Ultrasound: physics and knobology

Nature of Sound Waves

• How far the sound waves can travel depend on
  • how strong the signal is
  • the medium that the waves have to travel though; underwater is greater medium compared to brick wall.

Wave Properties

• Penetration
• Attenuation
• Reflection

Penetration

• Ultrasound waves, depending on amount of energy, will pass through a medium to a certain depth.

Attenuation

• As ultrasound waves travel through medium they continually losing energy to medium that they pass.

Reflection

• The rest of waves' energy after travelling through medium is reflected back toward their source.
• Equals to "echo" of submarine sonar.
• Enable image generation on ultrasound machine.
• Eventually energy will not be enough to reflect back to machine, therefore no image.

Effect of Different Tissue Densities

• Ultrasound waves have different abilities to travel through different mediums.
• This quality of mediums or tissues is called resistance or impedance.
• Travel well though liquid: blood, urine.
• Travel less well through solid organs: liver, spleen.
• Not at all though bone (high resistance).

Liquid

• Appears black. No resistance therefore no echo and no energy.
• Blood filled structures: heart or blood vessels.
• Urine filled bladder.
• Cystic structures: gallbladder.
• In normal location fluid is contained and surrounded by echogenic membrane.
• Free fluid (internal haemorrhage or ascites) has no membrane and has irregular shapes.

Solid Organs

• Can function as "acoustic window", which allow deeper penetration into the body. Fluid filled bladder can function the same too.

Bone

• Bone reflect back almost 100% of the ultrasound waves. It appears as bright white.
• No waves traverse beyond bone therefore no energy after that. Areas behind the bone appears black.
• Bone can impede the view. Also it can be useful serving as landmark, i.e.spine.