Motion compensated magnetic resonance imaging of an active sun beetle using an in situ treadmill
Ajmal Chenakkara, Mazin Jouda, Ulrike Wallrabe, Jan G. Korvink

TL;DR
This paper introduces a new MRI method to study live, moving insects using a treadmill and motion correction to reduce artifacts.
Contribution
A novel motion compensation MRI setup for live insects using a treadmill and real-time optical tracking is introduced.
Findings
A tethered insect on a treadmill allows controlled MRI with reduced motion artifacts.
An MR-compatible optical system and computer vision track motion in real time for prospective triggering.
The setup enables phenotypic characterization of the insect's behavior during imaging.
Abstract
Magnetic resonance imaging is inherently non-invasive, and thus an ideal technique for probing living biological matter. The low sensitivity and prolonged data acquisition time, coupled with stringent magnetic field homogeneity requirements and spatial constraints inside the magnet, make the technique under-utilised for the study of live and freely moving model organisms. We introduce a new method for performing MRI of a live insect that is moving on a treadmill. The tethered insect, positioned on a treadmill inside an RF volume coil, provides a controlled environment for studying the organism, and maintains the spatial consistency for an MRI excitation slice, thereby limiting any residual motion artifacts within the slice or MRI field-of-view, and thus making the problem manageable with motion correction techniques available in clinical MRI research. We address the particular case of…
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Taxonomy
TopicsMicro and Nano Robotics · Biomimetic flight and propulsion mechanisms · Optical Imaging and Spectroscopy Techniques
