1. Frequency-Dependent Effects on Bladder Reflex by Saphenous Nerve Stimulation and a Possible Action Mechanism of Tibial Nerve Stimulation in Cats
- Author
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Xing Li, Zhuo Jia, Zhaoxia Wang, Yanan Liang, Xiaoping Wan, Limin Liao, and Xu Zhang
- Subjects
animal structures ,Urology ,medicine.medical_treatment ,030232 urology & nephrology ,Stimulation ,Underactive bladder ,03 medical and health sciences ,0302 clinical medicine ,medicine ,Urinary bladder, Overactive ,Tibial nerve stimulation ,Tibial nerve ,Saline ,Saphenous nerve ,CATS ,business.industry ,Fundamental Science for Neurourology ,medicine.disease ,Diseases of the genitourinary system. Urology ,Intensity (physics) ,Neurology ,Overactive bladder ,Urinary bladder, Underactive ,Anesthesia ,Original Article ,RC870-923 ,Neurology (clinical) ,business ,030217 neurology & neurosurgery - Abstract
Purpose: The present study determined the effects of saphenous nerve stimulation (SNS) at different stimulation frequencies on bladder reflex and explored a possible action mechanism of tibial nerve stimulation (TNS) on bladder activity in cats.Methods: Two bipolar nerve cuff electrodes were implanted on the saphenous nerve and the contralateral tibial nerve in 13 cats, respectively. Multiple cystometrograms were obtained to determine the effects of single SNS at different frequencies and that of combined SNS and TNS on the micturition reflex by infusing normal saline.Results: SNS at 1 Hz significantly reduced the bladder capacity (BC) to 59.8%±7.7% and 59.3%±5.8% of the control level at the intensity threshold (T) and 2T, respectively (P0.05), while combined stimulation at 1T significantly increased the BC to 122.7%±1.9% of the control level and induced an inhibitory effect which was similar to that TNS at 2T.Conclusions: The current study revealed that SNS reduced and increased BC depending on different stimulation frequencies. The combined SNS and TNS maximized the clinical efficacy at a low intensity. Also, SNS may be a potential therapeutic mechanism of TNS.
- Published
- 2021