Functionality of an MRT

Descripción

Oral Exam Biological Imageging Diagrama sobre Functionality of an MRT, creado por Marue Babue el 05/09/2018.
Marue Babue
Diagrama por Marue Babue, actualizado hace más de 1 año
Marue Babue
Creado por Marue Babue hace alrededor de 6 años
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Resumen del Recurso

Nodos de los diagramas

  • 1. Patient
  • 2. Irradiation of an RF pulse
  • 3. Switching off the RF pulse
  • 4. Patient transmits signal
  • 5. Image construction
  • Functional principle  of an MRT
  • 1952 Nobelprice for Bloch and Purcell
  • First MR images in the 70´s
  • Strong magnetic Field of 1.5 T - 3 T
  • Based on the interaction of a magnetic field and radiofrequency impulses
  • Magnet field of the MRT is always "ON"
  • Consists of 70% water H2O
  • Hydrogen (H) is a proton = stable, electrically positively charged
  • Turns around the horizontal axis - has a spin
  • The nuclear spin is the total angular momentum of an atomic nucleus around its center of gravity
  • Electrical energie is created and induced an magnetic field
  • Proton behaves like a rod magnet
  • Introduction of protons into an external magnetic field (MR tomographs)
  • Protons align themselves
  • External magnetic field runs in longitudinal direction of the magnet/patient direction
  • Protons align parallel or antiparallel to the external magnetic field. There are more and more protons aligned in parallel
  • Have different energy levels
  • More energy is needed for antiparallel alignment
  • Difference is really small (with the background of the strong external magnetic field) = NET MAGNETISATION
  • This is what MRI works with !!!
  • Points in longitudinal direction of the magnet
  • LONGITUDINAL MAGNETISATION
  • No use of ionized radiation
  • Magnetic field of the earth 50 µT
  • Move like a gyroscope
  • Precession / Lamour precession is the frequency the proton rotates at = precession frequency (depending on the strength of the external magnetic field)
  • Describe as a vector
  • Moves with the precession frequency on its own axis
  • Disturbance/deflection to make the longitudinal magnetization measurable !
  • Patient
  • Short strong electromagnetic pulse
  • In order to bring protons out of balance, energy must be exchanged with them
  • HOW?
  • RF - pulse must have the same frequency as the protons
  • Frequency describe by the Lamourfrequency
  • Only then is an energy exchange possible
  • RF- pulse in resonance with the protons (resonate)
  • 1. Irradiation of an RF - pulse
  • 2. Energy exchange with the protons
  • 3. A part of the protons absorbs the energy
  • 4. Alignment of the protons in antiparallel direction increases
  • Longitudinal magnetisation and ↓ = > Net magnetisation vector ↓
  • Minimal differently precise protons => sychronize
  • "in phase"
  • Addition of magnetic vectors
  • Development of transverse magnetization
  • Precise also on its own axis
  • Induced an electric current
  • Measureabe with a cpi = MR -SIGNAL
  • Proton system strives for a state with low energy input
  • System returns to initial state
  • Transversal magnatisation ↓
  • Longitudinal magnetisation ↑
  • Photons go out of phase again
  • Transversal Relaxation T2
  • Construction
  • Longitudinal Relaxation T1
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