PO, PEO, PSO & CO

Program Educational Outcomes (PEO)

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• PEO 1-Academic Excellence: To acquire in-depth knowledge and adequate scientific information regarding basic principles of Pharmaceutics. Pharmaceutical and Medicinal Chemistry, Pharmacology, Pharmacognosy and Pharmaceutical analysis.
• PEO 2-Fundamental Skills: To produce pharmacy graduates with strong fundamental concept and high technical competence in pharmaceutical sciences to fulfill the need of pharmaceutical industry.
• PEO 3-Presentation Skills: The undergraduate students should able to write, interpret and communicate effectively and scientifically.
• PEO 4-Team Spirit: To inculcate leadership and problem solving, decision making capabilities in future pharmacist.
• PEO 5-Entrepreneurship: To provide vision to identify opportunities, run new business, drive innovations and leam from and adapt to changing circumstances.
• PEO 6-Social Health Care: To develop the students to contribute toward health care system by creating awareness in society about the effective and safe use of medicine.

Program Specific Outcomes (PSO) : Master of Pharmacy (Pharmaceutics)

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• PSO 1: Academic Excellence: To acquire in-depth knowledge and adequate scientific information regarding basic principles of Pharmaceutics and its application in design of dosage form.
• PSO 2: Fundamental Skill: To produce research associates with strong fundamental concept and high technical competence in Novel drug delivery system to serve the need of F&D and Production department of pharmaceutical industry.
• PSO 3: Presentation Skills: The postgraduate student should able to write, interpret and communicate effectively and scientifically to accomplish the requirements of Regulatory affairs department.

Program Specific Outcomes (PSO) : Master of Pharmacy (Quality Assurance)

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• PSO 1: Academic Excellence: To attain thorough knowledge and ample scientific information regarding basic principles of Pharmaceutical Analysis and its application in built up the quality in pharmaceutical product.
• PSO 2: Fundamental Skill: To create analyst with strong basic concept and high technical competence in sophisticated analytical instrument handling and Troubleshooting to serve the need of Analytical development laboratory.
• PSO 3: Presentation Skills: The postgraduate student should able to write, interpret and communicate effectively and scientifically to fulfill the desires of Validation and Quality Affairs department.

First Year B. Pharm.
Semester-I

Name of subject	HUMAN ANATOMY AND PHYSIOLOGY-I (Theory)
Subject Code	BP101T
	Upon completion of this course student shall be able to
CO1	Explain the basic concepts of human anatomy and physiology.
CO2	Describe the structure and function of cells and tissues.
CO3	Illustrate the organization and functions of the integumentary and skeletal systems.
CO4	Analyze the physiological mechanisms of the nervous system and special senses.
CO5	Evaluate the functions and disorders of body fluids, blood, and the lymphatic system.
CO6	Assess the anatomy and physiology of the cardiovascular system and related disorders.

Name of subject	PHARMACEUTICAL ANALYSIS (Theory)
Subject Code	BP102T
	Upon completion of this course student shall be able to
CO1	Define key concepts in pharmaceutical analysis, including techniques of analysis and standards.
CO2	Explain the sources, types, and methods of minimizing errors in pharmaceutical analysis.
CO3	Perform and standardize various acid-base, non-aqueous, precipitation, complexometric, and redox titrations.
CO4	Analyze the principles and procedures of gravimetric and electrochemical methods of analysis.
CO5	Evaluate the accuracy and precision of analytical data, considering significant figures and error types.
CO6	Create experimental protocols for various titrations and gravimetric analyses to solve complex analytical problems.

Name of subject	PHARMACEUTICS I (Theory)
Subject Code	BP103T
	Upon completion of this course student shall be able to
CO1	Describe the historical development and scope of the pharmacy profession in India.
CO2	Explain the classification and definitions of various dosage forms and prescription handling.
CO3	Calculate pediatric dosages, pharmaceutical calculations, and prepare various dosage forms.
CO4	Analyze the stability problems and methods to overcome them in liquid and biphasic dosage forms.
CO5	Evaluate the advantages, disadvantages, and preparation methods of various dosage forms like suppositories and semisolids.
CO6	Design and formulate experimental protocols for preparing and evaluating different pharmaceutical dosage forms.

Name of subject	PHARMACEUTICAL INORGANIC CHEMISTRY (Theory)
Subject Code	BP104T
	Upon completion of this course student shall be able to
CO1	Define key terms and concepts related to impurities in pharmaceutical substances and official waters.
CO2	Explain the principles and procedures involved in limit tests for various impurities in pharmaceuticals.
CO3	Apply buffer equations and principles to prepare and stabilize pharmaceutical buffers and isotonic solutions.
CO4	Analyze the functions of major electrolytes and their role in physiological processes and replacement therapy.
CO5	Evaluate the properties, uses, and safety considerations of various gastrointestinal agents and antimicrobials.
CO6	Define key terms and concepts related to impurities in pharmaceutical substances and official waters.

Name of subject	COMMUNICATION SKILLS (Theory)
Subject Code	BP105T
	Upon completion of this course student shall be able to
CO1	Define key terms and concepts related to the communication process and barriers to communication.
CO2	Explain the various elements and styles of communication, including face-to-face and written communication.
CO3	Demonstrate effective listening skills and strategies for overcoming listening barriers.
CO4	Analyze different communication styles and their effectiveness in various professional scenarios.
CO5	Evaluate the effectiveness of different communication methods in interviews, presentations, and group discussions.
CO6	Create structured presentations and group discussions, applying effective communication strategies.

Name of subject	REMEDIAL BIOLOGY (Theory)
Subject Code	BP 106RBT
	Upon completion of this course student shall be able to
CO1	Define key concepts and terms related to the living world, including diversity and classification.
CO2	Explain the structure and function of different human systems, including circulatory, digestive, and respiratory systems.
CO3	Illustrate the processes of excretion, neural control, and chemical regulation in humans.
CO4	Analyze the mechanisms of plant nutrition, photosynthesis, and respiration.
CO5	Evaluate the role of different tissues and cell structures in plants and animals.
CO6	Create diagrams and models to represent various biological processes and structures studied in the course.

Name of subject	REMEDIAL MATHEMATICS (Theory)
Subject Code	BP 106 RMT
	Upon completion of this course student shall be able to
CO1	Define basic concepts of partial fractions, logarithms, functions, limits, and continuity.
CO2	Explain the properties and applications of matrices, determinants, and calculus in solving equations.
CO3	Apply differentiation and integration techniques to solve pharmaceutical problems.
CO4	Analyze complex problems using analytical geometry and differential equations.
CO5	Evaluate the application of Laplace transforms in solving linear differential equations and pharmacokinetics.
CO6	Create solutions for complex problems using advanced mathematical methods such as matrices, calculus, and Laplace transforms.

Name of subject	HUMAN ANATOMY AND PHYSIOLOGY (Practical)
Subject Code	BP107P
	Upon completion of this course student shall be able to
CO1	Identify and describe the structure and function of epithelial, connective, muscular, and nervous tissues using a microscope.
CO2	Explain the methods for identifying axial and appendicular bones.
CO3	Demonstrate the use of a haemocytometer for enumerating WBC and RBC counts.
CO4	Analyze blood samples to determine bleeding time, clotting time, haemoglobin content, and erythrocyte sedimentation rate (ESR).
CO5	Evaluate cardiovascular parameters such as heart rate, pulse rate, and blood pressure.
CO6	Create comprehensive reports on laboratory findings and observations from the visit to a blood bank.

Name of subject	PHARMACEUTICAL ANALYSIS (Practical)
Subject Code	BP108P
	Upon completion of this course student shall be able to
CO1	Describe the procedures for the preparation and standardization of various chemical solutions as per IP.
CO2	Explain the principles and procedures for conducting titrations and assays of different compounds.
CO3	Perform standardization of titrants and assays for compounds such as ammonium chloride and sodium benzoate.
CO4	Analyze titration results to determine the normality of solutions using electro-analytical methods.
CO5	Evaluate the accuracy of experimental results by comparing them with standard values.
CO6	Create comprehensive lab reports documenting the procedures, results, and interpretations of various assays and titrations.

Name of subject	PHARMACEUTICS I (Practical)
Subject Code	BP109P
	Upon completion of this course student shall be able to
CO1	Describe the preparation methods for various pharmaceutical formulations such as syrups, elixirs, and linctus.
CO2	Explain the principles involved in the formulation of solutions, suspensions, and emulsions.
CO3	Perform the preparation of different pharmaceutical formulations including syrups, emulsions, and suppositories.
CO4	Analyze the quality and stability of prepared pharmaceutical formulations using standard tests.
CO5	Evaluate the effectiveness and compliance of various pharmaceutical formulations in patient care.
CO6	Design and prepare comprehensive reports documenting the procedures, results, and analyses of pharmaceutical preparations.

Name of subject	PHARMACEUTICAL INORGANIC CHEMISTRY (Practical)
Subject Code	BP110P
	Upon completion of this course student shall be able to
CO1	Describe the procedures for performing limit tests for chloride, sulphate, iron, arsenic, lead, and heavy metals.
CO2	Explain the identification tests for various inorganic compounds such as magnesium hydroxide and ferrous sulphate.
CO3	Perform tests for the purity of pharmaceutical substances like the swelling power of bentonite and neutralizing capacity of aluminum hydroxide gel.
CO4	Analyze the results of limit tests and identification tests to ensure the quality of pharmaceutical substances.
CO5	Evaluate the preparation processes for inorganic pharmaceuticals like boric acid and potash alum to ensure compliance with standards.
CO6	Design and prepare detailed reports documenting the procedures, results, and analyses of various pharmaceutical tests and preparations.

Name of subject	COMMUNICATION SKILLS (Practical)
Subject Code	BP111P
	Upon completion of this course student shall be able to
CO1	Identify and practice basic communication skills such as meeting people, asking questions, and making friends.
CO2	Demonstrate correct pronunciation of consonant and vowel sounds, and understand their impact on communication.
CO3	Apply listening comprehension strategies and differentiate between direct and indirect speech in conversations.
CO4	Analyze different figures of speech and their usage in effective communication.
CO5	Evaluate various writing techniques and apply effective writing skills in different contexts such as emails and reports.
CO6	Create and deliver presentations, and handle interviews professionally, incorporating advanced communication skills.

Name of subject	REMEDIAL BIOLOGY (Practical)
Subject Code	BP112RBP
	Upon completion of this course student shall be able to
CO1	Identify the parts and functions of a microscope and demonstrate basic techniques for section cutting, mounting, and staining.
CO2	Describe the structure and inclusions of different cell types.
CO3	Apply knowledge to study and identify the modifications in stem, root, leaf, seed, fruit, and flower.
CO4	Analyze and interpret data from computer models of frog anatomy.
CO5	Evaluate tissue samples from stem, root, leaf, seed, fruit, and flower using microscopic techniques.
CO6	Design and perform experiments to determine blood group, blood pressure, and tidal volume.

First Year B. Pharm.
Semester-II

Name of subject	HUMAN ANATOMY AND PHYSIOLOGY-II (Theory)
Subject Code	BP 201T
	Upon completion of this course student shall be able to
CO1	Explain the organization and functioning of the nervous system, including the central nervous system and neurotransmitters.
CO2	Describe the anatomy and functions of the digestive system, including nutrient digestion and absorption.
CO3	Illustrate the respiratory and urinary systems, focusing on the mechanisms of respiration and urine formation.
CO4	Analyze the roles of different endocrine glands and their hormones, including the disorders associated with them.
CO5	Evaluate the structure and function of the male and female reproductive systems, including genetic inheritance patterns.
CO6	Design experiments to measure and interpret physiological parameters related to various body systems.

Name of subject	PHARMACEUTICAL ORGANIC CHEMISTRY – I (Theory)
Subject Code	BP202T
	Upon completion of this course student shall be able to
CO1	Explain the basic principles of organic chemistry including hybridization, bond formation, and effects like inductive, steric, and resonance.
CO2	Classify and name various organic compounds using IUPAC nomenclature and understand structural isomerism.
CO3	Describe the reactions and stability of alkanes, alkenes, and conjugated dienes, including mechanisms and orientation effects.
CO4	Analyze the mechanisms and factors affecting SN1 and SN2 reactions in alkyl halides and their uses.
CO5	Evaluate nucleophilic addition and condensation reactions in carbonyl compounds and their applications.
CO6	Design experiments to test and interpret the properties and reactions of carboxylic acids and aliphatic amines.

Name of subject	BIOCHEMISTRY (Theory)
Subject Code	BP203 T
	Upon completion of this course student shall be able to
CO1	Explain the classification, chemical nature, and biological roles of biomolecules.
CO2	Illustrate the pathways and regulation of carbohydrate metabolism and its diseases.
CO3	Analyze the processes and disorders associated with lipid and amino acid metabolism.
CO4	Evaluate the synthesis, catabolism, and genetic implications of nucleic acids.
CO5	Discuss the kinetics, regulation, and applications of enzymes in biochemistry and pharmacy.
CO6	Design experiments to investigate biochemical pathways and enzyme activity.

Name of subject	PATHOPHYSIOLOGY (THEORY)
Subject Code	BP 204T
	Upon completion of this course student shall be able to
CO1	Define and explain the causes and pathogenesis of cellular injury, including adaptive changes.
CO2	Describe the mechanisms of inflammation and repair, including clinical signs and types of inflammation.
CO3	Analyze the pathophysiology and clinical manifestations of cardiovascular, respiratory, renal,
CO4	haematological, endocrine, nervous, and gastrointestinal diseases.
CO5	Evaluate the etiology, pathogenesis, and classification of bone and joint diseases, as well as cancer.
CO6	Discuss the epidemiology, clinical features, and management of infectious and sexually transmitted

Name of subject	COMPUTER APPLICATIONS IN PHARMACY (Theory)
Subject Code	BP205 T
	Upon completion of this course student shall be able to
CO1	Explain the different number systems and perform conversions and arithmetic operations between them.
CO2	Describe the process of information systems and software development, including project planning and management.
CO3	Develop web pages using HTML, XML, and CSS, and understand the basics of databases and server products.
CO4	Analyze the application of computers in various pharmacy fields such as drug information storage, pharmacokinetics, and patient monitoring systems.
CO5	Evaluate the impact of bioinformatics on vaccine discovery and understand bioinformatics databases.
CO6	Utilize computers for data analysis in preclinical development, including chromatographic data analysis and laboratory information management systems.

Name of subject	ENVIRONMENTAL SCIENCES (Theory)
Subject Code	BP 206 T
	Upon completion of this course student shall be able to
CO1	Explain the multidisciplinary nature of environmental studies and the importance of natural resources.
CO2	Describe the structure and function of different ecosystems and their characteristic features.
CO3	Analyze the various types of environmental pollution and their impact on health and the environment.
CO4	Evaluate the role of individuals in the conservation of natural resources and sustainable development.
CO5	Design strategies for addressing environmental issues using modern tools and techniques.
CO6	Investigate environmental problems through research methods and provide valid conclusions.

Name of subject	HUMAN ANATOMY AND PHYSIOLOGY (Practical)
Subject Code	BP 207 P
	Upon completion of this course student shall be able to
CO1	Identify and explain the structures and functions of the integumentary, nervous, and endocrine systems using specimens and models.
CO2	Perform and interpret hematological tests such as platelet count, differential leukocyte count, and Arneth index.
CO3	Assess the osmotic fragility of RBCs and interpret the results in relation to health conditions.
CO4	Demonstrate and evaluate general neurological examinations, olfactory nerve function, taste tests, and visual acuity tests.
CO5	Record and analyze physiological parameters such as body temperature, tidal volume, vital capacity, and basal mass index.
CO6	Conduct visits to hospitals/pathology laboratories to understand real-world applications of physiological and anatomical knowledge.

Name of subject	PHARMACEUTICAL ORGANIC CHEMISTRY – I (Practical)
Subject Code	BP208P
	Upon completion of this course student shall be able to
CO1	Explain and implement safety measures in an organic laboratory.
CO2	Perform and calibrate laboratory techniques such as determining melting point, boiling point, distillation, and crystallization.
CO3	Conduct systematic qualitative analysis of unknown organic compounds through various tests and identification methods.
CO4	Prepare solid derivatives from organic compounds and analyze their properties.
CO5	Build and interpret molecular models of structures containing various functional groups.
CO6	Demonstrate the ability to research and identify unknown organic compounds using literature and experimental data.

Name of subject	BIOCHEMISTRY (Practical)
Subject Code	BP 209 P
	Upon completion of this course student shall be able to
CO1	Identify and differentiate between various carbohydrates, amino acids, and proteins using qualitative tests.
CO2	Conduct qualitative analysis of urine to detect abnormal constituents.
CO3	Determine blood creatinine, blood sugar, and serum total cholesterol using specific biochemical methods.
CO4	Prepare buffer solutions and measure their pH accurately.
CO5	Quantitatively analyze reducing sugars and proteins using DNSA and Biuret methods respectively.
CO6	Investigate the effect of temperature and substrate concentration on salivary amylase activity.

Name of subject	COMPUTER APPLICATIONS IN PHARMACY (Practical)
Subject Code	BP210P
	Upon completion of this course student shall be able to
CO1	Design a questionnaire to gather information about a particular disease using a word processing package.
CO2	Create a personal information webpage using HTML.
CO3	Retrieve drug information and its adverse effects using online tools.
CO4	Create and manage a patient information database using MS Access.
CO5	Design forms, generate reports, and print from a patient database using MS Access.
CO6	Export tables, queries, forms, and reports to web pages and XML pages.

Second Year B. Pharm.
Semester-III

Name of subject	PHARMACEUTICAL ORGANIC CHEMISTRY –II (Theory)
Subject Code	BP301T
	Upon completion of this course student shall be able to
CO1	Explain the resonance in benzene and apply Huckel’s rule to predict aromaticity.
CO2	Describe the acidity and basicity of phenols and aromatic amines, including the effect of substituents.
CO3	Identify and differentiate between types of stereoisomerism and apply nomenclature rules for optical and geometrical isomers.
CO4	Explain the synthesis, reactions, and medicinal uses of polynuclear hydrocarbons.
CO5	Discuss the stability theories of cycloalkanes and apply these theories to predict their reactivity.
CO6	Explain the chemical reactions of fats and oils, including hydrolysis, hydrogenation, saponification, and rancidity.

Name of subject	PHYSICAL PHARMACEUTICS-I (Theory)
Subject Code	BP302T
	Upon completion of this course student shall be able to
CO1	Explain the solubility principles of drugs and apply Raoult’s law and distribution law in pharmaceutical contexts.
CO2	Describe the states of matter and their properties, including physicochemical properties relevant to pharmaceuticals.
CO3	Analyze surface and interfacial phenomena, including the application of surface active agents and HLB scale.
CO4	Explain complexation, protein binding, and their implications for drug action and stability.
CO5	Discuss the principles of pH, buffers, and isotonic solutions, and their applications in pharmaceutical systems.
CO6	Evaluate physicochemical properties such as refractive index, optical rotation, and dielectric constant for drug molecules.

Name of subject	PHARMACEUTICAL MICROBIOLOGY (Theory)
Subject Code	BP 303 T
	Upon completion of this course student shall be able to
CO1	Describe the history, scope, and importance of microbiology, and differentiate between Prokaryotes and Eukaryotes.
CO2	Explain the ultra-structure, growth, and cultivation methods of bacteria and use various microscopy techniques to study them.
CO3	Apply staining techniques and biochemical tests to identify bacteria and evaluate the efficiency of sterilization methods.
CO4	Discuss the morphology, classification, and cultivation of fungi and viruses, and assess the effectiveness of disinfectants and antiseptics.
CO5	Design aseptic areas, implement microbiological assays, and standardize antibiotics, vitamins, and amino acids.
CO6	Analyze microbial spoilage and contamination in pharmaceutical products, and evaluate methods for preservation and microbial stability.

Name of subject	PHARMACEUTICAL ENGINEERING (Theory)
Subject Code	BP 304 T
	Upon completion of this course student shall be able to
CO1	Describe the principles and applications of fluid flow, size reduction, and size separation in pharmaceutical processes.
CO2	Explain the mechanisms and equipment used for heat transfer, evaporation, and distillation in pharmaceutical operations.
CO3	Analyze the drying and mixing processes in pharmaceuticals, including the factors affecting these processes and equipment used.
CO4	Evaluate filtration and centrifugation techniques, including the selection of appropriate equipment for specific applications.
CO5	Design systems for corrosion prevention and select appropriate materials for pharmaceutical plant construction.
CO6	Assess the impact of material handling systems and the importance of corrosion prevention in the pharmaceutical industry.

Name of subject	PHARMACEUTICAL ORGANIC CHEMISTRY –II
Subject Code	BP305P
	Upon completion of this course student shall be able to
CO1	Demonstrate laboratory techniques such as recrystallization and steam distillation.
CO2	Separate binary mixtures using standard laboratory techniques.
CO3	Determine the saponification value of various oil samples.
CO4	Synthesize organic compounds through various reactions such as benzoylation, nitration, and oxidation.
CO5	Analyze the outcomes of organic synthesis reactions and optimize the reaction conditions.
CO6	Communicate experimental findings effectively through written and oral presentations.

Name of subject	PHYSICAL PHARMACEUTICS – I (Practical)
Subject Code	BP306P
	Upon completion of this course student shall be able to
CO1	Determine the solubility and thermodynamic parameters of drugs at room temperature.
CO2	Calculate the pKa value of drugs using Half Neutralization and Henderson-Hasselbalch equation.
CO3	Measure partition coefficients of compounds in different solvent systems.
CO4	Evaluate surface tension and HLB number of surfactants using various methods.
CO5	Determine constants for adsorption isotherms and critical micellar concentrations.
CO6	Assess stability constants and donor-acceptor ratios for different complexes using solubility and titration methods.

Name of subject	PHARMACEUTICAL MICROBIOLOGY (Practical)
Subject Code	BP 307P
	Upon completion of this course student shall be able to
CO1	Identify and understand the functions of different microbiology laboratory equipment.
CO2	Perform sterilization of glassware and media preparation techniques.
CO3	Conduct subculturing of bacteria and fungi and prepare nutrient stabs and slants.
CO4	Apply staining techniques for bacteria identification, including simple, Gram, and acid-fast staining.
CO5	Isolate pure cultures using multiple streak plate and other microbiological techniques.
CO6	Perform microbiological assays, sterility testing, and biochemical tests to evaluate microorganisms.

Name of subject	PHARMACEUTICAL ENGINEERING (PRACTICAL)
Subject Code	BP308 P
	Upon completion of this course student shall be able to
CO1	Determine the radiation constant of different materials such as brass, iron, and glass.
CO2	Calculate the efficiency of steam distillation.
CO3	Determine the overall heat transfer coefficient using a heat exchanger.
CO4	Construct drying curves and determine moisture content and loss on drying for various substances.
CO5	Analyze the humidity of air using wet and dry bulb temperatures and the Dew point method.
CO6	Describe the construction, working, and application of pharmaceutical machinery such as rotary tablet machines and autoclaves.

Second Year B. Pharm.
Semester-IV

Name of subject	PHARMACEUTICAL ORGANIC CHEMISTRY –III (Theory)
Subject Code	BP401T
	Upon completion of this course student shall be able to
CO1	Understand and explain the concepts of stereoisomerism, including reactions of chiral molecules and methods of racemic resolution.
CO2	Analyze and differentiate between geometrical isomerism, conformational isomerism, and atropisomerism, and their conditions for optical activity.
CO3	Identify and classify various heterocyclic compounds, understand their nomenclature, and recognize their chemical properties and medicinal uses.
CO4	Synthesize and evaluate the reactivity, stability, acidity, and basicity of compounds such as pyrrole, furan, and thiophene, and understand their medicinal applications.
CO5	Synthesize and analyze the chemistry, reactivity, and medicinal uses of compounds such as pyrazole, imidazole, oxazole, and thiazole, along with their derivatives.
CO6	Understand and apply the knowledge of synthesis and medicinal uses of complex heterocyclic compounds like pyrimidine, purine, azepines, and their derivatives.

Name of subject	MEDICINAL CHEMISTRY – I (Theory)
Subject Code	BP402T
	Upon completion of this course student shall be able to
CO1	Understand and explain the history, development, and physicochemical properties of medicinal chemistry and their relation to biological action.
CO2	Analyze the principles and factors affecting drug metabolism, including stereochemical aspects, and their impact on drug action.
CO3	Identify and explain the structure-activity relationship (SAR) of drugs acting on the autonomic nervous system, including adrenergic and cholinergic agents.
CO4	Evaluate the synthesis, mechanism of action, and therapeutic uses of central nervous system drugs, including sedatives, antipsychotics, and anticonvulsants.
CO5	Understand the pharmacological action, SAR, and therapeutic uses of centrally acting analgesics and anti-inflammatory agents.
CO6	Apply knowledge of medicinal chemistry to design and evaluate new drug molecules, considering their metabolism, mechanism of action, and therapeutic potential.

Name of subject	PHYSICAL PHARMACEUTICS-II (Theory)
Subject Code	BP 403 T
	Upon completion of this course student shall be able to
CO1	Classify different types of colloidal dispersions and explain their properties.
CO2	Analyze the rheological behavior of different systems and apply appropriate viscosity determination methods.
CO3	Demonstrate understanding of the theories of emulsions and their stability, and formulate emulsions using the HLB method.
CO4	Apply principles of micromeritics to analyze particle size, distribution, and derived properties of powders.
CO5	Analyze drug stability reactions and apply kinetic principles to determine reaction order and rates.
CO6	Evaluate methods for stabilizing medicinal agents against degradation reactions and apply accelerated stability testing principles.

Name of subject	PHARMACOLOGY-I (Theory)
Subject Code	BP 404 T
	Upon completion of this course student shall be able to
CO1	Explain the principles and mechanisms of drug action including receptor theories and classification.
CO2	Analyze the dose-response relationship and factors modifying drug action.
CO3	Describe adverse drug reactions, drug interactions, and the process of drug discovery and clinical evaluation.
CO4	Identify and classify drugs acting on the peripheral nervous system and their therapeutic uses.
CO5	Explain the neurohumoral transmission in the CNS and classify drugs acting on the central nervous system.
CO6	Discuss the pharmacological agents used in psychiatric disorders and neurodegenerative diseases.

Name of subject	PHARMACOGNOSY AND PHYTOCHEMISTRY I (Theory)
Subject Code	BP 405 T
	Upon completion of this course student shall be able to
CO1	Explain the definition, history, and scope of Pharmacognosy.
CO2	Describe the sources of drugs of natural origin and classify them based on different criteria.
CO3	Analyze the quality control methods of drugs of natural origin, including evaluation techniques.
CO4	Discuss the cultivation, collection, processing, and storage of drugs of natural origin, considering various influencing factors.
CO5	Explain plant tissue culture techniques, their applications in Pharmacognosy, and the concept of edible vaccines.
CO6	Describe the morphology, anatomy, and secondary metabolites of plants, including their classification and identification tests.

Name of subject	MEDICINAL CHEMISTRY – I (Practical)
Subject Code	BP406P
	Upon completion of this course student shall be able to
CO1	Describe the synthetic routes for various medicinally important compounds and drug intermediates.
CO2	Synthesize medicinally important compounds such as 1,3-pyrazole, 1,3-oxazole, and others.
CO3	Purify synthesized compounds using techniques such as recrystallization and column chromatography.
CO4	Monitor chemical reactions using Thin Layer Chromatography (TLC).
CO5	Determine the partition coefficient and ionization constants of synthesized compounds.
CO6	Evaluate the quality and purity of synthesized compounds through various analytical techniques.

Name of subject	PHYSICAL PHARMACEUTICS- II (Practical)
Subject Code	BP 407P
	Upon completion of this course student shall be able to
CO1	Explain the principles and methods for determining particle size and distribution using various techniques.
CO2	Perform measurements of bulk density, true density, porosity, and angle of repose.
CO3	Determine the viscosity of liquids and semi-solids using Ostwald’s and Brookfield viscometers.
CO4	Evaluate the stability and sedimentation properties of suspensions under different conditions.
CO5	Analyze reaction rate constants for first and second-order reactions.
CO6	Conduct accelerated stability studies and determine the cloud point and Krafft point of surfactants.

Name of subject	PHARMACOLOGY-I (Practical)
Subject Code	BP 408 P
	Upon completion of this course student shall be able to
CO1	Explain the principles of experimental pharmacology and the use of common instruments in pharmacological studies.
CO2	Identify and describe the common laboratory animals used in pharmacology experiments and their maintenance as per CPCSEA guidelines.
CO3	Perform common laboratory techniques such as blood withdrawal, serum and plasma separation, and administration of anesthetics and euthanasia.
CO4	Demonstrate different routes of drug administration in mice/rats and assess their effects.
CO5	Evaluate the effects of drugs on various biological systems, such as the hepatic microsomal enzyme inducers on phenobarbitone sleeping time in mice and skeletal muscle relaxants using the rota-rod apparatus.
CO6	Analyze the effects of drugs on ciliary motility, rabbit eye, locomotor activity, anticonvulsant activity, and local anesthetic efficacy using different experimental methods.

Name of subject	PHARMACOGNOSY AND PHYTOCHEMISTRY I (Practical)
Subject Code	BP409 P
	Upon completion of this course student shall be able to
CO1	Explain the chemical analysis techniques used to identify crude drugs like Tragacanth, Acacia, Agar, Gelatin, starch, Honey, and Castor oil.
CO2	Determine the stomatal number and index in plant samples.
CO3	Assess vein islet number, vein islet termination, and palisade ratio in plant samples.
CO4	Measure the size of starch grains and calcium oxalate crystals using an eye piece micrometer.
CO5	Evaluate fiber length and width in plant materials.
CO6	Conduct various determinations such as Ash value, Extractive values, moisture content, swelling index, and foaming of crude drugs.

Third Year B. Pharm.
 
Semester V

Name of subject	MEDICINAL CHEMISTRY – II
Subject Code	BP501T
	Upon completion of this course student shall be able to
CO1	Describe the pharmacological actions and therapeutic applications of antihistaminic agents and autacoids.
CO2	Compare and contrast the mechanisms and therapeutic uses of drugs acting on the cardiovascular system.
CO3	Design and evaluate treatment regimens using cardiovascular drugs to address specific patient conditions.
CO4	Conduct experiments to determine the efficacy of endocrine and antidiabetic drugs, and interpret the results.
CO5	Apply modern analytical techniques to study the pharmacokinetics of local anesthetics.
CO6	Assess the societal and environmental impacts of pharmaceutical practices, particularly in the use of antihypertensives and anticoagulants.

Name of subject	INDUSTRIAL PHARMACY I
Subject Code	BP502T
	Upon completion of this course student shall be able to
CO1	Explain the goals, objectives, and physicochemical characteristics involved in preformulation studies.
CO2	Describe the formulation, manufacturing, and quality control processes of tablets, capsules, and parenteral products.
CO3	Analyze the various methods of tablet coating and the issues related to coating defects.
CO4	Evaluate the stability, packaging, and regulatory requirements of pharmaceutical aerosols and ophthalmic preparations.
CO5	Apply the principles of formulation science to develop cosmetic preparations and understand the factors influencing packaging materials.
CO6	Design and assess experiments for preformulation studies and quality control tests for various dosage forms.

Name of subject	PHARMACOLOGY-II
Subject Code	BP503T
	Upon completion of this course student shall be able to
CO1	Explain the hemodynamics and electrophysiology of the heart and pharmacology of drugs acting on the cardiovascular system.
CO2	Describe the pharmacology of drugs acting on the urinary system, including diuretics and anti-diuretics.
CO3	Classify and describe the pharmacology of autacoids and related drugs, including their mechanisms of action.
CO4	Analyze the pharmacological effects of drugs acting on the endocrine system and their therapeutic uses.
CO5	Evaluate the principles and types of bioassays and their applications in pharmacology.
CO6	Apply knowledge to solve complex problems related to the pharmacological treatment of endocrine and cardiovascular diseases.

Name of subject	PHARMACOGNOSY AND PHYTOCHEMISTRY-II
Subject Code	BP504T
	Upon completion of this course student shall be able to
CO1	Explain the basic metabolic pathways and the formation of secondary metabolites in higher plants.
CO2	Describe the composition, chemistry, bio sources, extraction methods, and therapeutic uses of various secondary metabolites.
CO3	Analyze the methods for isolation, identification, and analysis of key phytoconstituents.
CO4	Evaluate the industrial production, estimation, and utilization of selected phytoconstituents.
CO5	Apply extraction methods and latest techniques like Spectroscopy, Chromatography, and electrophoresis for the isolation and identification of crude drugs.
CO6	Design and implement experiments to solve complex problems related to phytochemistry and pharmacognosy.

Name of subject	PHARMACEUTICAL JURISPRUDENCE
Subject Code	BP505T
	Upon completion of this course student shall be able to
CO1	Explain the objectives, definitions, and legal aspects of the Drugs and Cosmetics Act, 1940 and its rules, 1945.
CO2	Describe the schedules and administration of the Drugs and Cosmetics Act, 1940 and its rules, 1945.
CO3	Analyze the provisions of the Pharmacy Act, 1948, and related legislation for drug regulation and pharmacy practice.
CO4	Evaluate the impact of the Narcotic Drugs and Psychotropic Substances Act, 1985, and other relevant laws on pharmaceutical practice.
CO5	Apply knowledge of the Drugs and Magic Remedies Act, and the Prevention of Cruelty to Animals Act, to ensure ethical pharmaceutical practice.
CO6	Design and implement policies and procedures in alignment with pharmaceutical legislation and ethical guidelines.

Name of subject	Industrial Pharmacy I
Subject Code	BP506P
	Upon completion of this course student shall be able to
CO1	Explain the principles and procedures of preformulation studies on drugs like paracetamol or aspirin.
CO2	Demonstrate the preparation and evaluation of various types of tablets and capsules, including paracetamol and aspirin.
CO3	Analyze the processes involved in tablet coating, including film coating of tablets and granules.
CO4	Evaluate the preparation and quality control tests for injections, such as calcium gluconate and ascorbic acid injections.
CO5	Formulate and assess the preparation of topical formulations like eye drops, eye ointments, and creams.
CO6	Conduct and interpret quality control tests on marketed tablets and capsules as per Indian Pharmacopoeia (IP) standards.

Name of subject	PHARMACOLOGY-II
Subject Code	BP 507 P
	Upon completion of this course student shall be able to
CO1	Explain the principles of in-vitro pharmacology and the preparation of physiological salt solutions.
CO2	Demonstrate the effects of drugs on isolated animal tissues and organs, such as frog heart and rat ileum.
CO3	Analyze the dose-response relationships (DRC) and bioassays for various pharmacological agents.
CO4	Evaluate the pharmacological activities of drugs using different animal models, such as diuretic, analgesic, and anti-inflammatory activities.
CO5	Design and conduct experiments to determine the pharmacological parameters (e.g., PA2 and PD2 values) of drugs using appropriate animal models.
CO6	Interpret clinical case studies and apply pharmacological knowledge to solve real-world clinical problems.

Name of subject	PHARMACOGNOSY AND PHYTOCHEMISTRY II
Subject Code	BP 508 P
	Upon completion of this course student shall be able to
CO1	Explain the morphology, histology, and powder characteristics of medicinal plants like Cinchona, Cinnamon, Senna, etc.
CO2	Perform the isolation and detection of active principles such as caffeine from tea dust and atropine from Belladonna.
CO3	Analyze the separation of sugars by paper chromatography.
CO4	Evaluate herbal extracts using techniques like TLC (Thin Layer Chromatography).
CO5	Distill volatile oils and detect phytoconstituents using TLC.
CO6	Conduct chemical tests to analyze crude drugs such as Asafoetida, Benzoin, and Aloes.

Third Year B. Pharm.
Semester VI

Name of subject	MEDICINAL CHEMISTRY – III
Subject Code	BP601T
	Upon completion of this course student shall be able to
CO1	Describe the historical background, nomenclature, and classification of various antibiotics and other agents.
CO2	Explain the structure-activity relationships (SAR) and chemical degradation of β-lactam antibiotics.
CO3	Analyze the etiology and treatment options for malaria and tuberculosis using synthetic and natural agents.
CO4	Evaluate the effectiveness of antiviral and antifungal agents through pharmacokinetic and pharmacodynamic studies.
CO5	Design drug synthesis pathways and assess the physicochemical parameters involved in drug design.
CO6	Apply knowledge of antineoplastic agents to propose treatment regimens for different types of cancer.

Name of subject	PHARMACOLOGY-III
Subject Code	BP602T
	Upon completion of this course student shall be able to
CO1	Describe the pharmacological effects and mechanisms of drugs acting on the respiratory and gastrointestinal systems.
CO2	Explain the principles of chemotherapy and the pharmacology of various antibiotics and chemotherapeutic agents.
CO3	Analyze the pharmacological actions and clinical uses of antitubercular, antileprotic, antifungal, antiviral, and antimalarial agents.
CO4	Evaluate the use of immunopharmacological agents and their roles in disease treatment and prevention.
CO5	Apply knowledge of toxicology principles to identify and manage poisoning and toxicity cases.
CO6	Design treatment regimens incorporating chronopharmacology principles to optimize therapeutic outcomes.

Name of subject	HERBAL DRUG TECHNOLOGY
Subject Code	BP603T
	Upon completion of this course student shall be able to
CO1	Describe the fundamental concepts of herbs, herbal medicine, and traditional Indian systems of medicine.
CO2	Explain the health benefits and applications of nutraceuticals and potential herb-drug interactions.
CO3	Analyze the market overview and applications of herbal cosmetics and excipients.
CO4	Evaluate the stability, patenting, and regulatory requirements for herbal drugs.
CO5	Apply good agricultural and manufacturing practices for the cultivation and processing of medicinal plants.
CO6	Design herbal formulations and evaluate their compliance with regulatory standards.

Name of subject	BIOPHARMACEUTICS AND PHARMACOKINETICS
Subject Code	BP604T
	Upon completion of this course student shall be able to
CO1	Describe the basic principles and mechanisms of drug absorption, distribution, and elimination.
CO2	Explain the factors influencing drug metabolism and excretion and the implications for drug therapy.
CO3	Apply biopharmaceutical classification system and dissolution models to predict drug bioavailability.
CO4	Analyze bioavailability and bioequivalence studies and their importance in drug development and regulation.
CO5	Evaluate pharmacokinetic models and parameters to understand drug behavior in the body.
CO6	Design studies to determine nonlinear pharmacokinetics and apply these principles to optimize drug dosing.

Name of subject	PHARMACEUTICAL BIOTECHNOLOGY
Subject Code	BP605T
	Upon completion of this course student shall be able to
CO1	Describe the basic principles of biotechnology, enzyme immobilization, and microbial applications in pharmaceutical sciences.
CO2	Explain genetic engineering techniques, including cloning vectors and recombinant DNA technology.
CO3	Apply immunological concepts to the preparation and storage of vaccines and immune products.
CO4	Analyze various blotting techniques and microbial genetics for pharmaceutical applications.
CO5	Evaluate the design and control processes of fermenters and the production of pharmaceuticals like penicillin and Vitamin B12.
CO6	Create solutions for large-scale fermentation processes and the application of hybridoma technology in pharmaceutical production.

Name of subject	PHARMACEUTICAL QUALITY ASSURANCE
Subject Code	BP606T
	Upon completion of this course student shall be able to
CO1	Define and describe the concepts of Quality Assurance, Quality Control, GMP, and various regulatory agencies like CDSCO, USFDA, WHO, and PIC/S.
CO2	Explain the principles of TQM, ICH guidelines, QbD, ISO standards, and NABL accreditation.
CO3	Apply the principles of personnel management, premises design, equipment selection, and maintenance in pharmaceutical quality management.
CO4	Analyze the procedures for quality control of packaging materials, GLP, and the role of CPCSEA.
CO5	Evaluate the processes for handling complaints, documentation maintenance, and waste disposal in the pharmaceutical industry.
CO6	Develop calibration and validation protocols and implement good warehousing practices for materials management.

Name of subject	MEDICINAL CHEMISTRY-III
Subject Code	BP607P
	Upon completion of this course student shall be able to
CO1	Prepare drugs and intermediates, including Sulphanilamide, 7-Hydroxy, 4-methyl coumarin, Chlorobutanol, Triphenyl imidazole, Tolbutamide, Hexamine, and Paracetamol.
CO2	Utilize microwave synthesis to prepare medicinally important compounds or intermediates.
CO3	Draw structures and reactions using ChemDraw®.
CO4	Determine physicochemical properties such as logP, clogP, MR, and Molecular weight.
CO5	Identify hydrogen bond donors and acceptors for classes of drugs using drug design software.
CO6	Conduct drug likeliness screening (Lipinski’s RO5) for compounds.

Name of subject	PHARMACOLOGY-III
Subject Code	BP608P
	Upon completion of this course student shall be able to
CO1	Demonstrate understanding of the anti-ulcer activity of drugs using animal models and the NSAIDs induced ulcer model.
CO2	Analyze the effects of drugs on gastrointestinal motility.
CO3	Evaluate the effects of agonists and antagonists on guinea pig ileum.
CO4	Perform estimation of serum biochemical parameters using a semi-autoanalyser.
CO5	Assess the effect of saline purgative on frog intestine.
CO6	Evaluate the hypoglycemic effect of insulin in rabbits.

Name of subject	HERBAL DRUG TECHNOLOGY
Subject Code	BP 609 P
	Upon completion of this course student shall be able to
CO1	Perform preliminary phytochemical screening of crude drugs.
CO2	Determine the alcohol content of Asava and Arista.
CO3	Evaluate excipients of natural origin.
CO4	Incorporate prepared and standardized extracts into cosmetic formulations and evaluate their efficacy.
CO5	Incorporate prepared and standardized extracts into formulations like syrups, mixtures, and tablets and evaluate them.
CO6	Analyze monographs of herbal drugs from recent Pharmacopoeias.

Final Year B. Pharm.
Semester VII

Name of subject	INSTRUMENTAL METHODS OF ANALYSIS
Subject Code	BP701T
	Upon completion of this course student shall be able to
CO1	Understand the principles of UV-visible spectroscopy, including electronic transitions and Beer-Lambert’s law.
CO2	Explain the theory and concepts of fluorimetry, including singlet, doublet, and triplet electronic states.
CO3	Describe the fundamentals of FTIR spectroscopy, including modes of vibrations and sample handling.
CO4	Analyze the principles and applications of flame photometry and atomic absorption spectroscopy.
CO5	Evaluate different chromatographic techniques such as paper chromatography, thin layer chromatography, and HPTLC.
CO6	Apply the theories and methodologies of gas chromatography and high performance liquid chromatography (HPLC).

Name of subject	INDUSTRIAL PHARMACY -II
Subject Code	BP702T
	Upon completion of this course student shall be able to
CO1	Apply pilot plant scale-up techniques, considering personnel requirements, space requirements, and raw materials.
CO2	Analyze technology development and transfer processes, including quality risk management and regulatory requirements.
CO3	Describe the historical overview of regulatory affairs, regulatory authorities, and the role of regulatory affairs professionals.
CO4	Explain Indian regulatory requirements, including the responsibilities of the Central Drug Standard Control Organization (CDSCO) and State Licensing Authority.
CO5	Apply concepts of quality management systems, including Total Quality Management, Quality by Design (QbD), and ISO standards.
CO6	Evaluate the impact of quality management systems on pharmaceutical development and commercialization.

Name of subject	PHARMACY PRACTICE
Subject Code	BP703T
	Upon completion of this course student shall be able to
CO1	Identify and describe the organization structure and functions of hospitals, including medical staff roles and responsibilities.
CO2	Explain the functions, organization structure, and responsibilities of hospital pharmacy, including staff requirements.
CO3	Classify adverse drug reactions, understand drug interactions, and methods for detecting and managing adverse reactions.
CO4	Describe the organization and structure of community pharmacies, including legal requirements and dispensing practices.
CO5	Analyze drug distribution systems in hospitals, hospital formulary management, therapeutic drug monitoring, and medication adherence.
CO6	Evaluate pharmacy and therapeutic committee functions, drug information services, patient counseling, and education/training programs.

Name of subject	NOVEL DRUG DELIVERY SYSTEM
Subject Code	BP704T
	Upon completion of this course student shall be able to
CO1	Understand the principles and approaches used in designing controlled drug delivery systems.
CO2	Explain the properties, advantages, and disadvantages of various polymers used in controlled release formulations.
CO3	Describe the concept of microencapsulation, including methods, advantages, and applications.
CO4	Analyze the principles and formulation considerations of mucosal drug delivery systems.
CO5	Evaluate the design and applications of implantable drug delivery systems.
CO6	Assess the formulation approaches and factors influencing the effectiveness of transdermal drug delivery systems.

Name of subject	INSTRUMENTAL METHODS OF ANALYSIS
Subject Code	BP705P
	Upon completion of this course student shall be able to
CO1	Understand the principles and application of weights and measures in pharmaceutical analysis.
CO2	Analyze the absorption maxima of organic compounds and assess the effect of solvent on absorption maxima.
CO3	Perform the assay of drug products using UV-Spectrophotometry according to the Indian Pharmacopoeia (IP).
CO4	Conduct the assay of drug products using calibration curve method.
CO5	Assay drugs or drug products using colorimetry techniques.
CO6	Simultaneously estimate multiple components in a formulation using UV spectroscopy (SE/Q analysis).

Name of subject	PRACTICE SCHOOL
Subject Code	BP706PS
	Upon completion of this course student shall be able to
CO1	Apply pharmaceutical knowledge and skills acquired during practice school to solve real-world pharmacy problems.
CO2	Analyze and evaluate complex pharmacy problems encountered during practice school using principles of pharmaceutics, chemistry, and engineering sciences.
CO3	Design solutions for complex pharmacy problems encountered during practice school, considering public health, safety, societal, and environmental aspects.
CO4	Conduct investigations and research-based activities during practice school, including experimental design and data analysis.
CO5	Utilize modern tools and techniques effectively during practice school activities, including prediction, modeling, and experimentation.
CO6	Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal, and cultural issues during practice school activities.

Final Year B. Pharm.
Semester VIII

Name of subject	BIOSTATISTICS AND RESEARCH METHODOLOGY
Subject Code	BP801T
	Upon completion of this course student shall be able to
CO1	Understand the fundamental concepts of statistics and biostatistics, including measures of central tendency and dispersion.
CO2	Apply correlation and regression analysis techniques to pharmaceutical data.
CO3	Analyze probability distributions and perform hypothesis testing for pharmaceutical research.
CO4	Evaluate non-parametric tests and their applications in pharmaceutical research.
CO5	Design experimental methodologies and interpret the results for pharmaceutical studies using statistical software tools.
CO6	Analyze and optimize experimental designs, including factorial and response surface methodologies.

Name of subject	SOCIAL AND PREVENTIVE PHARMACY
Subject Code	BP802T
	Upon completion of this course student shall be able to
CO1	Understand the fundamental concepts of health and disease, including public health, prevention, and control of diseases.
CO2	Explain the socio-cultural factors affecting health and the impact of urbanization, poverty, and personal habits on health.
CO3	Apply principles of preventive medicine to control diseases such as malaria, diabetes, and cancer.
CO4	Analyze the objectives, functioning, and outcomes of various national health programs in India.
CO5	Evaluate the effectiveness of national health intervention programs and the role of WHO in these programs.
CO6	Design community health services and health promotion strategies for rural, urban, and school settings.

Name of subject	PHARMACEUTICAL MARKETING
Subject Code	BP803ET
	Upon completion of this course student shall be able to
CO1	Explain the fundamental concepts and scope of marketing, and distinguish between marketing and selling.
CO2	Analyze consumer and industrial buying behavior within the pharmaceutical market.
CO3	Develop product decision strategies, including product life cycle management, branding, and packaging in the pharmaceutical industry.
CO4	Evaluate various promotional methods and determine the optimal promotional mix and budget for pharmaceutical products.
CO5	Design and manage effective pharmaceutical marketing channels, including physical distribution and the role of Professional Sales Representatives.
CO6	Formulate pricing strategies and understand regulatory aspects and emerging marketing concepts in the pharmaceutical industry.

Name of subject	PHARMACEUTICAL REGULATORY SCIENCE
Subject Code	BP804ET
	Upon completion of this course student shall be able to
CO1	Explain the stages of drug discovery and development, including pre-clinical and clinical studies, and the concept of generics and generic drug development.
CO2	Describe the regulatory approval processes and timelines for IND, NDA, and ANDA, including the structure of regulatory authorities in various countries.
CO3	Outline the procedures for exporting pharmaceutical products and preparing technical documentation for international markets.
CO4	Develop clinical trial protocols, manage clinical trials, and understand the ethical and safety monitoring aspects involved in clinical trials.
CO5	Interpret and apply regulatory terminologies, guidance, guidelines, and laws pertinent to the pharmaceutical industry.
CO6	Analyze the various regulatory documents such as the Orange Book, Federal Register, Code of Federal Regulations, and Purple Book.

Name of subject	PHARMACOVIGILANCE
Subject Code	BP805ET
	Upon completion of this course student shall be able to
CO1	Describe the history, development, and importance of pharmacovigilance, including key programs and basic terminologies.
CO2	Explain the classification of drugs and diseases, and describe drug dictionaries and coding systems used in pharmacovigilance.
CO3	Apply the knowledge of establishing pharmacovigilance programs in various settings, including hospitals and industries.
CO4	Analyze the different methods of pharmacovigilance, including passive and active surveillance, and communication strategies in drug safety.
CO5	Evaluate safety data generation processes and apply ICH guidelines in pharmacovigilance studies.
CO6	Assess the impact of pharmacogenomics on adverse drug reactions and understand the differences in global pharmacovigilance requirements.

Name of subject	QUALITY CONTROL AND STANDARDIZATION OF HERBALS
Subject Code	BP806ET
	Upon completion of this course student shall be able to
CO1	Describe basic tests for drugs, pharmaceutical substances, medicinal plant materials, and dosage forms; WHO guidelines for quality control.
CO2	Explain the quality assurance processes in the herbal drug industry, including cGMP, GAP, GMP, and GLP in traditional medicine.
CO3	Apply EU and ICH guidelines for quality control of herbal drugs and research guidelines for evaluating the safety and efficacy of herbal medicines.
CO4	Analyze the stability testing of herbal medicines and application of chromatographic techniques in standardization.
CO5	Evaluate the preparation of documents for new drug applications and export registration, including GMP requirements and Drugs & Cosmetics Act provisions.
CO6	Assess regulatory requirements for herbal medicines, including WHO guidelines on safety monitoring and comparing various Herbal Pharmacopoeias.

Name of subject	COMPUTER AIDED DRUG DESIGN
Subject Code	BP807ET
	Upon completion of this course student shall be able to
CO1	Describe the stages of drug discovery and development, including lead discovery approaches and case studies.
CO2	Explain the principles and methods of molecular modeling and molecular docking in drug design.
CO3	Apply quantitative structure-activity relationship (QSAR) and pharmacophore modeling principles in drug design.
CO4	Analyze the role of informatics and computational methods in drug design, including bioinformatics and cheminformatics.
CO5	Evaluate the application of modern computational tools and techniques in drug design, considering their limitations.
CO6	Assess the societal, ethical, and environmental implications of drug design solutions.

Name of subject	CELL AND MOLECULAR BIOLOGY
Subject Code	BP808ET
	Upon completion of this course student shall be able to
CO1	Understand the basics of cell and molecular biology, including cell structure, function, and reproduction.
CO2	Explain the flow of molecular information through DNA and RNA, including transcription and translation.
CO3	Describe the structure and function of proteins, and their role in cellular processes.
CO4	Analyze the science of genetics, including transgenics, genomic analysis, and cell cycle regulation.
CO5	Apply knowledge of cell signaling pathways, including receptors, signaling molecules, and regulation.
CO6	Evaluate the significance of protein kinases in cell signaling and their role in cellular functioning.

Name of subject	COSMETIC SCIENCE
Subject Code	BP809ET
	Upon completion of this course student shall be able to
CO1	Understand the classification of cosmetic and cosmeceutical products, including their definitions and regulations.
CO2	Analyze the principles of formulation and building blocks of various skincare, haircare, and oral care products.
CO3	Apply knowledge of sun protection, herbal ingredients in cosmetics, and analytical methods for cosmetic evaluation.
CO4	Evaluate the principles of cosmetic evaluation, including the measurement of skin and hair properties.
CO5	Describe the causes and solutions for cosmetic problems associated with skin, hair, and oral care.
CO6	Discuss the mechanism of action and formulation principles of antiperspirants and deodorants.

Name of subject	EXPERIMENTAL PHARMACOLOGY
Subject Code	BP810ET
	Upon completion of this course student shall be able to
CO1	Understand the guidelines for maintenance, breeding, and experiments on laboratory animals.
CO2	Apply techniques for blood collection, euthanasia, and drug administration in laboratory animals.
CO3	Analyze the rationale for selecting animal species and sex for preclinical screening models.
CO4	Evaluate preclinical screening models for various drug activities, including CNS, ANS, and CVS.
CO5	Apply research methodology and biostatistics in preclinical data analysis and interpretation.
CO6	Design preclinical studies, including dose selection, preparation of drug solutions, and study grouping.

Name of subject	ADVANCED INSTRUMENTATION TECHNIQUES
Subject Code	BP811ET
	Upon completion of this course student shall be able to
CO1	Understand the principles, instrumentation, and applications of Nuclear Magnetic Resonance (NMR) spectroscopy.
CO2	Analyze the principles and applications of Mass Spectrometry.
CO3	Describe the principles and techniques of Thermal Methods of Analysis and Electrophoresis.
CO4	Evaluate the principles and applications of X-Ray Diffraction Methods and Calibration of Instruments.
CO5	Apply the principles and techniques of Radioimmunoassay and Extraction techniques.
CO6	Explain the principles and applications of Hyphenated Techniques in analytical chemistry.

Name of subject	DIETARY SUPPLEMENTS AND NUTRACEUTICALS
Subject Code	BP812ET
	Upon completion of this course student shall be able to
CO1	Define and classify Functional foods, Nutraceuticals, and Dietary supplements.
CO2	Explain the health problems and diseases that can be prevented or cured by Nutraceuticals.
CO3	Discuss the sources, chemical nature, and health benefits of specific Nutraceuticals/Functional foods.
CO4	Describe the occurrence, characteristic features, and medicinal benefits of Phytochemicals as nutraceuticals.
CO5	Evaluate the role of dietary fibers, complex carbohydrates, and antioxidants in functional foods.
CO6	Analyze the effects of processing, storage, environmental factors, and regulatory aspects on nutraceuticals.

Name of subject	PROJECT WORK
Subject Code	BP 813 PW
	Upon completion of this course student shall be able to
CO1	Identify and select a project topic based on current trends in Pharmaceutical science.
CO2	Apply appropriate methodologies for conducting the selected project, including lab-oriented or survey-oriented approaches.
CO3	Analyze and interpret the results obtained from the project work.
CO4	Draw substantiated conclusions and outcomes based on the results and discussions of the project.
CO5	Present the project work effectively, demonstrating communication and presentation skills.
CO6	Engage effectively in question and answer sessions, displaying comprehension and depth of understanding.

Course Outcomes M. Pharm. (Pharmaceutics)
Semester-I

Name of subject	MODERN PHARMACEUTICAL ANALYTICAL TECHNIQUES (Theory)
Subject Code	(MPAT101T)
	Upon completion of this course student shall be able to
CO1	Explain the basic principles, theories, and laws of UV-Visible, IR, and fluorescence spectroscopy.
CO2	Analyze the instrumentation and applications of UV-Visible, IR, and fluorescence spectroscopy.
CO3	Describe the principles, instrumentation, and applications of NMR spectroscopy.
CO4	Evaluate the principles, instrumentation, and applications of Mass spectrometry for structure elucidation.
CO5	Compare and contrast various chromatographic techniques and their applications.
CO6	Apply the principles and instrumentation of electrophoresis, X-ray crystallography, and thermal analysis techniques.

Name of subject	DRUG DELIVERY SYSTEM
Subject Code	( MPH 102T)
	Upon completion of this course student shall be able to
CO1	Describe the basic concepts, advantages, and disadvantages of Sustained Release (SR) and Controlled Release (CR) formulations.
CO2	Explain the principles and fundamentals of Rate Controlled Drug Delivery Systems.
CO3	Apply knowledge of Gastro-Retentive and Buccal Drug Delivery Systems to evaluate their mechanisms and formulations.
CO4	Analyze the barriers and methods to overcome them in Ocular Drug Delivery Systems.
CO5	Design transdermal drug delivery systems considering the structure of the skin and penetration enhancers.
CO6	Evaluate the formulation and delivery systems for proteins, peptides, and vaccines.

Name of subject	MODERN PHARMACEUTICS
Subject Code	(MPH 103T)
	Upon completion of this course student shall be able to
CO1	Describe the concepts of preformulation, drug-excipient interactions, and stability testing in pharmaceutical formulations.
CO2	Explain the theories of dispersion and the preparation and stability of pharmaceutical dispersions such as emulsions and suspensions.
CO3	Apply optimization techniques and statistical designs in pharmaceutical formulation and processing.
CO4	Evaluate the scope and guidelines of pharmaceutical validation and perform process validation for a dosage form.
CO5	Analyze the principles and practices of Good Manufacturing Practices (GMP) and industrial management in pharmaceutical production.
CO6	Assess the physics of tablet compression, diffusion, dissolution, and pharmacokinetic parameters in drug formulation.

Name of subject	REGULATORY AFFAIRS
Subject Code	(MPH 104T)
	Upon completion of this course student shall be able to
CO1	Explain the documentation processes in pharmaceutical industry and the regulatory requirements for drug approval.
CO2	Analyze the Hatch-Waxman Act, CFR, and the ANDA and NDA approval processes.
CO3	Evaluate the global regulatory requirements for drug approval in various regions including the EU, MHRA, TGA, and ROW countries.
CO4	Develop clinical trial protocols, including ethical considerations and regulatory compliance.
CO5	Assess the importance of post-marketing surveillance and the role of CROs in BA and BE studies.
CO6	Discuss the regulation of combination products and medical devices, and the CTD and eCTD formats.

Name of subject	PHARMACEUTICS PRACTICALS – I
Subject Code	(MPH 105P)
	Upon completion of this course student shall be able to
CO1	Analyze pharmacopoeial compounds and their formulations by UV-Vis spectrophotometer
CO2	Perform simultaneous estimation of multi-component formulations by UV spectrophotometry
CO3	Execute experiments based on HPLC and interpret the results
CO4	Conduct experiments using Gas Chromatography and analyze the data
CO5	Estimate riboflavin/quinine sulphate by fluorimetry
CO6	Evaluate in-vitro dissolution profiles of CR/SR marketed formulations

Course Outcomes M. Pharm. (Pharmaceutics)
Semester-II

Name of subject	MOLECULAR PHARMACEUTICS (NANO TECHNOLOGY & TARGETED DDS) (NTDS)
Subject Code	(MPH 201T)
	Upon completion of this course student shall be able to
CO1	Define the basic concepts and biological processes involved in targeted drug delivery systems.
CO2	Explain the methods of preparation and evaluation of nanoparticles and liposomes.
CO3	Demonstrate the preparation and evaluation techniques of microcapsules, microspheres, and monoclonal antibodies.
CO4	Analyze the different types of pulmonary drug delivery systems and intra-nasal route delivery systems.
CO5	Evaluate the potential of gene therapy and nucleic acid-based therapeutic delivery systems for various diseases.
CO6	Design a biodistribution and pharmacokinetics study for therapeutic antisense molecules and aptamers.

Name of subject	ADVANCED BIOPHARMACEUTICS & PHARMACOKINETICS
Subject Code	(MPH 202T)
	Upon completion of this course student shall be able to
CO1	Understand the mechanisms of drug absorption from the gastrointestinal tract.
CO2	Analyze the factors affecting drug absorption including pH-partition theory.
CO3	Evaluate the role of different dosage forms in gastrointestinal absorption.
CO4	Apply knowledge of biopharmaceutics in drug product design.
CO5	Compare and contrast in vitro and in vivo drug product performance testing methods.
CO6	Demonstrate understanding of pharmacokinetic principles in designing drug delivery systems.

Name of subject	COMPUTER AIDED DRUG DEVELOPMENT
Subject Code	(MPH 203T)
	Upon completion of this course student shall be able to
CO1	Understand the history of computers in pharmaceutical research and development.
CO2	Apply statistical modeling techniques in pharmaceutical research and development.
CO3	Explain the principles of Quality-by-Design (QbD) in pharmaceutical development.
CO4	Utilize computational modeling techniques in drug disposition.
CO5	Demonstrate proficiency in computer-aided formulation development.
CO6	Evaluate the applications and challenges of artificial intelligence, robotics, and computational fluid dynamics in pharmaceuticals.

Name of subject	COSMETICS AND COSMECEUTICALS
Subject Code	(MPH 204T)
	Upon completion of this course student shall be able to
CO1	Define cosmetic products according to Indian regulations
CO2	Identify regulatory requirements for labeling cosmetics
CO3	Explain the structure of skin and its related problems
CO4	Classify and apply different cosmetic formulation building blocks
CO5	Design cosmeceutical products addressing various skin and oral issues
CO6	Evaluate herbal ingredients used in cosmetics formulations

Name of subject	PHARMACEUTICS PRACTICALS – II
Subject Code	(MPH 205P)
	Upon completion of this course student shall be able to
CO1	To study the effect of temperature change, non-solvent addition, incompatible polymer addition in microcapsules preparation
CO2	Preparation and evaluation of Alginate beads
CO3	Formulation and evaluation of gelatin/albumin microspheres
CO4	Formulation and evaluation of liposomes/niosomes
CO5	Formulation and evaluation of spherules/microparticles
CO6	Improvement of dissolution characteristics of slightly soluble drug by Solid dispersion technique

Course Outcomes M. Pharm. (Pharmaceutical Quality Assurance)
Semester- I

Name of subject	MODERN PHARMACEUTICAL ANALYTICAL TECHNIQUES (Theory)
Subject Code	(MPAT101T)
	Upon completion of this course student shall be able to
CO1	Explain the basic principles, theories, and laws of UV-Visible, IR, and fluorescence spectroscopy.
CO2	Analyze the instrumentation and applications of UV-Visible, IR, and fluorescence spectroscopy.
CO3	Describe the principles, instrumentation, and applications of NMR spectroscopy.
CO4	Evaluate the principles, instrumentation, and applications of Mass spectrometry for structure elucidation.
CO5	Compare and contrast various chromatographic techniques and their applications.
CO6	Apply the principles and instrumentation of electrophoresis, X-ray crystallography, and thermal analysis techniques.

Name of subject	QUALITY MANAGEMENT SYSTEMS
Subject Code	(MQA 102T)
	Upon completion of this course student shall be able to
CO1	Understand the evolution of quality
CO2	Define quality and its dimensions
CO3	Analyze the strategic importance of quality
CO4	Apply principles of Total Quality Management (TQM)
CO5	Evaluate quality management systems and regulations
CO6	Demonstrate statistical process control techniques

Name of subject	QUALITY CONTROL AND QUALITY ASSURANCE
Subject Code	(MQA 103T)
	Upon completion of this course student shall be able to
CO1	Understand the concepts and evolution of Quality Control and Quality Assurance.
CO2	Apply Good Laboratory Practices (GLP) and adhere to regulatory guidelines.
CO3	Analyze and interpret cGMP guidelines and their application in pharmaceutical manufacturing.
CO4	Demonstrate proficiency in documentation procedures in the pharmaceutical industry.
CO5	Evaluate manufacturing operations and controls in accordance with regulatory standards.
CO6	Demonstrate understanding of distribution records and regulatory submission documents.

Name of subject	PRODUCT DEVELOPMENT AND TECHNOLOGY TRANSFER
Subject Code	(MQA 104T)
	Upon completion of this course student shall be able to
CO1	Explain the principles of drug discovery and development.
CO2	Analyze the pre-formulation studies and techniques.
CO3	Demonstrate understanding of pilot plant scale-up processes.
CO4	Evaluate pharmaceutical packaging requirements and materials.
CO5	Apply the concepts of technology transfer in pharmaceutical production.
CO6	Develop documentation for technology transfer in pharmaceutical production.

Name of subject	QUALITY ASSURANCE PRACTICAL – I
Subject Code	(MQA 105P)
	Upon completion of this course student shall be able to
CO1	Analyze Pharmacopoeial compounds using UV Vis spectrophotometer
CO2	Estimate multi-drug formulations using UV spectrophotometry
CO3	Perform experiments based on HPLC
CO4	Perform experiments based on Gas Chromatography
CO5	Estimate compounds using fluorimetry
CO6	Estimate sodium/potassium using flame photometry or AAS

Course Outcomes M. Pharm. (Pharmaceutical Quality Assurance)
Semester- II

Name of subject	HAZARDS AND SAFETY MANAGEMENT
Subject Code	(MQA 201T)
	Upon completion of this course student shall be able to
CO1	Identify different types of environmental hazards based on natural resources and associated problems.
CO2	Analyze the structure and function of ecosystems and their relation to environmental hazards.
CO3	Evaluate various air-based hazards and their control measures in industrial settings.
CO4	Describe sources of chemical hazards, their management, and regulatory aspects.
CO5	Apply knowledge of fire and explosion hazards, prevention, and protection systems in industrial settings.
CO6	Demonstrate understanding of hazard and risk management principles, including self-protective measures and regulatory requirements.

Name of subject	PHARMACEUTICAL VALIDATION
Subject Code	(MQA 202T)
	Upon completion of this course student shall be able to
CO1	Define calibration, qualification, and validation. Explain their scope, frequency, and importance. Differentiate between calibration and validation.
CO2	Describe the advantages of validation, types of validation, and the organization for validation. Outline the validation master plan.
CO3	Demonstrate understanding of user requirement specification, design qualification, and various stages of equipment qualification.
CO4	Analyze the validation of manufacturing equipment and analytical instruments.
CO5	Evaluate the qualification of laboratory equipment and utility systems.
CO6	Apply knowledge of process validation, analytical method validation, cleaning validation, and computerized system validation in pharmaceutical contexts.

Name of subject	AUDITS AND REGULATORY COMPLIANCE
Subject Code	(MQA 203T)
	Upon completion of this course student shall be able to
CO1	Understand the objectives and responsibilities of audit management
CO2	Analyze the planning process and information gathering in audits
CO3	Evaluate classifications of deficiencies in audits
CO4	Apply cGMP regulations and quality assurance functions in pharmaceutical manufacturing
CO5	Assess the roles of quality systems and audits in manufacturing operations
CO6	Demonstrate auditing skills for different departments such as production, microbiological laboratory, and quality assurance

Name of subject	PHARMACEUTICAL MANUFACTURING TECHNOLOGY
Subject Code	(MQA 204T)
	Upon completion of this course student shall be able to
CO1	Describe legal requirements and licenses for API and formulation industry, and analyze factors influencing plant location.
CO2	Explain factors influencing plant layout, including sterile and aseptic area layout, and calculate standard cost in production planning.
CO3	Demonstrate knowledge of production systems, process planning, and production control in pharmaceutical industry.
CO4	Illustrate aseptic process technology and in-process quality control tests for sterile dosage forms.
CO5	Apply advanced sterile product manufacturing technology and process automation in pharmaceutical industry.
CO6	Analyze non-sterile manufacturing process technology and in-process quality control tests for non-sterile solid dosage forms.

Name of subject	QUALITY ASSURANCE PRACTICAL – II PRACTICALS
Subject Code	(MQA 205P)
	Upon completion of this course student shall be able to
CO1	Perform organic contaminants residue analysis by HPLC
CO2	Demonstrate identification of antibiotic residue by TLC
CO3	Estimate Chlorine in Work Environment using appropriate methods
CO4	Conduct sampling and analysis of SO2 using Colorimetric method
CO5	Qualify Pharma equipment (Autoclave, Hot air oven, Powder Mixer, Tablet Compression Machine)
CO6	Validate an analytical method for a drug