydrates,
and drugs belonging to this class like; Agar, Gaur gum,
Acacia, Ghatti gum Honey,
Isapgol, Starch, Sterculia, Tragacanth, Bael,
Pectin,
b. Fixed oil, fats
and waxes and drugs belonging to this class likes; Castor oil,
Olive oil Linseed oil, Karanj
Oil, Neem Oil, Beeswax, Cocoa butter,
Hydnocarpus oil, Kokum butter,
Cod-liver oil, Shark liver oil, Woolfat, Lard,
Yellow bees wax, Carnauba wax
c. Resins and
resin combinations and drugs belonging to this class like;
Podophyllum, Tolu & Peru
balsam, Turmeric, Ginger, Ipomoea, Myroballan,
Asafoetida, Benzoin, colophonoy.
Capsicum, Canabis, Myrrh, Guggul,
Kaladana,
d. Tannins and
drugs belonging to this class like Myrobalan, Bahera, Arjuna
bark, Ashoka bark, Amla, black
& Pale catechu.
e. Fibres: Plant
fibres, Animal fibre, Synthetic fibres, Minral fibre. Flax, Cotton,
Silk, Wool.
f. Pharmaceutical
aids like; Talc, Kaolin, Bentonite, Gelatin, Klesalghur,
Asbestose.
LIST OF
PRACTICALS:
(Student should
perform Minimum fifteen experiments from following)
1. Study of
different types of microscopes, camara lucida.
2. Morphological
identification of following drugs Bael, Capsicum, Kaladana,
catechu, guggul, honey.
3. Morphological
identification of following drugs Arjuna bark, ashoka bark. Amla.
Ghatugum and Bahera
4. Perform the morphological,
microscopic and chemical evaluation “Ginger”.
5. Perform morphological,
microscopic and chemical evaluation of “Turmeric”.
6. Perform morphological and
chemical evaluation of “Myroballan”.
7. Perform morphological and
chemical evaluation of “Agar and Acacia”.
8. Perform morphological and
chemical evaluation of “Tragacanth”.
9. Perform morphological,
microscopic and chemical evaluation of “Isapgol”.
10. Perform morphological,
microscopic and chemical evaluation of “Starches obtain from potato,
rice, maize and wheat”.
11. Perform morphological and
chemical evaluation of “Asafoetida”.
12. Perform morphological and
chemical evaluation of “Castor oil, linseed oil, olive oil, cod-liver
oil”.
13. Perform morphological and
chemical evaluation of neem oil, coca butter and wool fat.
14. Perform morphological and
chemical evaluation of lard, bees wax and carnauba.
15. Perform morphological and
chemical evaluation of “Bees wax”.
16. Perform morphological and
chemical evaluation of “Benzoin”.
17. Perform morphological,
microscopic and chemical evaluation of “nylon, Silk and Cotton”.
18. Perform morphological,
microscopic and chemical evaluation of “Talc and Podophyllum”.
19. Perform morphological,
microscopic and chemical evaluation of “Peru and Tolu Balsam”.
20. Identify the given mixture/sample
of powder drugs by morphological microscopical and chemical
evaluation.
BOOKS
RECOMMENDED:
1. Text Book of
Pharmacognosy – C.S.Shah & J.S.Quadry
2. Text Book of
Pharmacognosy – T.E. Wallis
3. Pharmacognosy –
Trease & Evans
4. Pharmacognosy –
Brady & Taylor
5. Text Book of
Pharmacognosy – V.K. Kapoor & S.S.Handa
6. Pharmacognosy –
C.K.Kokate, A.P.Purohit, S.B.Gokhale.
ANATOMY
PHYSIOLOGY AND HEALTH EDUCATION–PY-205
Scope of anatomy and physiology
and basic terminology used in these subjects.
1. Structure of
cell, its components and their function:
2. Elementary
Tissues of the Human Body: Epithelial, connective, muscular and
nervous tissues; their sub-types
and characteristics.
3. Skeletal
System: Structure,
composition and functions of skeleton, Classification
of joints, Types of movement at
joint, disorders of joints.
4. Skeletal
Muscles: Their
gross anatomy, physiology of muscle contraction,
physiological properties of
skeletal muscle and their disorders.
5. Haemopoietic
System : Composition
and functions of blood and its elements, their
disorders, blood groups and their
significance, mechanism of coagulation;
disorders of platelets and
coagulation.
6. Lymph and
lymphatic system:
Composition, formation and circulation of lymph,
disorders of lymph and lymphatic
system. Basic physiology and functions of
spleen.
7.
Cardiovascular System: Basic anatomy of the heart, physiology of heart,
blood
vessels and circulation. Basic
understanding of cardiac cycle, heart sounds and
electrocardiogram. Blood pressure
and its regulation. Brief outline of
cardiovascular disorders like;
hypertension, hypotension, arteriosclerosis, angina,
myocardial infraction, congestive
heart failure and cardiac arrhythmias.
8. Respiratory
System: Anatomy
of respiratory organs, Functions of respiration,
Mechanism and regulation of
respiration, Respiratory volumes and vital capacity
9. Health
Education: First aid: emergency treatment of shock, snake bites, burns,
poisoning, fractures and
resuscitation methods.
LIST OF
PRACTICALS:
(Student should
perform all the foljklowing experiments)
1. Determine RBC
count of the given blood sample
2. Determine WBC
count of the given blood sample
3. Determine
differential WBC count of the given blood sample
4. Determine platelets
count of the given blood sample
5. Determine
hemoglobin count of the given blood sample
6. Determine
clotting time of the given blood sample.
7. Determine
erythrocyte sedimentation rate of the given blood sample
8. Osmotic
fragility of the blood.
9. Determine blood
group.
10. Study of
epithelial, connective, muscular and nervous tissue using slide.
11. Study human
skeletal system with the help of chart, model and histological slides.
12. STUDY of human
cardiovascular system with the help of chart, model and
histological slides.
13. Record of
blood pressure.
14. To understand
ECG, PQRST waves and their signifance.
15. Study of human
respiratory system with the help of chart, model and histological
slides.
16. Study of
lymphatic system with the help of chart, model and histological slides.
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