For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| PHR5275 | Toxicology Seminar | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| This course introduces the toxic mechanisms of small-molecule and biopharmaceuticals and acquires knowledge about drug toxicity. In addition, recent research trends on drug toxicity are identified and educated. | |||||||||
| PHR5276 | Special Topics in Neuroscience | 3 | 6 | Major | Master/Doctor | Pharmacy | Korean | Yes | |
| Neuroscience is the scientific study on the nervous system. Many neuropharmacological drugs use as tools to form a better understanding of normal nervous systems. Advanced neuroscience 1 course will provide an understanding of function and anatomy in the nervous system. Also students will study the information about drugs and their mechanism of psychiatric and neurologic disorders. | |||||||||
| PHR5277 | Special Topics in Pharmacogenomics | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| Pharmacogenomics is the study of genetically determined, interindividual differences in therapeutic response to druge and susceptibility to adverse effects. The principal objective of pharmacogenomics is to identify and categorize the genetic factors that underlie these differences and to apply these observations in the clinic. | |||||||||
| PHR5278 | Data Analytics for Organo-Pharmacognosy 1 | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| This course focus on data analysis information of the organic chemistry/synthetic compounds and pharmacognosy/natural products, and its applications in drug discovery. This course will also study the analysis and utilization of various information generated through discovery or development of organic chemistry and natural products / biopharmaceuticals. | |||||||||
| PHR5279 | Data Analytics for Organo-Pharmacognosy 2 | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| This course focus on data analysis information of the organic chemistry/synthetic compounds and pharmacognosy/natural products, and its applications in drug discovery. This course will also study the analysis and utilization of various information generated through discovery or development of organic chemistry and natural products / biopharmaceuticals. | |||||||||
| PHR5280 | Informatics of Biological Defense Technology 1 | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| It aims to study new life phenomena and bio-defense mechanisms using bioinformatics based on large-scale genome. This course will help students understand how artificial intelligence and deep learning technology are used to analyze life phenomena and defense mechanisms, and to educate them on how to process and apply the genome big data including next generation sequecing (NGS). | |||||||||
| PHR5281 | Informatics of Biological Defense Technology 2 | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| It aims to study new life phenomena and bio-defense mechanisms using bioinformatics based on large-scale genome. This course will help students understand how artificial intelligence and deep learning technology are used to analyze life phenomena and defense mechanisms, and to educate them on how to process and apply the genome big data including next generation sequecing (NGS). | |||||||||
| PHR5282 | Information Analytics for Disease Therapeutics 1 | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| Predictive Toxicology aims to explore the potential to achieve the most important specific goals in the field to reliably predict human toxicity. In this field, predictive toxicology refers to new approaches capable of revolutionizing toxicology based on scientific advances in the molecular, cellular and computational sciences. Predictive Toxicology focuses primarily on systems derived from humans and human effects, animal systems may be helpful in achieving this goal. Modern toxicology is a typical translational science and the goal of Predictive Toxicology is to contribute to the goal of transforming toxicology testing from primarily observational science into a truly predictive science for the benefit of drug development, chemical risk assessment, and food safety. | |||||||||
| PHR5283 | Information Analytics for Disease Therapeutics 2 | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| Predictive Toxicology aims to explore the potential to achieve the most important specific goals in the field to reliably predict human toxicity. In this field, predictive toxicology refers to new approaches capable of revolutionizing toxicology based on scientific advances in the molecular, cellular and computational sciences. Predictive Toxicology focuses primarily on systems derived from humans and human effects, animal systems may be helpful in achieving this goal. Modern toxicology is a typical translational science and the goal of Predictive Toxicology is to contribute to the goal of transforming toxicology testing from primarily observational science into a truly predictive science for the benefit of drug development, chemical risk assessment, and food safety. | |||||||||
| PHR5284 | Data Analytics for Pharmaceutical Science 1 | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| Training on various methods to predict drug kinetic system using big data of stability and physical properties of verious drugs. In addition, this course will provide training on the analysis of big-data of biological structures and properties of various drug delivery systems to develop new method for effective drug delivery, and the development of new formulations, delivery system modeling. | |||||||||
| PHR5285 | Data Analytics for Pharmaceutical Science 2 | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| Training on various methods to predict drug kinetic system using big data of stability and physical properties of verious drugs. In addition, this course will provide training on the analysis of big-data of biological structures and properties of various drug delivery systems to develop new method for effective drug delivery, and the development of new formulations, delivery system modeling. | |||||||||
| PHR5286 | The Biology of Cancer | 3 | 6 | Major | Master/Doctor | Pharmacy | Korean | Yes | |
| Cancer accounts for more than 30% of the causes of death wolrdwide, and its types and causes vary, making it a top priority in future pharmacal research fields. As analysis techniques at the level of genes or proteins led by Single Cell RNAseq have recently become possible, early diagnosis and treatment are becoming possible depending on the type of cancer. However, the vast majority of cancers are still difficult to treat and have significant unmet medical needs. Therefore, this course aims to train future prospective pharmacal researchers with different majors to contribute to the eradication of cancer, mankind's largest disease, by analyzing and understanding cancer in various ways, including molecular biology and pathophysiology. Students who have completed this course may acquire basic knowledge of all fields of tumor biology for cancer prevention and treatment, etc., and cultivate their ability to utilize it for the research of each detailed major. Specifically, in this course, we will learn a wide range of cancer characteristics, differences from normal cells, causes of cancer, pathophysiological mechanisms in the carcinogenesis process, functions of tumor genes and carcinogenic genes, history of anticancer drugs, cancer treatment and prevention strategies. | |||||||||
| PHR5287 | Synthetic Biology | 3 | 6 | Major | Master/Doctor | Pharmacy | - | No | |
| Synthetic biology is a multidisciplinary research area to build (or create) novel biological system to produce medically important materials. This course will cover key subjects for synthetic biology including (1) introduction of synthetic biology, (2) recent development in related technologies, (3) designing new pathways (or circuit) to produce materials of interest in a vehicle organisms. During the course, students will be involved in self-problem solving projects, and also student will have 1~3 chance to taking lecturers by invited speakers who are working professionals in the field of research. To encourage students, the course will also provide 1~2 flipped classes during this semester. | |||||||||
| PHR5288 | Pharmaceutical industry and Intellectual Property management | 1 | 2 | Major | Master/Doctor | Pharmacy | Korean | Yes | |
| ntellectual property management and strategy in the pharmaceutical/bio industry are becoming increasingly important. The goal of intellectual property rights management is to quickly identify the value of intellectual property rights using all available legal means, such as patent rights, trade secrets, copyrights, trademark rights, and contract law, and to maximize their value by strategically protecting them. This course covers the concept of intellectual property rights (patents, trade secrets, copyrights and trademarks) centered on patents in the process of drug R&D and product development, prior art search, the application and registration process. Based on this, the procedure for filing an Invention Disclosure Form, procedures for maintaining trade secret confidentiality and proprietary information will be covered. This lecture consists of introduction of core theory and lecture and practice on intellectual property rights. | |||||||||
| PHR5289 | Advanced Pharmaceutical Chemistry | 3 | 6 | Major | Master/Doctor | 1-4 | Pharmacy | English | Yes |
| Provides the core basic knowledge of organic chemistry necessary for graduate programs, introduces the latest research results, and discusses them together. Through this, it bridges the gap between the undergraduate curriculum and graduate studies, and especially helps graduate freshmen adapt to the graduate program. | |||||||||