DUCP

This course aims students to acquire the skill of presentation and discussion in English. 

This course will cover the methods to design various research fields and apply the statistical analysis.

This course consists of lectures given by faculty members, visiting scholars, and graduate students, followed by discussion that will cover the latest trends in research and pharmacy.

A continuation of Advanced Pharmacy 1 course, lectures will be given by faculty members, visiting scholars, and graduate students. They will be followed by discussions covering the latest trends and advances in research.

This lecture is open as a common elective course for students in the Master's and Ph.D. courses. Students will learn classification, breeding and quality control of experimental animals commonly utilized in the pharmacy research. Emphasis will be placed on the development and application of experimental animal models representing particular diseases.

This lecture is open as a common elective course for students in the Master's and Ph.D. courses. This course will provide various research techniques and methods frequently utilized in the pharmacy research. Students will develop capability to apply experimental basic knowledge to the related research field.

Overview of the current drug targets and pharmacological classes of therapeutic agents.

Overview of the current drug targets and pharmacological classes of therapeutic agents. 

This course is designed to expose graduate students to an integrated approach in drug discovery, which leads to optimization of physico-chemical properties of drug candidates.

This course is designed to expose graduate students to an integrated approach in drug discovery, which leads to optimization of physico-chemical properties of drug candidates.

Students will develop the knowledge of R&D processes for new chemical drug, including lead discovery and optimization process.

Students will develop the knowledge of R&D processes for new chemical drug, including lead discovery and optimization process.

Overview of anti-infective agents with focus on antiviral and antibacterial agents 

Overview of anti-infective agents with focus on antiviral and antibacterial agents 

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in medicinal chemistry and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in medicinal chemistry and learn how to write dissertation and research papers.

To achieve the general knowledge of the unit reactions in advanced organic chemistry for the development of new drugs, the synthetic pathways of pharmaceuticals including the Global Top 100 and their Structure-Activity Relationship (SAR) will be lectured.

To improve the widespread knowledge and ability on the synthesis and Structure-Activity Relationship for development of new drugs and the registered ones in KP, lectures and discussions about the advanced unit reactions will be provided to get the qualifications as a pharmacist.

Introduction to the methodology for the two or three dimensional stereochemistry of molecules including their properties.

Application of informations acquired from Advanced Stereochemistry 1 to the identification and the synthetic methodology of the stereochemicals.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in advanced medicinal & process chemistry and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D.. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in advanced medicinal & process chemistry and learn how to write dissertation and research papers.

In this course, we will examine the fundamental features of living systems, the molecules that impart these features, and their chemical properties for their biological roles to help students to achieve the basis for an understanding of the molecules of life, the cell, diseases, and medicines.

In this course, we will examine the potential applications of the concepts covered in Advanced Synthetic Biologics 1 for the development of novel classes of drugs that mimic the molecules in biological system.

This course is provided for students in the Master or Ph.D. course majoring medicinal chemistry. Students will be guided to fulfill thesis research for Master or Ph.D. degree in advanced synthetic biologics and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course majoring medicinal chemistry. Students will be guided to fulfill thesis research for Master or Ph.D. degree in advanced synthetic biologics and learn how to write dissertation and research papers.

The organic chemistry of drug design and drug action I

The organic chemistry of drug design and drug action Ⅱ

This course is designed to deliver general and deep knowledge including isolation, structure elucidation, and pharmacological evaluation.

This course will cover an in-depth discussion of recent advances in our knowledge of plant and animal materials with biological properties of interest to pharmaceutical scientists.

This class will cover biosynthetic pathways of natural products.

This course covers all aspects of natural products as pharmaceuticals including both plant-derived and microbial-derived. In addition, the case study for drug development from natural products will help the entire process of drug discovery and development.

This course provides basic theories and applications of spectroscopic instruments, and how to interpret spectroscopic data for structure elucidation. 

This course provides advanced applications of spectroscopic instruments, and chemical modification for structure elucidation.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in  pharmacognosy and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D.. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in  pharmacognosy and learn how to write dissertation and research papers.

This course is for the development of physical, chemical, and mathematical models for applications to various theories of compound separations. Emphasis will be placed on the theory of chemical equilibrium in terms of pharmaceutical analysis as well as ionic equilibrium, complex-forming reactions, solvent extraction processes, and all chromatographic applications.

This class will deal with the state of the art technology in the analytical chemistry field.

Recent advances and applications in spectroscopy are discussed.

This course is provided for students in the Master's or Ph.D. courses. On completing this course, students will: 1) be able to understand the charecteristics of natural products 2) understand how pharmacokinetics will be applied in natural product drug development. 3) be able to calculate the basic pharmacokinetic parameters of natural products. 4) be able to investigate the interaction between natural products and drugs

This course is provided for students in the Master's or Ph.D. courses. On completing this course, students will be able to understand 1) the absorption of natural products 2) Metabolomics-based approach for the metabolism of natural products 3) changes of ADME　in natural products

This course is open for students in the Master's or Ph.D. course. Students will learn basic principles of pharmacology and actions, action mechanisms and unwanted side effects of drugs. In addition, students will acquire recent information and research trends through discussion of leading scientific journals in the fields of basic and applied pharmacology.

This course is open for students in the Master's or Ph.D. course. Students will learn pharmacological theories and research techniques in the fields of pharmacokinetics and pharmacodynamics through presentations and discussions of reviews and original articles published in the leading scientific journals.

This course is open for students in the Master's or Ph.D. course. Students will learn basic and advanced knowledge to understand actions and action mechanisms of various drugs acting at the nervous system through recent research articles, references, and textbooks.

This course is provided for students in the Master's or Ph.D. course. Students will learn basic and advanced knowledge to understand actions and action mechanisms of various drugs acting at the nervous system through recent research articles, references, and textbooks.

Recent advances and applications in drug therapy will be discussed. Emphasis will be placed on the drug therapy to maximize drug efficacy with minimum unwanted side effects to treat particular diseases.

Recent advances and applications in drug therapy will be discussed. Emphasis will be placed on the drug therapy to maximize drug efficacy with minimum unwanted side effects to treat particular diseases.

This course is provided for students in the Master's or Ph.D. course. Students will learn structure, distribution, function of various types of receptors and their regulation of activity through endogenous substances and drugs.

This course is provided for students in the Master's or Ph.D. course. Recent advances and applications in molecular pharmacology will be discussed.

This course is provided for students in the Master's or Ph.D. courses. On completing this course, students will: 1) be able to calculate the basic pharmacokinetic parameters from clinical data. 2) be able to use basic pharmacokinetic parameters to calculate practical dosage regimens 3) be able to calculate and/or describe the effects of various abnormal clinical conditions and/or drug interactions on the parameters

This course is provided for students in the Master's or Ph.D. courses. On completing this course, students will:

This course is provided for students in the Master's or Ph.D. course. Students will learn synthesis, storage, release, distribution, actions and regulations of various types of neurotransmitters. They will also learn current research trends and advanced experimental technology in this field through recent research articles, references, and textbooks. 

In this course, students will learn and discuss the role of pharmacogenomics in relation to wide interindividual variation of drug disposition and to the possible contribution to the personalized pharmacotherapy.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master degree in neuropharmacology and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in neuropharmacology and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in pharmacokinetics and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in pharmacokinetics and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in  pharmacogenomics and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in  pharmacogenomics and learn how to write dissertation and research papers.

This course is provided for students in the Master's or Ph.D. courses. On completing this course, students will: 1) be able to calculate the basic pharmacokinetic parameters from clinical data. 2) be able to use basic pharmacokinetic parameters to calculate practical dosage regimens 3) be able to calculate and/or describe the effects of various abnormal clinical conditions and/or drug interactions on the parameters

This course is provided for students in the Master's or Ph.D. courses. On completing this course, students will: 1) be able to calculate the basic pharmacokinetic parameters from clinical data. 2) be able to use basic pharmacokinetic parameters to calculate practical dosage regimens 3) be able to calculate and/or describe the effects of various abnormal clinical conditions and/or drug interactions on the parameters

Study how to design and accomplish the in vitro and in vivo experimental tools for the pharmacokinetic investigation in prelinical and clinical levels. Also learn the statistic concepts and program related to the pharmacokinetic fields.

Study how to design and accomplish the in vitro and in vivo experimental tools for the pharmacokinetic investigation in prelinical and clinical levels. Also learn the statistic concepts and program related to the pharmacokinetic fields.

Study the enzyme kinetics and metabolic pathways to identify the metabolite identification in in vitro and in vivo levels.

Study the enzyme kinetics and metabolic pathways to identify the metabolite identification in in vitro and in vivo levels.

With this lecture, you will acquire the ability to understand research articles on the drug therapies in cardiovascular, respiratory, and gastrointestinal diseases.

With this lecture, you will acquire the ability to understand research articles on the drug therapies in psychological/neurological, endocrinological, musculoskeletal, and renal diseases.

With this lecture, you will understand some examples of drug interactions affecting the pharmacokinetics and/or pharmacodynamics and their clinical implications in various diseases.

This course is intended to render students understand biochemical processes, constituting biochemical processes of life and, based on this proposition, current accomplishment of life science and prospective direction of future scientific progression will be introduced.

This course is intended to render students understand biochemical processes, constituting biochemical processes of life and, based on this proposition, current accomplishment of life science and prospective direction of future scientific progression will be introduced.

We are aimed to illustrate how basic biological molecules, such as nucleic acid, protein, lipid, and carbohydrates are constituted and structurally exert their biological effects in the molecular levels, as well as how dysregulation of these elements brings about pathogenesis in our body

Since genome sequence of many organisms are complete and the protein structures are compiled in the public database, we will learn the bioinformatics, e.g. a novel discipline to retrieve and utilize these information already stored in the public database that need to be easily accessed to students.

In the present course, we will introduce the molecular mechanisms, underlying etiology, carcinogenesis, and the pathological states of individual stages. In addition, conventional chemotherapeutic drugs and putative anti-carcinogenic agnets, developed utilizing novel mechanisms of actions as well as molecular biology techniques are introduced.

Advanced endocrinology is concerned with the study of the biosynthesis, storage, chemistry, and physiological function of hormones and with the cells of the endocrine glands and tissues that secrete them

In the present course, we will introduce the developmental aspects of hair, hair cycle, trait of hair and relating diseases. In addition, conventional drugs for hair relating disease and progress in new drug delopment are introduced.

In this course, we will introduce several pathways and player proteins of intracellular signal transduction regulating diverse biological events. 

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D degree in  biochemistry and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in  biochemistry and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in  biochemistry and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D. degree in  biochemistry and learn how to write dissertation and research papers.

This course provided an understanding of basic physiological function of nervous system.  It also emphasized the way that nervous system is organized and interrelated to properly function in the brain. It also cover the molecular mechanism of neuronal signal transmission based on neurophysiology. 

This course provided an in-depth understanding of higher function of nervous system.  It also emphasized the  molecular and structural view of mechanism of  neurological disease.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D degree in  biochemistry and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D. course. Students will be guided to fulfill thesis research for Master or Ph.D degree in  biochemistry and learn how to write dissertation and research papers.

This course aim to learn anatomy of human organs and understand the functional significance in human body. It eventually leads students to understand the logic of homeostasis of our body system.

Learn the characteristics of human diseases based on physiology and molecular and cellular mechanisms. Especially select serious disease in Korea and introduce them to better understand them.

Learn the characteristics and pathogenesis of higher neurologic disorder and understand current trends in related research.

The latest findings and progress in microorganisms associated with the production of pharmaceuticals will be discussed in this course.

The latest findings and progress in microorganisms associated with the production of pharmaceuticals will be discussed in this course.

Recent advances and applications in immunology are discussed.

Recent advances and applications in immunology and its diseases are discussed.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

This lecture is focused on the principles and concepts for preformulation and formulation to maximize the pharmacological efficacy as well as to decrease the undesirable side effects.

This lecture is focused on the multiple factors to be considered in the formulation development as well as their pharmaceutical application to optimize the therapeutic efficacy as well as to improve the patient’s compliance.

This course will be focused on understanding the impact of biological factors, physicochemical factors and formulation factors on the absorption, distribution, metabolism and excretion of drugs.

This lecture is focused on the advanced knowledge and technology for the development of target selective drug delivery systems to optimize the therapeutic outcomes. It will also introduce some case studies for the contemporary drug delivery systems commercially available.

This course will deal with the principles and practices of the unit operation and characteristics of equipments used in pharmaceutical unit processes. 

This course will be focused on understanding the physiology of skin and hairs and also cover the chemical composition and preparation methods, application and safety evaluation of various cosmetics.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

This lecture is focused on the multiple factors to be considered in the formulation development as well as their pharmaceutical application to optimize the therapeutic efficacy as well as to improve the patient’s compliance.

This course will cover the theories of solutions, kinetics, surface phenomena, rheology, and fundamental principles of new drug design and evaluation. 

This course will cover the various methodology adopted in the structural elucidation of proteins and nucleic acids. Particularly, it will be focused on the principles and technical information required for the NMR analysis of endogenous compounds.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

This course aims students to understand the structure and function of proteins and enzymes and to learn the recent approaches of structure-based drug discovery. 

This course will provide backgrounds on the pharmaceutical rate kinetics focusing on formulation development point of view. Physicochemical properties of compounds, effects of environmental changes such as pH, temperature, and ionic strengths will be the typical topics of the course. 

This course will provide detailed information on how to prepare sterile products focusing on injections. Moreover, analytical methods, evaluation, and development process of the sterile products will be introduced together with theoretical backgrounds.

This course is provided for students in the Master and Ph.D. course. Students will be guided to fulfill thesis research for Master and Ph.D. degree in pharmaceutical engineering and learn how to write dissertation and research papers.

This course is provided for students in the Master and Ph.D. course. Students will be guided to fulfill thesis research for Master and Ph.D. degree in pharmaceutical engineering and learn how to write dissertation and research papers.

This course will provide theoretical backgrounds especially on the physicochemical issues for the product development including solid state properties, process issues during the formulation development, and material properties affecting physical changes in the final dosage forms.

This course will review the latest literature on hygienic chemistry, with an emphasis on the disposition of xenobiotics, toxic mechanism, and biological self-defense mechanism.

This course will review the latest literature on hygienic chemistry, with an emphasis on the disposition of toxic compounds, toxic mechanism, and biological self-defense mechanism.

In the course of molecular toxicology, students are learning about the toxicology of xenobiotics in the molecular level. In this course metabolic activation (biotransformation) of xenobiotics, interaction of xenobiotics with genes, gene expression and signal transduction as well as the health effects caused by the series of the events.

In this course, students will survey and conduct experiments on the current state of environmental elements such as air, water, and earth as well as the physical and chemical substances in these elements.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

The purpose of this course is to introduce the pharmacy students, in an organized way, to the most vital, dynamic, challenging, and rewarding of the health professions and the health sciences. 

This course focuses on issues related to the practice of pharmacy and issues related to the pharmaceutical industry

The pharmaceutical industry have played an important role in the intellectual industry of modern society. This course introduces various topics in economics of pharmaceutical industry, including market structure, R&D, regulation, and economic impact of pharmaceuticals. Students will understand policy issues pertaining to the pharmaceutical sectors, together with evaluations of the industry performance.  

Historical development of the profession, its growth and development, emphasizing forces of education, professionalization, attitude modification and changes occurring as a product of legal and organizational forces in society. This course is for the Drug Researcher, Clinical Pharmacist and Drug Policy Maker in the future.

This course provides students with the current state-of-the-art in valuing of pharmaceuticals. Pharmacoeconomics is widely applied in the area of pharmaceutical industry and policy-making decision. After this course, student will be able to understand the identification, valuation, and synthesis of costs and benefits of drug treatments. 

This lectures covers the methodology for the research in the social and administrative pharmacy.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

This course is provided for students in the Master or Ph.D course. Students will be guided to fulfill thesis research for Master or Ph.D degree in medical immunonology and learn how to write dissertation and research papers.

This course will provide the following topics in the laws.

This course will provide the following topics in the laws.

Contemporary issues and research problems in sociobehavioral pharmacy, pharmacoeconomics and policy, and clinical research.

Contemporary issues and research problems in sociobehavioral pharmacy, pharmacoeconomics and policy, and clinical research.

With an understanding basic Toxicology, advanced organ-specific toxicology will be delivered with an emphasis on cardiovascular system.  Topics include pathophysiology of circulation system, the cardiovascular effect of xenobiotics, and current advances in cardiovascular toxicology.

Lecture isforprovidinganintroductoryoverviewofthemothods in toxicologycoveringthebasicprinciples and their practical application to research work.  Additionally, current advances in methodological issues will be covered to follow the trend of state-of-the-art technology.

This course covers health insurance products and managed care approaches to the financing and delivery of healthcare services.