- Course Overview
- History, Cost, and Comparative Resolution
- Medical Imaging Basics
Online
₹ 649 2,699
Quick facts
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Medium of instructions
English
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Mode of learning
Self study
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Mode of Delivery
Video and Text Based
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Course overview
When we talk about medical imaging, we talk about a variety of technologies that are used to see the human body to identify, monitor, or cure medical disorders. The information each sort of technology provides on the body part being researched or handled, in terms of potential illness, injury, or the efficacy of medical care, differs. Muyinatu Bell, a Ph.D., biomedical engineer, researcher, and instructor, developed the Introduction to Medical Imaging certification course, which is made available through Udemy.
Introduction to Medical Imaging online course offers 3 hours of virtual learning resources as well as three articles designed to help individuals gain knowledge of the techniques and concepts involved with various medical imaging technologies used in hospitals such as X-ray, magnetic resonance imaging, computed tomography, ultrasound, photoacoustic imaging, and others. Introduction to Medical Imaging online classes also include assignments that provide individuals with theoretical knowledge as well as practical applications of medical imaging technologies, assisting them in becoming knowledgeable users of medical imaging procedures.
The highlights
- Certificate of completion
- Self-paced course
- 3 hours of pre-recorded video content
- 3 articles
- Learning resources
Program offerings
- Online course
- Learning resources
- 30-day money-back guarantee
- Unlimited access
- Accessible on mobile devices and tv
Course and certificate fees
Fees information
certificate availability
certificate providing authority
What you will learn
After completing the Introduction to Medical Imaging online certification, individuals will be introduced to the procedure and technologies involved with medical imaging. Individuals will explore the fundamentals and uses of photoacoustic imaging, magnetic resonance imaging, ultrasound, computed tomography, and x-ray. Additionally, individuals will learn about the techniques for comparing the costs of various medical imaging processes.
The syllabus
Overview
Projection X-Ray Imaging
- Section Overview
- Radiation, Electrons, Ionization
- Equipment, Examples, and Adverse Effects
- Detecting and Diagnosing Bone Fractures
- Projection X-ray
Computed Tomography (CT) Imaging
- Terminology and Equipment
- Sinograms
- Image Building Excercise
- Represent your CT data using g(R,theta) notation
- Image Reconstruction, Artifacts, Pros & Cons
- CT Imaging
Ultrasound Imaging
- System Architecture, Components, and Terminology
- A Note on Refraction and Sound Speed
- Image Formation and Typical Uses
- Artifacts, Advanced Methods, Pros & Cons
- Sound In, Sound Out
- Research Paper: Using 3D Speckle Tracking to Guide Radiation Therapy
- Research Paper: Alternative Forms of Tracking Tissue Motion with Ultrasound
Magnetic Resonance Imaging (MRI)
- System Overview, Magnet Properties, and Precession
- Coils, Flipping Protons, Faraday Induction
- More Details on the Larmor Frequency and Flipping Protons
- Obtaining Contrast, Examples, Artifacts, Pros & Cons
- Imaging Neurological Diseases
- Flip, flip, spin
Recap and Outlook
- Guess That Image
- Solutions to "Guess That Image"
- A Peek Into the Frontiers of Medical Imaging with Photoacoustic Tomography
- My Major Contributions to Photoacoustic Imaging Research
- Potential Integration with Medical Robotics, Laser Safety, Imaging Pros & Cons
- Identify the Imaging Method
Evaluation
- Short and Sweet Course Feedback
Instructors
Dr Muyinatu Bell
Biomedical Engineer
Freelancer
Other Bachelors, Ph.D