Using Functional Magnetic Resonance Imaging to Detect Differences in Micturition-Related Brain Activity Between Volitional and Involuntary Detrusor Contractions.
Nhi T Ha, Aidin Abedi, Luis Alejandro Morales Ojeda, Stefania Montero, Priya Kohli, David Chapman, Armita Abedi, Petr Gaburak, David Ginsberg, Richard L Harvey, Charles Y Liu, Kay Jann, Evgeniy Kreydin
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Abstract
Introduction: Detrusor contractions can be classified as either volitional or involuntary. The latter are a hallmark of urge urinary incontinence. Understanding differences in neuroactivation associated with both types of contractions can help elucidate pathophysiology and therapeutic targets. In this study we aim to compare brain activity associated with voluntary and involuntary detrusor contractions.
Methods: Twenty seven stroke survivors with secondary storage lower urinary tract symptoms underwent four filling cycles of simultaneous urodynamics and BOLD-signal fMRI. After each fill, participants were instructed to void. Voids inside the designated 10-s period were considered voluntary contractions. All others were considered involuntary. Each contraction was then segmented into phases: Early (10 s before start of contraction), Rise (start of contraction to peak vesical pressure), Plateau, and Fall (from peak pressure to resolution of the contraction). BOLD-effect was compared between the two contraction types, employing a minimum cluster size of 25 voxels and significance threshold at p < 0.005.
Results: Compared to volitional contractions, involuntary contractions were associated with diminished brain activity in each contraction phase. During the Early phase, this difference was most prominent in areas implicated with sensory and autonomic function, shifting to regions tasked with motor control as the contraction continued and eventually attenuating as the contraction resolved.
Conclusion: This study uniquely contrasts brain activation associated with volitional and involuntary contractions. Relative to involuntary contractions, volitional contractions revealed increased activity in motor, sensory, and executive functioning regions. These findings reflect both the physiological mechanism of volitional contractions and suggest the displacement of this mechanism by a subcortical reflex in involuntary contractions.
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Neurourology and Urodynamics welcomes original scientific contributions from all parts of the world on topics related to urinary tract function, urinary and fecal continence and pelvic floor function.
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