SummarySubjects of brain-imaging studies often report experiencing vertigo while in MRI machines; a new study shows that the magnetic field stimulates the vestibular sensors in the inner ear by a Lorentz force
SummaryLamin mutations cause muscular dystrophies, but the mechanism is unclear. A new study shows t...
The MRI environment can stimulate the balance sensors within the inner ear. This is known as magneto...
Ultrahigh magnetic fields (UHF) induce dizziness, vertigo and nystagmus due to Lorentz forces acting...
Subjects of brain-imaging studies often report experiencing vertigo while in MRI machines; a new stu...
SummaryVertigo in and around magnetic resonance imaging (MRI) machines has been noted for years [1, ...
This review discusses the theory behind, and the experimental evidence for, the perception of vertig...
It was recently shown that high magnetic fields evoke nystagmus in human subjects with functioning v...
The sensation of phantom motion or exhibition of bodily sway is often reported in the proximity of a...
Vertigo is sometimes experienced in and around MRI scanners. Mechanisms involving stimulation of the...
Vertigo is sometimes experienced in and around MRI scanners. Mechanisms involving stimulation of the...
Large static magnetic fields may be employed in magnetic resonance imaging (MRI). At high magnetic f...
High strength static magnetic fields are known to induce vertigo, believed to be via stimulation of ...
The growing popularity of MRI in clinical settings and the innovative applications in e.g. MRI guide...
Strong magnetic fields induce dizziness, vertigo, and nystagmus due to Lorentz forces acting on the ...
The growing popularity of MRI in clinical settings and the innovative applications in e.g. MRI guide...
SummaryLamin mutations cause muscular dystrophies, but the mechanism is unclear. A new study shows t...
The MRI environment can stimulate the balance sensors within the inner ear. This is known as magneto...
Ultrahigh magnetic fields (UHF) induce dizziness, vertigo and nystagmus due to Lorentz forces acting...
Subjects of brain-imaging studies often report experiencing vertigo while in MRI machines; a new stu...
SummaryVertigo in and around magnetic resonance imaging (MRI) machines has been noted for years [1, ...
This review discusses the theory behind, and the experimental evidence for, the perception of vertig...
It was recently shown that high magnetic fields evoke nystagmus in human subjects with functioning v...
The sensation of phantom motion or exhibition of bodily sway is often reported in the proximity of a...
Vertigo is sometimes experienced in and around MRI scanners. Mechanisms involving stimulation of the...
Vertigo is sometimes experienced in and around MRI scanners. Mechanisms involving stimulation of the...
Large static magnetic fields may be employed in magnetic resonance imaging (MRI). At high magnetic f...
High strength static magnetic fields are known to induce vertigo, believed to be via stimulation of ...
The growing popularity of MRI in clinical settings and the innovative applications in e.g. MRI guide...
Strong magnetic fields induce dizziness, vertigo, and nystagmus due to Lorentz forces acting on the ...
The growing popularity of MRI in clinical settings and the innovative applications in e.g. MRI guide...
SummaryLamin mutations cause muscular dystrophies, but the mechanism is unclear. A new study shows t...
The MRI environment can stimulate the balance sensors within the inner ear. This is known as magneto...
Ultrahigh magnetic fields (UHF) induce dizziness, vertigo and nystagmus due to Lorentz forces acting...
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