Fast low angle shot magnetic resonance imaging (FLASH MRI) is a particular
sequence
In mathematics, a sequence is an enumerated collection of objects in which repetitions are allowed and order matters. Like a set, it contains members (also called ''elements'', or ''terms''). The number of elements (possibly infinite) is cal ...
of
magnetic resonance imaging
Magnetic resonance imaging (MRI) is a medical imaging technique used in radiology to generate pictures of the anatomy and the physiological processes inside the body. MRI scanners use strong magnetic fields, magnetic field gradients, and ...
. It is a gradient echo sequence which combines a low-flip angle radio-frequency excitation of the
nuclear magnetic resonance
Nuclear magnetic resonance (NMR) is a physical phenomenon in which nuclei in a strong constant magnetic field are disturbed by a weak oscillating magnetic field (in the near field) and respond by producing an electromagnetic signal with a ...
signal (recorded as a spatially encoded gradient echo) with a short
repetition time. It is the generic form of
steady-state free precession imaging.
Different manufacturers of MRI equipment use different names for this experiment.
Siemens
Siemens AG ( ) is a German multinational technology conglomerate. It is focused on industrial automation, building automation, rail transport and health technology. Siemens is the largest engineering company in Europe, and holds the positi ...
uses the name FLASH, General Electric used the name SPGR (Spoiled Gradient Echo), and
Philips
Koninklijke Philips N.V. (), simply branded Philips, is a Dutch multinational health technology company that was founded in Eindhoven in 1891. Since 1997, its world headquarters have been situated in Amsterdam, though the Benelux headquarter ...
uses the name CE-FFE-T1 (Contrast-Enhanced Fast Field Echo) or T1-FFE.
Depending on the desired contrast, the generic FLASH technique provides spoiled versions that destroy transverse coherences and yield T1 contrast as well as refocused versions (constant phase per repetition) and fully balanced versions (zero phase per repetition) that incorporate transverse coherences into the steady-state signal and offer T1/T2 contrast.
Physical basis
The
physical basis of MRI is the spatial encoding of the nuclear magnetic resonance (NMR) signal obtainable from water protons (i.e.
hydrogen
Hydrogen is a chemical element; it has chemical symbol, symbol H and atomic number 1. It is the lightest and abundance of the chemical elements, most abundant chemical element in the universe, constituting about 75% of all baryon, normal matter ...
nuclei) in biologic tissue. In terms of MRI, signals with different spatial encodings that are required for the reconstruction of a full image need to be acquired by generating multiple signals – usually in a repetitive way using multiple radio-frequency excitations.
The generic FLASH technique emerges as a gradient echo sequence which combines a low-flip angle radio-frequency excitation of the NMR signal (recorded as a spatially encoded gradient echo) with a rapid repetition of the basic sequence. The repetition time is usually much shorter than the typical
T1 relaxation time of the protons in biologic tissue. Only the combination of (i) a low-flip angle excitation which leaves unused longitudinal magnetization for an immediate next excitation with (ii) the acquisition of a gradient echo which does not need a further radio-frequency pulse that would affect the residual longitudinal magnetization, allows for the rapid repetition of the basic sequence interval and the resulting speed of the entire image acquisition.
In fact, the FLASH sequence eliminated all waiting periods previously included to accommodate effects from
T1 saturation. FLASH reduced the typical sequence interval to what is minimally required for imaging: a slice-selective radio-frequency pulse and gradient, a phase-encoding gradient, and a (reversed) frequency-encoding gradient generating the echo for data acquisition.
For radial data sampling, the phase- and frequency-encoding gradients are replaced by two simultaneously applied frequency-encoding gradients that rotate the Fourier lines in data space.
In either case, repetition times are as short as 2 to 10 milliseconds, so that the use of 64 to 256 repetitions results in image acquisition times of about 0.1 to 2.5 seconds for a
two-dimensional
A two-dimensional space is a mathematical space with two dimensions, meaning points have two degrees of freedom: their locations can be locally described with two coordinates or they can move in two independent directions. Common two-dimension ...
image. Most recently, highly undersampled radial FLASH MRI acquisitions have been combined with an iterative image reconstruction by regularized nonlinear inversion to achieve
real-time MRI at a temporal resolution of 20 to 30 milliseconds for images with a spatial resolution of 1.5 to 2.0 millimeters.
This method allows for a visualization of the beating heart in real time – without synchronization to the electrocardiogram and during free breathing.
Applications
Applications can include:
*cross-sectional images with acquisition times of a few seconds enable MRI studies of the
thorax
The thorax (: thoraces or thoraxes) or chest is a part of the anatomy of mammals and other tetrapod animals located between the neck and the abdomen.
In insects, crustaceans, and the extinct trilobites, the thorax is one of the three main di ...
and
abdomen
The abdomen (colloquially called the gut, belly, tummy, midriff, tucky, or stomach) is the front part of the torso between the thorax (chest) and pelvis in humans and in other vertebrates. The area occupied by the abdomen is called the abdominal ...
within a single breathhold,
*dynamic acquisitions synchronized to the
electrocardiogram generate movies of the beating
heart
The heart is a muscular Organ (biology), organ found in humans and other animals. This organ pumps blood through the blood vessels. The heart and blood vessels together make the circulatory system. The pumped blood carries oxygen and nutrie ...
,
*sequential acquisitions
monitor physiological processes such as the differential uptake of
contrast media
A contrast agent (or contrast medium) is a substance used to increase the contrast of structures or fluids within the body in medical imaging. Contrast agents absorb or alter external electromagnetism or ultrasound, which is different from radio ...
into body tissues,
*
three-dimensional
In geometry, a three-dimensional space (3D space, 3-space or, rarely, tri-dimensional space) is a mathematical space in which three values (''coordinates'') are required to determine the position (geometry), position of a point (geometry), poi ...
acquisitions
visualize complex anatomic structures (brain, joints) at unprecedented high spatial resolution in all three dimensions and along arbitrary view directions, and
*
Magnetic resonance angiography
Magnetic resonance angiography (MRA) is a group of techniques based on magnetic resonance imaging (MRI) to image blood vessels. Magnetic resonance angiography is used to generate images of arteries (and less commonly veins) in order to evaluate ...
(MRA) yields three-dimensional representations of the
vasculature
In vertebrates, the circulatory system is a system of organs that includes the heart, blood vessels, and blood which is circulated throughout the body. It includes the cardiovascular system, or vascular system, that consists of the heart an ...
.
History
FLASH MRI was invented in 1985 by
Jens Frahm, Axel Haase, W Hänicke, KD Merboldt, and
D Matthaei (German Patent Application P 35 04 734.8, 12 February 1985) at th
Max-Planck-Institut für biophysikalische Chemie in
Göttingen
Göttingen (, ; ; ) is a college town, university city in Lower Saxony, central Germany, the Capital (political), capital of Göttingen (district), the eponymous district. The River Leine runs through it. According to the 2022 German census, t ...
, Germany. The technique is revolutionary in shortening MRI measuring times by up to two
orders of magnitude
In a ratio scale based on powers of ten, the order of magnitude is a measure of the nearness of two figures. Two numbers are "within an order of magnitude" of each other if their ratio is between 1/10 and 10. In other words, the two numbers are wi ...
.
FLASH was very rapidly adopted commercially. RARE was slower, and echo-planar imaging (EPI) – for technical reasons – took even more time. Echo-planar imaging had been proposed by Mansfield's group in 1977, and the first crude images were shown by Mansfield and Ian Pykett in the same year. Roger Ordidge presented the first movie in 1981. Its breakthrough came with the invention of shielded gradients.
A SHORT HISTORY OF MAGNETIC RESONANCE IMAGING FROM A EUROPEAN POINT OF VIEW
/ref>
The introduction of FLASH MRI sequences in diagnostic imaging for the first time allowed for a drastic shortening of the measuring times without a substantial loss in image quality. In addition, the measuring principle led to a broad range of completely new imaging modalities.
In 2010, an extended FLASH method with highly undersampled radial data encoding and iterative image reconstruction achieved real-time MRI with a temporal resolution of 20 millisecond
A millisecond (from '' milli-'' and second; symbol: ms) is a unit of time in the International System of Units equal to one thousandth (0.001 or 10−3 or 1/1000) of a second or 1000 microseconds.
A millisecond is to one second, as one second i ...
s (1/50th of a second).
References
{{Reflist, refs=
[{{ cite patent , country=DE , number=35 04 734.8 , status=patent , title=Hochfrequenz-Impuls und Gradienten-Impuls-Verfahren zur Aufnahme von schnellen NMR-Tomogrammen unter Benutzung von Gradientenechos , pubdate=1986-08-14 , gdate=1998-12-10 , fdate=1985-02-12 , inventor= J Frahm, A Haase, W Hänicke, KD Merboldt, D Matthaei ]
[{{cite journal , last1=Frahm , first1=Jens , last2=Haase , first2=Axel , last3=Matthaei , first3=Dieter , date=1986 , title=Rapid NMR imaging of dynamic processes using the FLASH technique , journal=Magnetic Resonance in Medicine , volume=3 , issue=2 , pages=321–327 , doi=10.1002/mrm.1910030217 , pmid=3713496 , s2cid=31028542 ]
[{{cite journal , last1=Frahm , first1=Jens , last2=Haase , first2=Axel , last3=Matthaei , first3=Dieter , date=1986 , title=Rapid three-dimensional MR imaging using the FLASH technique , journal=Journal of Computer Assisted Tomography , volume=10 , issue=2 , pages=363–368 , pmid=3950172 , doi=10.1097/00004728-198603000-00046]
[{{cite journal , last1=Haase , first1=A , last2=Frahm , first2=J , last3=Matthaei , first3=D , last4=Hanicke , first4=W , last5=Merboldt , first5=K.-D , date=1986 , title=FLASH imaging: rapid NMR imaging using low flip angle pulses , journal=Journal of Magnetic Resonance , volume=67 , issue=2 , pages=258–266 , doi=10.1016/0022-2364(86)90433-6 , bibcode=1986JMagR..67..258H ]
[{{cite journal , last1=Matthaei , first1=Dieter , last2=Frahm , first2=Jens , last3=Haase , first3=Axel , last4=Hanicke , first4=Wolfgang , date=1985 , title=Regional physiological functions depicted by sequences of rapid magnetic resonance images , journal=]The Lancet
''The Lancet'' is a weekly peer-reviewed general medical journal, founded in England in 1823. It is one of the world's highest-impact academic journals and also one of the oldest medical journals still in publication.
The journal publishes ...
, volume=326 , issue=8460 , pages=893 , doi=10.1016/S0140-6736(85)90158-8 , pmid=2864605 , s2cid=12326347
[{{cite journal , last1=Uecker , first1=Martin , last2=Zhang , first2=Shuo , last3=Voit , first3=Dirk , last4=Karaus , first4=Alexander , last5=Merboldt , first5=Klaus-Dietmar , last6=Frahm , first6=Jens , date=2010 , title=Real-time MRI at a resolution of 20 ms , journal= NMR in Biomedicine , volume=23 , issue=8 , pages=986–994 , doi=10.1002/nbm.1585 , pmid=20799371 , hdl=11858/00-001M-0000-0012-D4F9-7 , s2cid=8268489 , hdl-access=free ]
[{{cite journal , last1=Zhang , first1=Shuo , last2=Uecker , first2=Martin , last3=Voit , first3=Dirk , last4=Merboldt , first4=Klaus-Dietmar , last5=Frahm , first5=Jens , date=2010 , title=Real-time cardiovascular magnetic resonance at high temporal resolution: radial FLASH with nonlinear inverse reconstruction , journal=Journal of Cardiovascular Magnetic Resonance , volume=12 , issue=1 , pages=39 , doi=10.1186/1532-429X-12-39 , pmid=20615228 , pmc=2911425 , doi-access=free ]
[{{cite journal , last1=Zhang , first1=Shuo , last2=Block , first2=Kai Tobias , last3=Frahm , first3=Jens , date=2010 , title=Magnetic resonance imaging in real time: Advances using radial FLASH , journal=Journal of Magnetic Resonance Imaging , volume=31 , issue=1 , pages=101–109 , doi=10.1002/jmri.21987 , pmid=19938046 , hdl=11858/00-001M-0000-0012-D667-0 , s2cid=17419027 , hdl-access=free ]
External links
Biomedizinische NMR Forschungs GmbH
offers further detailed information about FLASH MRI and related applications (neurobiology, cardiovascular imaging)
of the Max Planck Society
The Max Planck Society for the Advancement of Science (; abbreviated MPG) is a formally independent non-governmental and non-profit association of German research institutes. Founded in 1911 as the Kaiser Wilhelm Society, it was renamed to the M ...
* http://www.mtbeurope.info/news/2010/1009005.htm
Magnetic resonance imaging