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Phrmacognosy
Bloom’sTaxonomyLevels: 1.Remember 2.Understand 3. Application 4. Analysis 5.Evaluation 6.
Creation
Programme Name: M.Pharmacy
Programme Specific Outcome (PSO)
PSO1:Pharmaceutical Knowledge:- Students gain a deep knowledge regarding human body, its related diseases, analytical skills, drug molecules
(Active Pharmaceutical Ingredients) along with excipients, natural drug resources, chemistry involved in API including synthesis of commonly used
drugs, effect of drug on human body, toxicity and impurity profile, ADME studies of drugs (behavior of drug in human body), dosage form studies
including novel approaches, designing and development of formulation stability studies, analysis etc
PSO2: Research Analysis: Students could apply the knowledge in research field to make new discoveries.
PSO3: Design & Development of dosage forms: Various dosage forms could be prepared by the a pharmacy students in the pharmaceutical
companies for the ease of patients.
PSO4: Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis
and interpretation of data, and synthesis of the information to provide valid conclusions.
PSO5: Modern methods usage: Create, select, and apply appropriate techniques, resources, and modern methods with an understanding of the
limitations and its usage. The student also learns to handle many instruments related to their studies which would help them work in a Pharmaceutical
Industry, pharmacovigilance, regulatory requirements, legal processes etc.
PSO6: Pharmacy and society: Pharmacist provides complete health care data and practices to the people of the society and guides them to be healthy.
The student also learns drug distribution system, patient counseling, industrial laws etc. Student gains expertise in storage and distribution of drugs
with all precautions and in-depth knowledge of dose, adverse effect and other health related issues to deal with indoor and outdoor patients admitted
in hospitals and also in public.
PSO7: Environment and sustainability: Understand the impact of the professional pharmacist in society and environment, and make an impact of it
on the people of the society.
PSO8: Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the pharmacy practice. Student is also
trained in ethical behavior with physician, nurses and other paramedical staff for protecting patient’s health.
PSO9: Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams acts as a multidisciplinary person
in every context.
PSO10: Communication: Communicate effectively on pharmaceutical activities with the community and with society.
PSO11: Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest
context of technological change.
The Maharaja Sayajirao University of Baroda Academic Year 2019-20
Faculty of Pharmacy
Modern pharmaceutical analytical techniques (MPH 101T): Regular Programme
Core / Elective / Foundation
Year I MPH 101T: Modern Credits / Hours per week 04
pharmaceutical analytical
techniques
Semester I Year of Introduction: 2000 Maximum Marks / Grade 10
Year of Syllabus Revision: 2019 0
Mode of Transaction Lectures and Tutorials
Course Outcomes (CO) MQA 102T (Theory)
CO1 The analysis of various drugs in single and combination dosage forms
CO2 Theoretical and practical skills of the instruments
2
Unit Topic/Uni Contact Weightage BT CO PSO Elemen Releva Relatio
No. t Hours (%) Level t s of nce to n to
Employ Local Gender
ability (L)/ (G),
(Emp)/ Nation Enviro
Entrep al (N)/ n
reneur Regiona mentan
ship l d
(Ent)/ (R)/Glo Sustain
Skill b al (G) ability
Develo develo (ES),
p ment p Human
(SD) mental Values
needs (HV)an
d
Professi
onal
Ethics
1 11 18 1, 2, 3, 4 CO1 PSO4 (PE)
UV-Visible spectroscopy: Introduction, Theory, Laws, Emp N PE
Instrumentation associated with UV-Visible spectroscopy, SD G
Choice of solvents and solvent effect and Applications of UV-
Visible spectroscopy. IR spectroscopy: Theory, Modes of
Molecular vibrations, Sample handling, Instrumentation of
Dispersive and Fourier - Transform IR Spectrometer, Factors
affecting vibrational frequencies and Applications of IR
spectroscopy. Spectroflourimetry: Theory of
Fluorescence, Factors affecting fluorescence, Quenchers,
Instrumentation and Applications of fluorescence
spectrophotometer.Flame emission spectroscopy and
Atomic absorption spectroscopy: Principle,
2 Instrumentation, Interferences and Applications. 11 18 1, 2 CO2 PSO4 Emp N PE
NMR spectroscopy: Quantum numbers and their role in NMR, SD G
Principle, Instrumentation, Solvent requirement in NMR,
3
Relaxation process, NMR signals in various compounds,
Chemical shift, Factors influencing chemical shift, Spin-Spin
coupling, Coupling constant, Nuclear magnetic double resonance,
Brief outline of principles of FT-NMR and 13C NMR.
Applications of NMR spectroscopy.
3 Mass Spectroscopy: Principle, Theory, Instrumentation of 11 18 1,2 CO2 PSO4
Mass Spectroscopy, Different types of ionization like electron Emp N
impact, chemical, field, FAB and MALDI, APCI, ESI, APPI SD G PE
Analyzers of Quadrupole and Time of Flight, Mass
fragmentation and its rules, Meta stable ions, Isotopic peaks
and Applications of Mass spectroscopy
4 11 18 1, 2 CO2
Chromatography: Principle, apparatus, instrumentation, PS
chromatographic parameters, factors affecting resolution and
applications of the following: O4 Emp N
a) Paper chromatography b) Thin Layer SD G PE
chromatography
c) Ion exchange chromatography d) Column
chromatography
e) Gas chromatography f) High Performance
Liquid chromatography
g) Affinity chromatography
5 Electrophoresis: Principle, Instrumentation, Working 11 18 1,2 CO2
PS
conditions, factors affecting separation and applications of the Emp
following: O4 SD N PE
a) Paper electrophoresis b) Gel electrophoresis c) G
Capillary electrophoresis d) Zone electrophoresis e)
Moving boundary electrophoresis f) Iso electric
focusing
X ray Crystallography: Production of X rays, Different X ray 4
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