31-03-2017, 04:39 PM
Medical Electronics is a specialized discipline that integrates engineering with Biomedical Sciences and Clinical Practice. Medical electronics engineers develop imaging devices such as magnetic resonance imaging (MRI) and procedures that solve medical and health-related problems, such as automating insulin injections or controlling bodily functions. This field seeks to bridge the gap between engineering and medicine. Discipline is a combination of design and problem solving skills with the medical and biological sciences in order to develop health care, which includes diagnosis, follow-up, treatment and therapy. Increased demand for devices and improved medical systems is promoting research in various fields such as Biomechanics, Medical Imaging, Bio Signal Processing and Biosensors. Career options for medical engineers include working in research labs, hospitals for medical equipment maintenance and medical software development.
Applications of medical electronics in engineering
Medical electronics applications in engineering include the following devices.
• Blood gas analyzer
• Glucose Monitor
• Electronic brain wave machine
• Medical heart monitors
• Infrared and digital thermometers
• Medical electronics defibrillator
• Blood pressure cuff
• MRI for medical electronics
• Fetal Monitor
• Stethoscope
Applications of medical electronics in engineering
Medical electronics applications in engineering include the following devices.
• Blood gas analyzer
• Glucose Monitor
• Electronic brain wave machine
• Medical heart monitors
• Infrared and digital thermometers
• Medical electronics defibrillator
• Blood pressure cuff
• MRI for medical electronics
• Fetal Monitor
• Stethoscope
