Advanced Molecular Biology

In the course, students learn the concept to understand metabolic processes that occur within a living body at the molecular level. Through this, students develop the ability to understand and apply the recent research on gene expression, signal transduction, and protein interactions.

Special Topics in Medical Science Research

The course covers essential medical terminology, understanding of treatment systems, basic medical research methods, and experimental design methods in medical and life science research. Students acquire the basic capabilities necessary to conduct research and develop data analysis and interpretation skills.

Research for the Master’s DegreeⅠ

As a basic course for a master's thesis, independent research is conducted under the guidance of an advisor.

Research for the Master’s DegreeⅡ

As an advanced course for a master's thesis, independent research is conducted under the guidance of an advisor.

Research for the Doctoral DegreeⅠ

As a basic course for a doctoral thesis, independent research is conducted under the guidance of an advisor.

Research for the Doctoral DegreeⅡ

As an advanced course for a doctoral thesis, independent research is conducted under the guidance of an advisor.

Biophysics

Based on the method of describing biological metabolic processes through physical principles such as quantum mechanics, thermodynamics, and statistical mechanics, students learn the structures of biomolecules and supramolecules and various phenomena in biological systems.

Biomedical Materials

Based on each field, students learn materials used in the diagnosis and treatment of diseases, including radioactive materials, and their application cases.

Developmental Biology

The course provides the process by which living things develop from a fertilized egg to an adult, and learn about the mechanisms of cell differentiation and tissue formation that occur during that process. Through this, students learn basic knowledge that is important for understanding normal development processes and the causes of congenital deformities.

Genomics

In this course, students Learn about the functions and interactions of genes by analyzing and interpreting the genome of an organism.

Introduction to Human Physiology

The course is to study the roles and interactions of cells, tissues, and organs in living things, and learn physiological functions and processes based on this.

Advanced Biochemistry

In this course, students understand in depth the multidimensional role of proteins, and learn about protein modification and binding mechanisms. Additionally, they cultivate the ability to understand the role and importance of proteins at the molecular level and apply this to clinical practice and research. Through the recent research results and cases, students learn practical applications, including protein-related diseases, treatment development, and protein engineering.

Advanced Medicinal Chemistry

The course covers the overall concept of medicinal chemistry and the chemical structural characteristics of pharmaceuticals and drug delivery mechanisms in the human body. Students learn about the stages of new drug development and the professional knowledge essential for each stage. Additionally, students understand the concepts of pharmacokinetics, pharmaco- dynamics, and drug metabolism, and gain an in-depth understanding of medicinal chemistry through case studies on drug discovery up to clinical candidates.

Biosensor-based Diagnostic Device

The course is to study various core technologies required for biosensor research, such as electrochemistry, biomaterials, optics, and semiconductor technology, and learn the principles of biomarker detection based on the driving principles of biosensors.

AI & Simulation-based Molecular Design

The course is to study cases where computer-based AI and simulation techniques have been used to fundamentally understand metabolic processes, understand the structure of biological molecules, and develop new drugs. Through this, you will learn how cutting-edge technology is applied to medical research.

Policy & Regulatory Science for Bio-health

The course provides practical examples related to the overall form of policy and regulation in the biohealth field, ethical and legal application of new drug development and biohealth technology, and biohealth welfare policies. Students cultivate the ability to simultaneously pursue innovation and safety in the biohealth industry.

Medical Science and Technology Article Seminar

By reviewing the latest biomedical technology-related papers selectively, students promote understanding of cutting-edge technologies, quickly understand quality and quality papers, and develop basic knowledge of convergence talent that can be applied to other research fields.

Introduction to Immunology

The course covers the structure and function of the immune system and the body's defense mechanisms against pathogens. Students understand the in vivo synthesis process, structural characteristics and functions of various proteins, peptides, RNA and DNA, and the latest biotechnology.

Introduction to Tumor Biology

The course is to study the mechanisms of tumor occurrence and progression, and understand the in vivo synthesis process of various proteins, peptides, RNA and DNA, structural characteristics and functions, and the latest anticancer treatment biotechnology.

Innovative Radiological -pharmaceuticals

The course is to understand the birth and production technology of medical radioisotopes, and learn about the latest research trends in diagnosis and treatment technology for incurable diseases through the development methodology and clinical application of new radiological-pharmaceutical substances using them.

Introduction to Nuclear Medicine

In the course, students learn the basic principles and medical applications of radiological and medical technology (nuclear medicine, radiology, radio- logical oncology, etc.) being implemented in medical settings from actual clinical specialists and basic knowledge for convergence research.

Introduction to Radiological Oncology

The course provides the basic principles and medical applications of radiation oncology, which is being implemented in the medical field, from actual clinical specialists and learn basic knowledge for convergence research.

Recent Medical Technology Trends (Colloquium)

By introducing research trends in global medical technology, students learn the latest research on the latest technologies and application cases for current disease treatment and diagnosis.

Modern Drug Development Principles and Cases

In this course, students learn medicinal chemistry and biochemistry research methods and the physiology of our body in depth while understanding the principles of development and practical application cases of medicines that have become common in our lives and hospitals from a scientific history perspective.

Introduction to Biomedical-engineering Instruments

The course is to understand the mechanical mechanisms and actual clinical application methods of various biomedical engineering devices used in hospitals through the development process of representative, up-to-date equipment.

Radiological Exposure Dosimetry

By applying various physical and biological theories, students learn dose evaluation methods through theoretical and practical courses on the principles of evaluating radiation exposure dose, dosimetry technology, and estimated radiation dose calculation method.

Radiological Toxicology

In the course, students learn about the process of toxicity to the human body by understanding the principles of biochemical reactions in molecules, cells, and tissues due to exposure to ionizing and non-ionizing radiation. In addition, students learn about radiation accidents or diseases caused by radiation exposure in daily life and understand the principles of radiation protection to prevent them.

Radiological Accident Response & Epidemiological ResearchⅠ

By analyzing the causes of radiation accident cases, response process, scale of damage, treatment progress, and prognosis of radiation-exposed patients, lessons are learned for developing prevention and response measures.

Radiological Accident Response & Epidemiological ResearchⅡ

The course provides the theory of field response and medical response process applying radiation protection principles and secure the ability to establish an emergency preparedness plan through practice In a radiation-related accident. Additionally, students learn the methodology for assessing health effects after a radiation accident and acquire basic theories on epidemiological research.

Ethics of Biomedical Science Research

This course educates graduate students in the field of biomedical research on essential research ethics required for professional researchers. It focuses on learning about various ethical issues that may arise during the research process through real-life case studies, aiming to establish the importance of ethical research conduct and proper research attitudes.