The involuntary dual control systems of the autonomic nervous system (ANS) in the bladder of awake spontaneously hypertensive rats (SHRs) were investigated through simultaneous registrations of intravesical and intraabdominal pressures to observe detrusor overactivity (DO) objectively as a core symptom of an overactive bladder. SHRs ( n = 6) showed the features of overactive bladder syndrome during urodynamic study, especially DO during the filling phase. After injection of the nonselective sympathetic blocking agent labetalol, DO disappeared in 3 of 6 SHRs (50%). DO frequency decreased from 0.98 ± 0.22 min ?1 to 0.28 ± 0.19 min ?1 ( p < 0.01), and DO pressure decreased from 3.82 ± 0.57 cm H 2O to 1.90 ± 0.86 cm H 2O ( p < 0.05). This suggests that the DO originating from the overactive parasympathetic nervous system is attenuated by the nonselective blocking of the sympathetic nervous system. The detailed mechanism behind this result is still not known, but parasympathetic overactivity seems to require overactive sympathetic nervous system activity in a kind of balance between these two systems. These findings are consistent with recent clinical findings suggesting that patients with idiopathic overactive bladder may have ANS dysfunction, particularly a sympathetic dysfunction. The search for newer and better drugs than the current anticholinergic drugs as the mainstay for overactive bladder will be fueled by our research on these sympathetic mechanisms. Further studies of this principle are required.
References
[1]
Abrams, P.; Cardozo, L.; Fall, M.; Griffiths, D.; Rosier, P.; Ulmsten, U.; van Kerrebroeck, P.; Victor, A.; Wein, A. The standardisation of terminology of lower urinary tract function: report from the Standardisation Sub-committee of the International Continence Society. Neurourol. Urodyn 2002, 21, 167–178.
[2]
Al Ghazo, M.A.; Ghalayini, I.F.; Al Azab, R.; Hani, O.B.; Matani, Y.S.; Haddad, Y. Urodynamic detrusor overactivity in patients with overactive bladder symptoms. Int. Neurourol. J 2011, 15, 48–54.
[3]
Milsom, I.; Abrams, P.; Cardozo, L.; Roberts, R.G.; Thuroff, J.; Wein, A.J. How widespread are the symptoms of an overactive bladder and how are they managed? A population-based prevalence study. BJU Int 2001, 87, 760–766.
[4]
Stewart, W.F.; van Rooyen, J.B.; Cundiff, G.W.; Abrams, P.; Herzog, A.R.; Corey, R.; Hunt, T.L.; Wein, A.J. Prevalence and burden of overactive bladder in the United States. World J. Urol 2003, 20, 327–336.
[5]
Hashim, H.; Abrams, P. Overactive bladder: An update. Curr. Opin. Urol 2007, 17, 231–236.
[6]
Andersson, K.E.; Arner, A. Urinary bladder contraction and relaxation: Physiology and pathophysiology. Physiol. Rev 2004, 84, 935–986.
[7]
Kollai, M.; Koizumi, K. Cardiovascular reflexes and interrelationships between sympathetic and parasympathetic activity. J. Auton. Nerv. Syst 1981, 4, 135–148.
[8]
Choi, J.B.; Kim, Y.B.; Kim, B.T.; Kim, Y.S. Analysis of heart rate variability in female patients with overactive bladder. Urology 2005, 65, 1109–1112.
[9]
Blanc, F.; Pichot, V.; Roche, F.; Barthelemy, J.C.; Tostain, J. Activity of the autonomous nervous system measured based on the variability of heart rate in female urinary incontinence. Prog. Urol 2001, 11, 492–497.
[10]
Yoo, E.S.; Kim, B.S.; Kim, D.Y.; Oh, S.J.; Kim, J.C. The impact of overactive bladder on health-related quality of life, sexual life and psychological health in Korea. Int. Neurourol. J 2011, 15, 143–151.
[11]
Kim, J.C.; Joo, K.J.; Kim, J.T.; Choi, J.B.; Cho, D.S.; Won, Y.Y. Alteration of autonomic function in female urinary incontinence. Int. Neurourol. J 2010, 14, 232–237.
[12]
De Groat, W.C. Integrative control of the lower urinary tract: Preclinical perspective. Br. J. Pharmacol 2006, 147, S25–S40.
[13]
McVary, K.T.; Rademaker, A.; Lloyd, G.L.; Gann, P. Autonomic nervous system overactivity in men with lower urinary tract symptoms secondary to benign prostatic hyperplasia. J. Urol 2005, 174, 1327–1433.
[14]
Hendley, E.D.; Ohlsson, W.G. Two new inbred rat strains derived from SHR: WKHA, hyperactive, and WKHT, hypertensive, rats. Am. J. Physiol 1991, 261, H583–H589.
[15]
Cloutier, F.; Ongali, B.; Deschamps, K.; Brouillette, J.; Neugebauer, W.; Couture, R. Upregulation of tachykinin NK-1 and NK-3 receptor binding sites in the spinal cord of spontaneously hypertensive rat: Impact on the autonomic control of blood pressure. Br. J. Pharmacol 2006, 148, 25–38.
[16]
Norman, R.A., Jr; Dzielak, D.J. Spontaneous hypertension is primarily the result of sympathetic overactivity and immunologic dysfunction. Proc. Soc. Exp. Biol. Med 1986, 182, 448–453.
[17]
Lee, T.; Andersson, K.E.; Streng, T.; Hedlund, P. Simultaneous registration of intraabdominal and intravesical pressures during cystometry in conscious rats—Effects of bladder outlet obstruction and intravesical PGE2. Neurourol. Urodyn 2008, 27, 88–95.
[18]
Hubeaux, K.; Deffieux, X.; Ismael, S.S.; Raibaut, P.; Amarenco, G. Autonomic nervous system activity during bladder filling assessed by heart rate variability analysis in women with idiopathic overactive bladder syndrome or stress urinary incontinence. J. Urol 2007, 178, 2483–2487.
[19]
Jin, L.H.; Park, C.S.; Shin, H.Y.; Yoon, S.M.; Lee, T. Dissimilar effects of tolterodine on detrusor overactivity in awake rats with chemical cystitis and partial bladder outlet obstruction. Int. Neurourol. J 2011, 15, 120–126.
[20]
Clemow, D.B.; Spitsbergen, J.M.; McCarty, R.; Steers, W.D.; Tuttle, J.B. Altered NGF regulation may link a genetic predisposition for hypertension with hyperactive voiding. J. Urol 1999, 161, 1372–1377.
[21]
Zweifach, B.W.; Kovalcheck, S.; de Lano, F.; Chen, P. Micropressure-flow relationships in a skeletal muscle of spontaneously hypertensive rats. Hypertension 1981, 3, 601–614.
[22]
Jin, L.H.; Shin, H.Y.; Yoon, S.H.; Seong, D.H.; Park, C.S.; Lee, T.; Yoon, S.M. Time-related changes in detrusor overactivity in awake rats with spinal cord injury observed by simultaneous registrations of intravesical and intraabdominal pressures. Int. Neurourol. J 2011, 15, 19–24.
[23]
Andersson, K.E. Antimuscarinic mechanisms and the overactive detrusor: An update. Eur. Urol 2011, 59, 377–386.
