Online Courses

PHYSICS IN ULTRASOUND

Ultrasound modules delve into the principles of sound waves and their application in medical imaging and therapy. These courses cover the fundamental physics of ultrasound, including wave propagation, frequency, and wavelength, as well as the interaction of sound waves with tissues. Students learn about the generation of ultrasound waves using transducers, how these waves reflect off different structures in the body, and how to interpret the resulting images. Additionally, the courses explore Doppler ultrasound techniques for assessing blood flow and the safety and ethical considerations in ultrasound practice. Through a combination of theoretical knowledge and hands-on training, participants gain a comprehensive understanding of how ultrasound technology is utilized in diagnostics and treatment.

Module 1: Physics and Hemodynamics
 
  1. Building Blocks and CORE Principles
1.1 Basic Principles of Echocardiography
1.2 Bernoulli’s Equation
 
  1. Basic Physics
2.1 Introduction to Basic Physics
2.2 Transducer Design and Impulse Formation/Transmission
2.3 Real-time Imaging/Artifacts/Harmonics
 
3. Hemodynamics workshop
3.1 Review of Hemodynamic Principles
3.2 Chamber Pressure and Continuity Equation
3.3 Aortic Valve 
3.4 Proximal Isovelocity Area Method
 
Module 2: Acoustic Principles
  1. Properties of Sound
  2. Sound Tissue Interactions
  3. Formation of the Ultrasound Beam
 
Module 3: Ultrasound System Components
  1. Transducer Design
  2. Receiver Functions
 
Module 4: Image Quality and Enhancement
  1. Focusing
  2. Artifacts
  3. Harmonics
 
Module 5: Operational Aspects
  1. Real-Time Imaging
  2. Image Display and Storage
  3. Biosafety
 
Module 6: Self Assessments

Module 3: Ultrasound System Components

Module 4: Image Quality and Enhancement

Module 5: Operational Aspects