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Magnetic Resonance Imaging Sequences

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更新日期:2019-04-12

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Magnetic Resonance Imaging Sequences(圖1)-速報App

An MRI sequence is a number of radiofrequency pulses and gradients that result in a set of images with a particular appearance. This article presents a simplified approach to recognizing common MRI sequences, but does not concern itself with the particulars of each sequence.

abdominal mri sequences

abdominal mri sequences radiology

acronym mri sequences

adni mri sequences

advanced mri sequences

all mri sequences

ankle mri sequences

aortic dissection mri sequences

avascular necrosis mri sequences

MRI Sequences

MRI Signal production

MRI Interpretation

MRI Pulse Sequences

T1, T2, PD weighted Imaging

Magnetic Resonance Imaging Sequences(圖2)-速報App

Spin Echo

Fast and Ultrafast MRI

Fast (Turbo) Spin echo

Inversion recovery sequence

STIR Sequences

FLAIR Sequence

Greadient sequence

3d greadient echo

Echo planar imaging sequence

Dynamic imaging

basic mri sequences radiographics

blade sequence mri

blood mri sequences

blood sensitive mri sequences

Functional Imaging (fMRI)

Magnetic Resonance Imaging Sequences(圖3)-速報App

Diffusion weighted imaging (DWI)

MR Spectroscopy

Magnitization transfer (MT) MRI

MRA & MRV

MR Perfusion

Susceptibility weighted imaging

T1 rho imaging

Fat Suppression imaging

SPAIR

SPIR

Signal to noice ratio

Radiofrequency (RF) coils

Water excitation and Dixon Method

MRI Abbreviation

Overview

Magnetic Resonance Imaging Sequences(圖4)-速報App

The simplest way to think about the multitude of sequences available on modern scanners is to divide them according to the dominant influence on the appearance of tissues. This leads to a division of all sequences into proton density (PD) weighted, T1 weighted, T2 weighted, diffusion weighted, flow sensitive and 'miscellaneous'. A number of 'optional add-ons' can also be considered, such as fat or fluid attenuation, or contrast enhancement. This leads to a broad categorisation as follows:

T1

gadolinium enhanced

fat suppressed

T2

fat suppressed

fluid attenuated

susceptibility sensitive

proton density

fat suppressed

diffusion weighted

flow sensitive

MR angiography

MR venography

CSF flow studies

Magnetic Resonance Imaging Sequences(圖5)-速報App

miscellaneous

MR cholangiopancreatography (MRCP)

a special T2-weighted sequence

MR spectroscopy

MR perfusion

functional MRI

tractography

Terminology

Intensity

When describing most MRI sequences we refer to the shade of grey of tissues or fluid with the word intensity, leading to the following absolute terms:

high signal intensity = white

intermediate signal intensity = grey

low signal intensity = black

Often we refer to the appearance by relative terms:

hyperintense = brighter than the thing we are comparing it to

Magnetic Resonance Imaging Sequences(圖6)-速報App

isointense = same brightness as the thing we are comparing it to

hypointense = darker than the thing we are comparing it to

Annoyingly these relative terms are used without reference to the tissue being used as the comparison. In some instances this does not lead to any problems; for example, a hyperintense lesion in the middle of the liver is clearly hyperintense compared to the surrounding liver parenchyma. In many other situations however use of relative terms leads to potential confusion. Imagine a lesion within the ventricles of the brain described as "hypointense". Does this denote a lesion darker than CSF or than the adjacent brain?

As such it is preferable to either use absolute terminology or, if using relative terms, to acknowledge the comparison tissue e.g. "the lesion is hyperintense to the adjacent spleen".

NB: the word density is for CT, and there are few better ways to show yourself as an MRI noob than by making this mistake.

Magnetic Resonance Imaging Sequences(圖7)-速報App