Publication: The effect of body position change on noninvasively acquired intracranial pulse waves
The effect of body position change on noninvasively acquired intracranial pulse waves
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Boraschi, A., Spiegelberg, A., Karimi, F., Graf, K., Fallahi, A., Neufeld, E., Kuster, N., & Kurtcuoglu, V. (2023). The effect of body position change on noninvasively acquired intracranial pulse waves. Physiological Measurement, 44(3), 035014. https://doi.org/10.1088/1361-6579/acc3d6
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Objective. Craniospinal compliance (CC) is an important metric for the characterization of space-occupying neurological pathologies. CC is obtained using invasive procedures that carry risks for the patients. Therefore, noninvasive methods for acquiring surrogates of CC have been proposed, most recently based on changes in the head’s dielectric properties during the cardiac cycle. Here, we have tested whether changes in body position, which are known to influence CC, are reflected in a capacitively acquired signal (hereinafter referre
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- Boraschi, Andrea
- Spiegelberg, Andreas
- Karimi, Fariba
- Graf, Kevin
- Fallahi, Arya
- Neufeld, Esra
- Kuster, Niels
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Boraschi, A., Spiegelberg, A., Karimi, F., Graf, K., Fallahi, A., Neufeld, E., Kuster, N., & Kurtcuoglu, V. (2023). The effect of body position change on noninvasively acquired intracranial pulse waves. Physiological Measurement, 44(3), 035014. https://doi.org/10.1088/1361-6579/acc3d6
