Spinal cord injury and other systemic neurological diseases (Multiple Sclerosis, Parkinson's disease) affect the integrity of lower urinary tract (LUT) function, leading to neurogenic lower urinary tract dysfunction (NLUTD). The urodynamic investigation is the current "gold-standard" for evaluating LUT function. Nevertheless, the sensory situation of the LUT cannot be investigated objectively. Furthermore, the current classification of the severity of the NLUTD due to spinal cord injury (SCI) does not represent the sensory situation of the LUT. Additional investigations therefore need to be established for assessing the sensory situation of the LUT. Somatosensory evoked potentials (SEPs) are an established method for investigating the processing of sensory nervous activity. However, SEPs from the LUT of SCI individuals have not yet been investigated. A novel technique, i.e. diffusion tensor imaging (DTI), allows to process magnetic resonance images (MRI) in order to visualize nerve fibers. Using DTI, the innervation of the bladder after SCI can be visualized. The structural presentation of bladder innervation will be compared with the functional results, i.e. the SEP of the LUT in SCI individuals. The primary objective of the proposed study is to elicit and characterize (latency, amplitude) the somatosensory evoked potentials (SEPs) from the bladder in individuals suffering from neurogenic lower urinary tract dysfunction as a result of spinal cord injury. Furthermore, the SEPs from the bladder will be compared with the SEPs from peripheral nerves (N. tibialis, N. pudendus, N. medianus). Moreover, the latency and amplitude of the SEPs from the bladder of individuals with somato-sensory complete spinal cord injury will be compared with those from the bladder of individuals with somato-sensory incomplete spinal cord injury. Finally, the structural innervation of the bladder after SCI will be compared with the remaining sensory function.
Study Type
OBSERVATIONAL
Swiss Paraplegic Centre
Nottwil, Canton of Lucerne, Switzerland
occurrence of somatosensory evoked potentials from the bladder
Time frame: within 1 week after enrollment into study
latency of somatosensory evoked potentials
Time frame: within 1 week after enrollment into study
peak-to-peak amplitude of somatosensory evoked potentials
Time frame: within 1 week after enrollment into study
nerve fiber density around bladder
Time frame: within 1 week after enrollment into study
fractional anisotropy of nerve fibers around bladder
Time frame: within 1 week after enrollment into study
apparent diffusion coefficient of nerve fibers around bladder
Time frame: within 1 week after enrollment into study
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.