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DIS1001 | Basic Science Course Comittees-I | 9+0+5 | ECTS:35 | Year / Semester | Fall Semester | Level of Course | Second Cycle | Status | Compulsory | Department | DEPARTMENT of DENTISTRY | Prerequisites and co-requisites | None | Mode of Delivery | | Contact Hours | 14 weeks - 9 hours of lectures and 5 hours of laboratory per week | Lecturer | Doç. Dr. Davut ÇELİK | Co-Lecturer | Prof. Dr. Engin YENİLMEZ Prof. Dr. Yavuz TEKELİOĞLU Prof. Dr. Esin YULUĞ Prof. Dr. Süleyman Caner KARAHAN Prof. Dr. Yüksel Ali YAZICIOĞLU Prof. Dr. Birgül VAZİNÖR KURAL Prof. Dr. Saadettin KAYIPMAZ Prof. Dr. Ahmet AYAR Prof. Dr. Ahmet MENTEŞE Prof.Dr. Evrim KARAGÜZEL Prof. Dr. Selcen ABİDİN | Language of instruction | Turkish | Professional practise ( internship ) | None | | The aim of the course: | It is carried out in cooperation with the departments of Medical Biology, Biophysics, Histology and Embryology, Physiology and Anatomy. The course aims to introduce the student to the 4 basic tissue systems. It also aims to improve students' perspectives and understanding of ethical principles and social psychological phenomena and to introduce the main methodological approaches used in this field.
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Learning Outcomes | CTPO | TOA | Upon successful completion of the course, the students will be able to : | | | CTPO : Contribution to programme outcomes, TOA :Type of assessment (1: written exam, 2: Oral exam, 3: Homework assignment, 4: Laboratory exercise/exam, 5: Seminar / presentation, 6: Term paper), LO : Learning Outcome | |
Introduction to biophysics, basic electrical concepts, Cell membrane biophysics, Electrical events in the cell membrane, time and space constant, action potential, synaptic assembly, Bioelectric measurement and observation tools, application of electricity to tissues, Sound, Ultrasound, biological effects, use in health sciences, Light, Optics, biological effects, use in health sciences, Electromagnetic waves, Biological effects, Laser, Radioactivity, nuclear reactions, half-life, Radiation dose units, biological effects.
Mesopotamia (Sumer, Babylon and Assyria), Egypt, Palestine and Syria (Phoenicia), Iran and India, China, the American continent and ancient Greece, Rome, Byzantium, 16th, 17th, 18th, 19th. And the development of Dentistry in the 20th century, the Islamic world and Dentistry, the development of Dentistry in our country
Biomolecules; Cell biology; Cellular respiration and energy; Cell division; Structure and types of DNA and RNA; DNA replication; Features of the human genome; RNA synthesis and processing; Mutagens, DNA damage and DNA repair; Genetic code, protein synthesis and mutation types; Regulation of gene activity (Operons); Recombinant DNA Technology; Cloning; Introduction to Medical Genetics and monogenic inheritance; Methods for examining genetic factors; Methods for examining genetic factors; Hereditary traits and inheritance patterns; Polygenic inheritance and factors that change gene frequency; Chromosome terminology; Numerical and structural irregularities in chromosomes; Non-classical inheritance types; Indications for antinetal diagnosis and chromosome analysis in genetic diseases; Stem cell studies; Information/learning about disease types and genetic counseling
Introduction to anatomy, anatomical terminology, medical terminology, medical terminology, muscle-bone general information, upper extremity bones, LAB, joint general information, upper extremity joints, LAB, holiday, Lower extremity bones, LAB, lower extremity joints, LAB, col. vertebralis, sternum, costalar, LAB, col.vertebralis, sternum, costalar, LAB, col.vertebralis, sternum, costa joints, LAB, neurocranium bones, midterm, splenchnocranium bones, cranium whole, art. temporomandibularis, LAB, muscle general information, introduction to the nervous system, superficial back muscles, deep back muscles, LAB, shoulder, pectoral region, breasts, LAB, Axilla (Pl.brachialis), front and back regions of the arm, LAB, front and forearm back regions, hand anatomy, LAB, facial anatomy, scalp, facial muscles, LAB, chewing muscles, LAB, fossa infratemportalis and peterygopalatina, LAB, neck and front and side regions, root of the neck, midterm, LAB, fascial layers of the neck, head -vessels and nerves of the neck.
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Course Syllabus | Week | Subject | Related Notes / Files | Week 1 | Introduction to Biophysics Basic Electrical Concepts RC Circuits Logarithmic Functions Mesopotamia (Sumer, Babylon, and Assyria) Introduction to Medical Biology and Genetics; Cell, Basic Structural Features of Cells and BiomoleculesAnatomical Terminology-1 Introduction to Histology and Embryology; Cell and Cellular Elements Introduction to Physiology and Homeostasis Medical Biochemistry and ApplicationsBonds Found in the Structure of Bio | | Week 2 | Cell Membrane Biophysics Diffusion Osmosis Egypt Structure of the Cell Membrane and Membrane Transport Mechanisms Anatomical Terminology-2 Gametogenesis Fluid-Electrolyte Balance Functional Groups and Properties Found in Biomolecules-I and II Basic Scientific Evaluation of Behavior | | Week 3 | Electrical Events in the Cell Membrane, Formation of the Resting PotentialPalestine and Syria (Phoenicia), Iran and India Cell Cytoplasm, Cell Skeleton and Cell Movement MechanismsGeneral Information about Bones Ovulation, Fertilization, Implantation Muscle PhysiologyIsomerism in Biomolecules and its Importance - Types of Biochemical Reactions Neurobiological Basis of Behavior | | Week 4 | Equivalent Circuit Model of the Cell Membrane, Time and Space Constant Japan, Korea, China, America and Ancient Greece Cell-Cell, Cell-Extracellular Matrix Interactions General Information about Joints Bilaminar Germ Disc Muscle Physiology II Aqueous Solutions and Concentration Units - The Concept of pH and Buffer Systems in Living Organisms Abnormal Behavior | | Week 5 | Local Potentials in Excitable Membranes, Action Potential The Islamic World and Dentistry Structure and Functions of Cell Organelles General Information about Muscles Embryonic Period Physiology of the Peripheral Nervous System Structure and Properties of Amino Acids Personality Theories | | Week 6 | Compound Action Potential Development of Dentistry in Our Country Structure and Functions of Cell Organelles General Information about the Nervous System Fetal Period Sensory Physiology: General Principles Peptide Bond and Primary, Secondary, Tertiary and Quaternary Structures of Proteins Principles of Learning | | Week 7 | Synaptic Transmission, Electrical and Chemical Synapses, Synaptic VesicleExtraembryonic Structures Transducers, Oscilloscope, Biological Signal AnalysisGene Expression (Transcription-Translation), Regulation and Epigenetics Mutation, Types of Mutations, Mutagens and DNA Repair Other Systems Sensory Physiology: Special Senses I Denaturation and Renaturation of Proteins Explanation of Protein Structure-Function Relationship with Example Proteins | | Week 8 | Bioelectric Measurement and Monitoring Tools General Information Sensory Physiology: Special Senses I Teratogenicity Upper Extremity Bones Gene Expression (Transcription-Translation), Regulation and Epigenetics Mutation, Types of Mutations, Mutagens and DNA Repair Development of Dentistry in Rome, Byzantium, 16th, 17th, 18th, 19th and 20th Centuries Structure, Properties and Functions of Nucleotides General Properties and Nomenclature of Enzymes | | Week 9 | Bioelectric Activity Recording, Biological Potentials, Electrical Stimulation of Tissues Cell-Cell Communication and Signal Transduction Mechanisms Lower Extremity Bones Types of Microscopes Tissue Tracking and Examination Methods Structure and Properties of Cofactors Enzyme Kinetics and Inhibition | | Week 10 | Sound, Ultrasound, Biological Effects, Use in Health Sciences Cell Cycle and Control; Mitosis and Meiosis Columna Vertebralis and Costae Epithelial Tissue Histology Regulation of Enzyme Activity Isoenzymes Communication Skills | | Week 11 | Light, Optics, Biological Effects, Use in Health Science Structure and Properties of Carbohydrates Properties of Simple and Complex Carbohydrates Connective Tissue Histology Neurocranium Bones Introduction to Medical Genetics History of Genetics | | Week 12 | Electromagnetic Waves, Biological Effects Laser Cytogenetics Non-Mendelian Inheritance Splanchnocranium bones Cartilage Tissue Histology Structure and Properties of Lipids Functions of Lipids | | Week 13 | Radioactivity, Nuclear Reactions, Half-Life Composition of the Human Body and Cells Techniques Used to Identify Cell Structure Bone Tissue Histology Upper Extremity Joints Autosomal and Gonosomal (Sex) Chromosomal Disease | | Week 14 | Radiation Dose Units, Biological Effects Molecular Basis of Genetic Diseases; Mendelian Genetic Disease Examples (Inherited Metabolic Diseases) Lower Extremity and Trunk Joints Muscle Tissue Structure of ATP and Electron Carrier Molecules Energy Transfer and Utilization in Biological Systems Histology | | Week 15 | Medical Imaging Techniques Biochemistry of Membrane Transport Signal Transduction through Receptors Nervous Tissue Histology Head as a Whole and TMJ Molecular Basis of Genetic Diseases; Mendelian Genetic Disease Examples (Hemoglobinopathies, Blood Coagulation Disorders | | Week 16 | MIDTERM EXAM | | |
Method of Assessment | Type of assessment | Week No | Date | Duration (hours) | Weight (%) | Mid-term exam | 15 | 01/11/2023 27/12/2023 20/03/2024 15/15/2024 | | 50 | End-of-term exam | 33 | 28/06/2024 | | 50 | |
Student Work Load and its Distribution | Type of work | Duration (hours pw) | No of weeks / Number of activity | Hours in total per term | | | | |
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