POs COs
2.6.1 Programme Outcomes (POs) and Course Outcomes (COs) for all Programmes offered by the institution are stated and displayed on website
PROGRAMME OUTCOMES (POs) for B.Pharmacy
PO1 | Pharmacy Knowledge: Possess knowledge and comprehension of the core and basic knowledge associated with the profession of pharmacy, including biomedical sciences; pharmaceutical sciences; behavioral, social, and administrative pharmacy sciences; and manufacturing practices |
PO2 | Planning Abilities: Demonstrate effective planning abilities including time management, resource management, delegation skills and organizational skills. Develop and implement plans and organize work to meet deadlines. |
PO3 | Problem analysis: Utilize the principles of scientific enquiry, thinking analytically, clearly and critically, while solving problems and making decisions during daily practice. Find, analyze, evaluate and apply information systematically and shall make defensible decisions |
PO4 | Modern tool usage: Learn, select, and apply appropriate methods and procedures, resources, and modern pharmacy-related computing tools with an understanding of the limitations. |
PO5 | Leadership skills: Understand and consider the human reaction to change, motivation issues, leadership and team-building when planning changes required for fulfillment of practice, professional and societal responsibilities. Assume participatory roles as responsible citizens or leadership roles when appropriate to facilitate improvement in health and well-being |
PO6 | Professional Identity: Understand, analyze and communicate the value of their professional roles in society (e.g. health care professionals, promoters of health, educators, managers, employers, employees). |
P07 | Pharmaceutical Ethics:Honour personal values and apply ethical principles in professional and social contexts. Demonstrate behavior that recognizes cultural and personal variability in values, communication and lifestyles. Use ethical frameworks; apply ethical principles while making decisions and take responsibility for the outcomes associated with the decisions. |
PO8 | Communication: Communicate effectively with the pharmacy community and with society at large, such as, being able to comprehend and write effective reports, make effective presentations and documentation, and give and receive clear instructions. |
PO9 | The Pharmacist and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety and legal issues and the consequent responsibilities relevant to the professional pharmacy practice. |
PO10 | Environment and sustainability: Understand the impact of the professional pharmacy solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development |
PO11 | 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. Self-access and use feedback effectively from others to identify learning needs and to satisfy these needs on an ongoing basis. |
Course Outcomes for B. Pharmacy Programme offered by the institution
Upon completion of this course the student should be able to
B.Pharm (1 sem) | Course Code & name | Course Outcome |
BP 101T Human Anatomy and Physiology I (Theory) | CO1: Explain the gross morphology, structure and functions of various organs of the human body CO2: Describe the various homeostatic mechanisms and their imbalances CO3: Identify the various tissues and organs of different systems of human body CO4: Perform the various experiments related to special senses and nervous system CO5: Appreciate coordinated working pattern of different organs of each system | |
BP 102T Pharmaceutical Analysis I (Theory) | CO1: Understand the principles of volumetric and electro chemical analysis CO2: Carryout various volumetric and electrochemical titrations CO3: Develop analytical skills | |
BP103T Pharmaceutics- I (Theory) | CO1: Know the history of profession of pharmacy CO2: Understand the basics of different dosage forms, pharmaceutical incompatibilities and pharmaceutical calculations CO3: Understand the professional way of handling the prescription CO4: Preparation of various conventional dosage forms. | |
BP104T Pharmaceutical Inorganic Chemistry (Theory) | CO1: Know the sources of impurities and methods to determine the impurities in inorganic drugs and pharmaceuticals. CO2: Understand the medicinal and pharmaceutical importance of inorganic compounds | |
BP105T Communication Skills (Theory) | CO1: Understand the behavioral needs for a Pharmacist to function effectively in the areas of pharmaceutical operation CO2: Communicate effectively (Verbal and Non Verbal) CO3: Effectively manage the team as a team player CO4: Develop interview skills CO5: Develop Leadership qualities and essentials | |
BP106RBT Remedial Biology (Theory) | CO1: Know the classification and salient features of five kingdoms of life. CO2: Understand the basic components of anatomy and physiology of plant. CO3: Know understand the basic components of anatomy and physiology animal with special reference to human.
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BP106RMT Remedial Mathematics (Theory) | CO1: Know the theory and their application in Pharmacy CO2: Solve the different types of problems by applying theory CO3: Appreciate the important application of mathematics in Pharmacy | |
BP107P Human Anatomy and Physiology (Practical) | CO1: demonstrate handling of compound microscopes and identify various animal tissues. CO2: determine the characteristics of different bones (skeletal system) CO3: identify the bleeding/clotting time and blood group CO4: estimate the haemoglobin concentration of human blood and blood pressure. CO5: predict the erythrocyte sedimentation rate of human blood and heart rate/ pulse rate. | |
BP108P Pharmaceutical Analysis-I (Practical) | CO1: explain the importance of calibration, calibration of weights, pipette and burette in pharmaceutical analysis. CO2: determine the principle of limit tests for various impurities. CO3: demonstrate Preparation and standardization of solutions with different strengths. CO4: evaluate volumetric analysis such as Acid-base titration, Redox titration, iodometry, complexometric, precipitation, and non-aqueous titration. CO5: analyze the given Compounds along with standardization of titrant. | |
BP109P Pharmaceutics-I (Practical) | CO1: apply the principles used in the preparation of solid, liquid and semi solid dosage forms CO2: experiment with monophasic liquid dosage forms for internal and external administration CO3: evaluate and prepare biphasic liquid dosage forms CO4: demonstrate preparation of powders and granules CO5: explain the methods for preparation of semi solid dosage forms and suppositories. | |
BP110P Pharmaceutical Inorganic Chemistry (Practical) | CO1: analyze the sources of impurities and perform limit test for various impurities. CO2: demonstrate different identification test as per pharmacopeia CO3: explain the different methods for analysis of inorganic compounds. CO4: summarize the pharmaceutical importance of inorganic compounds CO5: evaluate the method of preparation, assay, properties and medicinal uses of inorganic compounds. | |
BP111P Communication Skills (Practical) | CO1: explain the behavioral needs for a pharmacist to function effectively in the areas of pharmaceutical operation CO2: utilize the practical skills for effective communication (Verbal and Nonverbal). CO3: distinguish pronunciation of vowel and consonant sounds CO4: explain about advanced learning on comprehension direct and indirect speech. CO5: develop the interview handling skills | |
BP112P Remedial Biology (Practical) | CO1: explain the concept of handling of microscope and permanent slide preparation techniques. CO2: develop knowledge about the structure of cell and its inclusions. CO3: identify various plant parts, and to organize their modifications CO4: explain about microscopical study and identification of tissues pertinent to stem, root, leaf, seed, fruit and flower. CO5: compile information about the bones their identification, blood group, blood pressure and tidal volume determination | |
B.Pharm (2 sem) |
BP201T Human Anatomy and PhysiologyII (Theory) | CO1: Explain the gross morphology, structure and functions of various organs of the human body. CO2: Describe the various homeostatic mechanisms and their imbalances. CO3: Identify the various tissues and organs of different systems of human body CO4: Perform the hematological tests like blood cell counts, haemoglobin estimation, bleeding/ clotting time etc and also record blood pressure, heart rate, pulse and respiratory volume CO5: Appreciate coordinated working pattern of different organs of each system CO6: Appreciate the interlinked mechanisms in the maintenance of normal functioning (homeostasis) of human body |
BP202T Pharmaceutical Organic Chemistry-I (Theory) | CO1: Write the structure, name and the type of isomerism of the organic compound. CO2: Write the reaction, name the reaction and orientation of reactions. CO3: Account for reactivity/stability of compounds CO4:dentify/confirm the identification of organic compound. | |
BP203T Biochemistry (Theory) | CO1: Understand the catalytic role of enzymes, importance of enzyme inhibitors in design of new drugs, therapeutic and diagnostic applications of enzymes. CO2: Understand the metabolism of nutrient molecules in physiological and pathological conditions CO3: Understand the genetic organization of mammalian genome and functions of DNA in the synthesis of RNAs and proteins. | |
BP204T Pathophysiology (Theory) | CO1: Describe the etiology and pathogenesis of the selected disease states. CO2: Name the signs and symptoms of the diseases CO3: Mention the complications of the diseases. | |
BP205T Computer Applications in Pharmacy (Theory) | CO1: Know the various types of application of computers in pharmacy. CO2: Know the various types of databases CO3: Know the various applications of databases in pharmacy. | |
BP206T Environmental Sciences (Theory) | CO1: Create the awareness about environmental problems among learners. CO2: Impart basic knowledge about the environment and its allied problems. CO3: Develop an attitude of concern for the environment. CO4: Motivate learner to participate in environment protection and environment improvement. CO5: Acquire skills to help the concerned individuals in identifying and solving environmental problems CO6: Strive to attain harmony with Nature. | |
BP207P Human Anatomy and Physiology II (Practical) | CO1: explain coordinating working of organs of various systems with the help of models, charts and specimens CO2: analyze the functions of cranial nerves by various sensory and motor functions. CO3: evaluate temperature and body mass index of human body CO4: analyze tidal volume and vital capacity of given subject. CO5: demonstrate about family planning devices, pregnancy diagnostic tests, tissues of vital organs and gonads. | |
BP208P Pharmaceutical Organic Chemistry-I (Practical) | CO1: explain the qualitative preliminary test for unknown pharmaceutical organic compounds CO2: identify the presence of elements in the pharmaceutical organic compounds CO3: interpret the presence of several functional groups in pharmaceutical organic compounds. CO4: analyze unknown pharmaceutical organic compounds by determining their melting point and boiling point. CO5: characterize the derivatives of organic compounds | |
BP209P Biochemistry (Practical) | CO1: analyze the qualitative behaviour of carbohydrates and proteins CO2: illustrate the preparation and measurement of pH of given buffer solution CO3: identify the amount of reducing sugars by DNSA method and proteins by Biuret method : examine the constituents present in Urine and their clinical significance CO5: elaborate the clinical significance of creatinine, sugar and cholesterol in blood | |
BP210P Computer Applications in Pharmacy (Practical) | CO1: explain about MS Office, MS Word, MS Excel, MS Access and MS Power point CO2: summarize and printing the report from patient database CO3: design a questionnaire using a word processing package to gather information about a particular disease CO4: create HTML web page to show personal information and mailing labels in MS WORD using Label Wizard | |
B.Pharm (3sem) |
BP301T Pharmaceutical Organic Chemistry –II (Theory) | CO1: Write the structure, name and the type of isomerism of the organic compound CO2: Write the reaction, name the reaction and orientation of reactions. CO3: Account for reactivity/stability of compounds CO4: Prepare organic compounds. |
BP302T Physical Pharmaceutics-I (Theory) | CO1: Understand various physicochemical properties of drug molecules in the designing the dosage forms. CO2: Know the principles of chemical kinetics and to use them for stability testing nad determination of expiry date of formulations CO3: Demonstrate use of physicochemical properties in the formulation development and evaluation of dosage forms. | |
BP303T Pharmaceutical Microbiology (Theory) | CO1: Understand methods of identification, cultivation and preservation of various microorganisms. CO2: To understand the importance and implementation of sterilization in pharmaceutical processing and industry Learn sterility testing of pharmaceutical products. CO3: Carried out microbiological standardization of pharmaceuticals CO4: Understand the cell culture technology and its applications in pharmaceutical industries. | |
BP304T Pharmaceutical Engineering (Theory) | CO1: To know various unit operations used in Pharmaceutical industries CO2: To understand the material handling techniques. CO3: To perform various processes involved in pharmaceutical manufacturing process CO4: To carry out various test to prevent environmental pollution CO5: To appreciate and comprehend significance of plant lay out design for optimum use of resources. CO6: To appreciate the various preventive methods used for corrosion control in Pharmaceutical industries. | |
BP305P Pharmaceutical Organic Chemistry –II (Practical) | CO1: demonstrate recrystallization of organic compounds. CO2: compare two immiscible liquids for solubility CO3: explain Synthesis of organic compounds by using different mechanisms CO4: demonstrate use of various laboratory techniques used in handling of glassware. CO5: apply knowledge of different electrophilic aromatic substitutions reactions like bromination, nitration in monosubstituted aromatic compounds. | |
BP306P Physical Pharmaceutics-I (Practical) | CO1: interpret the significance of physicochemical properties in the design of dosage forms CO2: apply Henderson – Hasselbalch equation for interpretation of pKa value of drugs CO3: determine the surface tension of sample liquids by drop count and drop weight methods. CO4: deduct the HLB value and critical micellar concentration of a surfactant. CO5: evaluate the stability constants of complexes by solubility and pH titration methods | |
BP307P Pharmaceutical Microbiology (Practical) | CO1: explain different techniques of sterilization CO2: demonstrate various staining methods – simple, gram staining and acid-fast staining CO3: interpret the results of microbial testing | |
BP308P Pharmaceutical Engineering (Practical) | CO1: explain the concept of radiation and heat transfer. CO2: describe the detailed concept of filtration and centrifugation CO3: examine the crystallization and humidification techniques CO4: estimate moisture content, loss on drying and drying curves for calcium carbonate and starch. | |
B.Pharm (4sem) |
BP401T Pharmaceutical Organic Chemistry – III (Theory) | CO1: Understand the methods of preparation and properties of organic compounds CO2: Explain the stereo chemical aspects of organic compounds and stereo chemical reactions. CO3: Know the medicinal uses and other applications of organic compounds. |
BP402T Medicinal Chemistry – I (Theory) | CO1: Understand the chemistry of drugs with respect to their pharmacological activity CO2: Understand the drug metabolic pathways, adverse effect and therapeutic value of drugs. CO3: Know the Structural Activity Relationship (SAR) of different class of drugs. CO4: Write the chemical synthesis of some drugs. | |
BP403T Physical Pharmaceutics-II (Theory) | CO1: Understand various physicochemical properties of drug molecules in the designing the dosage forms CO2: Know the principles of chemical kinetics and to use them for stability testing and determination of expiry date of formulations CO3: Demonstrate use of physicochemical properties in the formulation development and evaluation of dosage forms. | |
BP404T Pharmacology-I (Theory) | CO1: Understand the pharmacological actions of different categories of drugs. CO2: Explain the mechanism of drug action at organ system/sub cellular/ macromolecular levels CO3: Apply the basic pharmacological knowledge in the prevention and treatment of various diseases CO4: Observe the effect of drugs on animals by simulated experiments. CO5: Appreciate correlation of pharmacology with other bio medical sciences. | |
BP405T Pharmacognosy And Phytochemistry –I (Theory) | CO1: To know the techniques in the cultivation and production of crude drugs. CO2: To know the crude drugs, their uses and chemical nature. CO3: Know the evaluation techniques for the herbal drugs CO4: To carry out the microscopic and morphological evaluation of crude drugs. | |
BP406P Medicinal Chemistry – I (Practical) | CO1: perform the synthesis of various medicinal compounds. CO2: demonstrate assay procedures of selected drugs and medicinal compounds. CO3: illustrate synthesis of drug intermediates. CO4: estimate partition coefficient of drugs. CO5: determine the melting point and recrystallisation of the drugs. | |
BP407P Physical Pharmaceutics-II (Practical) | CO1: choose a good suspending agent for the preparation of a stable suspension. CO2: interpret the shelf life of a given formulation by accelerated stability studies. CO3: make use of derived and flow properties of powders for stable solid formulation. CO4: distinguish the rate constants as per the chemical reaction. CO5: determine the viscosity using Ostwald’s and Brookfield’s viscometer. | |
BP408P Pharmacology-I (Practical) | CO1: apply CPCSEA guidelines for maintaining common laboratory techniques .CO2: identify the different routes of drug administration in animals. CO3: interpret the effects of various drugs on rabbit eye and ciliary motility of frog oesophagus in correlation with human. CO4: analyze the effect of drugs acting as enzyme inducers, skeletal muscle relaxants and affecting locomotor activity in laboratory animals. CO5: evaluate the stereotype and anticatatonic activity of drugs in rats/mice. CO6: predict various screening models for anticonvulsant and anxiolytic activity. | |
BP409P Pharmacognosy And Phytochemistry I (Practical) | CO1: explain the concept of chemical test of herbal drugs. CO2: apply the methodology involved in Lycopodium spore method. CO3: demonstrate significance of extractive values in Pharmacognosy. CO4: examine ash value of different drugs to determine purity. CO5: estimate swelling index & foaming index by using different methods. CO6: select different morphological and microscopical characteristic features of crude drugs. | |
B.Pharm (5sem) |
BP501T Medicinal Chemistry – II (Theory) | CO1: Understand the chemistry of drugs with respect to their pharmacological activity. CO2:Understand the drug metabolic pathways, adverse effect and therapeutic value of drugs. CO3: Know the Structural Activity Relationship of different class of drugs. CO4: Study the chemical synthesis of selected drugs. |
BP502T Industrial Pharmacy-I (Theory) | CO1: Know the various pharmaceutical dosage forms and their manufacturing techniques. CO2: Know various considerations in development of pharmaceutical dosage forms. CO3: Formulate solid, liquid and semisolid dosage forms and evaluate them for their quality. | |
BP503T Pharmacology-II (Theory) | CO1: Understand the mechanism of drug action and its relevance in the treatment of different diseases. CO2: Demonstrate isolation of different organs/tissues from the laboratory animals by simulated experiments. CO3: Demonstrate the various receptor actions using isolated tissue preparation. CO4: Appreciate correlation of pharmacology with related medical sciences | |
BP504T Pharmacognosy and Phytochemistry-II (Theory) | CO1: To know the modern extraction techniques, characterization and identification of the herbal drugs and phytoconstituents. CO2: To understand the preparation and development of herbal formulation. CO3: To understand the herbal drug interactions. CO4:Tocarryout isolation and identification of phytoconstituents. | |
BP505T Pharmaceutical Jurisprudence (Theory) | CO1: The Pharmaceutical legislations and their implications in the development and marketing of pharmaceuticals. CO2:Various Indian pharmaceutical Acts and Laws. CO3:The regulatory authorities and agencies governing the manufacture and sale of pharmaceuticals. CO4: The code of ethics during the pharmaceutical practice | |
BP506P Industrial Pharmacy-I (Practical) | CO1: apply physicochemical properties of drugs to characterize different dosage forms. CO2: formulate and prepare tablets , capsules and cosmetics using established procedures and technology. CO3: analyze stability of tablets by using different quality control tests. CO4: Interpret quality of eye drops and eye ointments. CO5: estimate quality control test on parenteral | |
BP507P Pharmacology-II (Practical) | CO1: summarize importance of physiological salt solutions and the effect of various drugs on isolated frog heart, blood pressure and heart rate of dog. CO2: illustrate the diuretic activity of drugs in mice/rats. CO3: identify the dose response relationship, effect of drugs on DRC and drug concentrations by various bioassay methods using animal simulator software. CO4: categorize the PA2 and PD2 value of drugs using rat anococcygeal muscle and guinea pig ileum. CO5: interpret the effect of spasmogens and spasmolytics using rabbit jejunum. CO6: explain various screening models for analgesic and anti- inflammatory. | |
BP508P Pharmacognosy and Phytochemistry-II (Practical) | CO1: analyze the wide variety of the crude drugs and their sources by Chemical test. CO2: explain the concept of TLC of crude drugs. CO3: evaluate the powdered crude drug samples by morphological and microscopical characteristics, histological characterization. CO4: predict the crude drug by performing chromatographic techniques. CO5: examine Isolation & Detection of active components from herbal drugs. | |
B.Pharm (6sem) |
BP601T Medicinal Chemistry – III (Theory) | CO1: Understand the importance of drug design and different techniques of drug design. CO2: Understand the chemistry of drugs with respect to their biological activity. CO3: Know the metabolism, adverse effects and therapeutic value of drugs. CO4: Know the importance of SAR of drugs. |
BP602T Pharmacology –III (Theory) | CO1: Understand the mechanism of drug action and its relevance in the treatment of different infectious diseases. CO2:Comprehend the principles of toxicology and treatment of various poisonings. CO3:Appreciate correlation of pharmacology with related medical sciences | |
BP603T Herbal Drug Technology (Theory) | CO1: Understand raw material as source of herbal drugs from cultivation to herbal drug product. CO2: Know the WHO and ICH guidelines for evaluation of herbal drugs. CO3. Know the herbal cosmetics, natural sweeteners, and nutraceuticals. CO4. Appreciate patenting of herbal drugs, GMP | |
BP604T Biopharmaceutics& Pharmacokinetics (Theory) | CO1.Understand the basic concepts in biopharmaceutics and pharmacokinetics and their significance. CO2. Use of plasma drug concentration-time data to calculate the pharmacokinetic parameters to describe the kinetics of drug absorption, distribution, metabolism, excretion, elimination. CO3. To understand the concepts of bioavailability and bioequivalence of drug products and their significance. CO4. Understand various pharmacokinetic parameters, their significance & applications. | |
BP605T Pharmaceutical Biotechnology (Theory) | CO1: Understanding the importance of Immobilized enzymes in Pharmaceutical Industries. CO2: Genetic engineering applications in relation to production of pharmaceuticals. CO3: Importance of Monoclonal antibodies in Industries. CO4: Appreciate the use of microorganisms in fermentation technology. | |
BP606T Quality Assurance (Theory) | CO1: Understand the cGMP aspects in a pharmaceutical industry. CO2:Appreciate the importance of documentation. CO3:Understand the scope of quality certifications applicable to pharmaceutical industries. CO4: Understand the responsibilities of QA & QC departments. | |
BP607P Medicinal Chemistry – III (Practical) | CO1: elaborate reaction mechanisms involved in synthesis of medicinally important organic compound. CO2: synthesize medicinally important organic compounds using microwave assisted organic synthesis CO3: determine the molar refractivity of compounds. CO4: explain the method for assay of drugs by quantitative analysis | |
BP608P Pharmacology –III (Practical) | CO1: prepare doses for animals’ studies and stock solution CO2: explain various guidelines involved in ethical research CO3: build knowledge regarding the animal models involved in various diseases CO4: analysis of results in animal experiments by using biostatistics CO5: apply the method for pyrogen testing in rabbits. | |
BP609P Herbal Drug Technology (Practical) | CO1: classify different preliminary phytochemical screening of crude drugs. CO2: evaluate the various herbal formulations by using different test. CO3: apply monographic analysis of herbal drugs as per pharmacopoeias. CO4: compare parameters such as aldehyde and phenol contents. CO5: measure the total alkaloid content in leaves. | |
B.Pharm (7sem) |
BP701T Instrumental Methods Of Analysis (Theory) | CO1: Understand the interaction of matter with electromagnetic radiations and its applications in drug analysis CO2: Understand the chromatographic separation and analysis of drugs. CO3: Perform quantitative & qualitative analysis of drugs using various analytical instruments. |
BP702T Industrial Pharmacy-II (Theory) | CO1: Know the process of pilot plant and scale up of pharmaceutical dosage forms. CO2: Understand the process of technology transfer from lab scale to commercial batch. CO3: Know different Laws and Acts that regulate pharmaceutical industry. CO4: Understand the approval process and regulatory requirements for drug products. | |
BP703T Pharmacy Practice (Theory) | CO1: Know various drug distribution methods in a hospital. CO2: Appreciate the pharmacy stores management and inventory control. CO3: Monitor drug therapy of patient through medication chart review and clinical review. CO4: Obtain medication history interview and counsel the patients. CO5: Identify drug related problems. CO6: Detect and assess adverse drug reactions. CO7: Do patient counselling in community pharmacy. | |
BP704T Novel Drug Delivery Systems (Theory) | CO1: To understand various approaches for development of novel drug delivery systems. CO2: To understand the criteria for selection of drugs and polymers for the development of Novel drug delivery systems, their formulation and evaluation | |
BP705P Instrumental Methods Of Analysis (Practical) | CO1: demonstrate various chromatographic separation techniques for analysis of drugs. CO2: interpret UV and IR spectra of given compounds. CO3: estimate drugs in analytical chemistry. CO4: evaluate different drug samples by UV-visible spectrophotometer and HPLC. CO5: apply various types of analytical techniques in drug detection . | |
BP706PS Practice School | CO1: explain the importance of realistic learning through practice in various domains such as community pharmacy, drug testing and manufacturing, preclinical testing, clinical practice, patent filing, etc. CO2: improve knowledge and skills related to practical learning in the domain of interest. CO3: make use of theoretical knowledge to resolve the problems encountered during realistic practice. CO4: explain concepts of hospitals, hospital organization, their functioning, various drug distribution methods in a hospital and role of hospital pharmacist. | |
B.Pharm (8sem) |
BP801T Biostatistics & Research Methodology | CO1: Know the operation of M.S. Excel, SPSS, R and MINITAB® , DoE (Design of Experiment). CO2: Know the various statistical techniques to solve statistical problems. CO3: Appreciate statistical techniques in solving the problems |
BP802T Social & Preventive Pharmacy | CO1:Acquirehigh consciousness/realization of current issues related to health and pharmaceutical problems within the country and worldwide. CO2: Have a critical way of thinking based on current healthcare development. CO3: Evaluate alternative ways of solving problems related to health and pharmaceutical issues. | |
BP803ET Pharma Marketing Management | CO1: The course aims to provide an understanding of marketing concepts and techniques and their applications in the pharmaceutical industry | |
BP804ET Pharmaceutical Regulatory Science | CO1: Know about the process of drug discovery and development CO2: Know the regulatory authorities and agencies governing the manufacture and sale of pharmaceuticals CO3: Know the regulatory approval process and their registration in Indian and international markets | |
BP805ET Pharmacovigilance | CO1: identify the adverse drug reactions, and basic terminologies in pharmacovigilance. CO2: summarize the use of various drug disease classifications, drug dictionaries and drug information resources in pharmacovigilance. CO3: explain various methods of pharmacovigilance and communication process during ADR reporting. CO4: appraise safety data generation and ICH guidelines in pharmacovigilance. | |
BP806ET Quality Control & Standardization Of Herbals | CO1: Know WHO guidelines for quality control of herbal drugs. CO2: Know Quality assurance in herbal drug industry. CO3: Know the regulatory approval process and their registration in Indian and international markets. CO4: Appreciate EU and ICH guidelines for quality control of herbal drugs | |
BP807ET Computer Aided Drug Design | CO1: Design and discovery of lead molecules. CO2: The role of drug design in drug discovery process. CO3: The concept of QSAR and docking. CO4: Various strategies to develop new drug like molecules. CO5: The design of new drug molecules using molecular modeling software. | |
BP808ET Cell And Molecular Biology | CO1: Summarize cell and molecular biology history. CO2: Summarize cellular functioning and composition. CO3: Describe the chemical foundations of cell biology. CO4: Summarize the DNA properties of cell biology. CO5: Describe protein structure and function. | |
BP809ET Cosmetic Science | CO1: describe he evolution, types and applications of cosmetic products CO2: explain he principle and formulations aspects of skin and hair care products CO3: illustrate the benefits of herbal cosmetics CO4: make use of analytical methods for the evalution of cosmetic products CO5: elaborate he mechanism of action and problems of cosmetic products | |
BP810ET Experimental Pharmacology | CO1: Appreciate the applications of various commonly used laboratory animals. CO2: Appreciate and demonstrate the various screening methods used in preclinical research. CO3: Appreciate and demonstrate the importance of biostatistics and research methodology. CO4: Design and execute a research hypothesis independently | |
BP811ET Advanced Instrumentation Techniques | CO1: Understand the advanced instruments used and its applications in drug analysis. CO2: Understand the chromatographic separation and analysis of drugs. CO3: Understand the calibration of various analytical instruments CO4: Know analysis of drugs using various analytical instruments. | |
BP812ET Dietary Supplements &Nutraceuticals | CO1: Understand the need of supplements by the different group of people to maintain healthy life. CO2: Understand the outcome of deficiencies in dietary supplements. CO3: Appreciate the components in dietary supplements and the application. CO4: Appreciate the regulatory and commercial aspects of dietary supplements including health claims |