Home  »  Institute of Science »  Master's of Biomedical Engineering without Thesis

COURSE UNIT TITLECOURSE UNIT CODESEMESTERTHEORY + PRACTICE (Hour)ECTS
NANOMEDICINE:PRINCIPLES ANS APPLICATIONS BME533 ------- 3 + 0 10

TYPE OF COURSE UNITElective Course
LEVEL OF COURSE UNITMaster's Degree Without Thesis
YEAR OF STUDY-
SEMESTER-------
NUMBER OF ECTS CREDITS ALLOCATED10
NAME OF LECTURER(S)Assistant Professor Tansel Uyar
LEARNING OUTCOMES OF THE COURSE UNIT At the end of this course, the students;
1) Fundamental properties, synthesis of nanomaterials and medical usage.
2) Teaching of advanced, nano scale therapeutic and diagnostic applications in medicine.
3) Improvement and development of new methedologies and devices for medicine.
4) To researh articles and design experimental set-up
MODE OF DELIVERYFace to face
PRE-REQUISITES OF THE COURSENo
RECOMMENDED OPTIONAL PROGRAMME COMPONENTNo
COURSE DEFINITIONFundamental properties, synthesis and characterization of nanomaterials which are used for drug delivery systems, imaging systems, micro and nano particles for diagnostics, micro fluidic structures are included in the course content. Additionally, biomedical applications of these materials including biosensors, biochips, purification techniques, cancer therapy, tissue scaffold, forensic medicine, imaging and measuring in nanoscale are covered in the content.
COURSE CONTENTS
WEEKTOPICS
1st Week Production techniques of polymers
2nd Week Fundamental properties and synthesis of nanomaterials
3rd Week Micro fluidic structures and their applications
4th Week Micro fluidic structures and their applications
5th Week Nano scale sensors and biochip structures
6th Week Nano scale sensors and biochip structures
7th Week Applications of nanobiosensors in medicine, forensic medicine etc. fields.
8th Week Tissue scaffolds
9th Week Nano scale techniques for imaging and measuring
10th Week Nano scale techniques for imaging and measuring
11th Week Nano-biomedical approaches for cancer theraphy
12th Week Nano-biomedical approaches for cancer theraphy
13th Week Project presentation
14th Week Project presentation
RECOMENDED OR REQUIRED READING(1) "Handbook of Nanotechnology" edited by Bharat Bhushan, Springer Verlag, Germany, 2004.
(2) Internet and Library sources.
PLANNED LEARNING ACTIVITIES AND TEACHING METHODSLecture,Presentation
ASSESSMENT METHODS AND CRITERIA
 QuantityPercentage(%)
Mid-term135
Attendance115
Total(%)50
Contribution of In-term Studies to Overall Grade(%)50
Contribution of Final Examination to Overall Grade(%)50
Total(%)100
ECTS WORKLOAD
Activities Number Hours Workload
Midterm exam19696
Preparation for Quiz000
Individual or group work236
Preparation for Final exam12424
Course hours14342
Preparation for Midterm exam12424
Laboratory (including preparation)000
Final exam19696
Homework
Total Workload288
Total Workload / 309,6
ECTS Credits of the Course10
LANGUAGE OF INSTRUCTIONEnglish
WORK PLACEMENT(S)No
  

KEY LEARNING OUTCOMES (KLO) / MATRIX OF LEARNING OUTCOMES (LO)
LO1LO2LO3LO4
K1  X   X    
K2      X  
K3        X
K4    X   X  
K5       
K6        X
K7      X   X
K8