Page 89 - R2017 Final_BE Biomedical Curriculum and Syllabus - REC
P. 89
Department of BME, REC
power system - Uninterrupted power supply. Fundamentals of radiation detection. Molecular
medicine and radiation safety. Classification of UV radiation - Biological effects of UV - Hazards
associated with UV radiation - UV monitor and control measures. Classifications of LASER -
radiation hazards - control measures. Guidelines for CT installations. MRI safety guidelines.
UNIT III QUALITY ASSESSMENT IN HEALTHCARE 9
Quality management, risk management, types of responsibilities – CSR, Individual and institutional
responsibility. MDRA and medical device standards, ICRP regulations for radiation safety, Methods
adopted to monitor the standards. Evaluation of hospital services – six sigma way, Quality
Assurance in Hospitals Sop’s – Patient Orientation for Total Patient Satisfaction. 5S techniques.
TQM in Health care organization-Quality assurance methods, QA in (Medical Imaging & Nuclear
medicine) Diagnostic services
TOTAL: 30 PERIODS
OUTCOMES:
On completion of the course students will be able to
• Gain knowledge about safety devices necessary for health care system can be identified
• Demonstrate various techniques to shield patient from electrical and radiation hazardous.
• Implement the various methods to monitor and assess quality in healthcare
TEXT BOOKS:
1. Bertil Jacobson and Alan Murray, “Medical Devices use and safety”, Reed Elsevier India
Pvt. Ltd, New Delhi, 2011.
2. Massimo A.G.Mitolo, Electrical Safety of Low-voltage System, Mc Graw Hill, 2009
REFERENCES:
1. Steve Webb, “The Physics of Medical Imaging”, Taylor & Francis, New York, 1988.
2. G.D.Kunder, S.Gopinath, A.Katakam, “Hospital Planning, Design and Management”, Tata
Mcgraw Hil publishers, New Delhi, 1998.
3. Joseph J. Carr and John M. Brown, “Introduction to Biomedical equipment technology”, John
Willey and sons, New York, 1997.
BM17E15 MEDICAL ROBOTICS L T P C
2 0 0 2
OBJECTIVES
• To gain knowledge about the basic concepts of robots and types of robots.
• To understand manipulators, actuators and grippers and sensors.
• To know the various applications of surgical robots.
• To introduce various applications of robotics in rehabilitation.
UNIT I INTRODUCTION OF ROBOTICS 10
Introduction to Robotics and its history, Overview of robot subsystems, Degrees of freedom,
configurations and concept of workspace, Automation, Mechanisms and movements, Dynamic
stabilization, Actuators and Grippers, Kinematics & Inverse Kinematics, Sensors and controllers.
UNIT II SURGICAL ROBOTICS 10
Da Vinci Surgical System, Image guided robotic systems for focal ultrasound based surgical
applications, System concept for robotic Tele-surgical system, Urologic applications, Cardiac
surgery, Neuro-surgery, Pediatric and General Surgery, Gynecologic Surgery, Nanorobotics.
Curriculum and Syllabus | B.E Biomedical Engineering | R 2017 Page 89
