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Bladder Filling (bladder + filling)
Selected AbstractsUrodynamic findings in children with cerebral palsyINTERNATIONAL JOURNAL OF UROLOGY, Issue 8 2005M IHSAN KARAMAN Abstract Aim: More than one-third of children with cerebral palsy are expected to present with dysfunctional voiding symptoms. The voiding dysfunction symptoms of the cerebral palsy patients in the present study were documented. Methods: Of the study group, 16 were girls and 20 were boys (mean age: 8.2 years). Children with cerebral palsy were evaluated with urodynamics consisting of flow rate, filling and voiding cystometry, and electromyography findings of the external urethral sphincter to determine lower urinary tract functions. Treatment protocols were based on the urodynamic findings. Anticholinergic agents to reduce uninhibited contractions and to increase bladder capacity were used as a treatment. Clean intermittent catheterization and behavioral modification were used for incomplete emptying. Results: Of the children, 24 (66.6%) were found to have dysfunctional voiding symptoms. Daytime urinary incontinence (47.2%) and difficulty urinating (44.4%) were the most common symptoms. Urodynamic findings showed that neurogenic detrusor overactivity (involuntary contractions during bladder filling) with a low bladder capacity was present in 17 (47.2%) children, whereas detrusor,sphincter dyssynergia was present in four patients (11%). The mean bladder capacity of patients with a neurogenic bladder was 52.2% of the expected capacity. Conclusions: The present study concluded that voiding dysfunction was seen in more than half of the children with cerebral palsy, which is a similar result to other published studies. We propose that a rational plan of management of these patients depends on the evaluation of the lower urinary tract dysfunction with urodynamic studies. These children benefit from earlier referral for assessment and treatment. [source] The basics behind bladder pain: A review of data on lower urinary tract sensationsINTERNATIONAL JOURNAL OF UROLOGY, Issue 2003J. J. WYNDAELE Abstract Interstitial cystitis is a syndrome consisting of frequency, urgency, and bladder pain that increases with bladder filling and improves temporarily after voiding. The exact cause or causes are not as yet fully understood. This leads to uncertainty in diagnosis and treatment. There is need for more knowledge, and to acquire this for more research. The fact that the condition causes pain, a pathologic stimulation of sensory fibres, makes understanding the basic sensory mechanisms in the lower urinary tract in normal and pathologic conditions mandatory. In this article we review the data on bladder sensation from the last 25 years and the possible relation with painful bladder syndrome. [source] Sensor Mechanism and Afferent Signal Transduction of the Urinary Bladder: Special Focus on transient receptor potential Ion ChannelsLUTS, Issue 2 2010Masayuki TAKEDA In the urine storage phase, mechanical stretch stimulates bladder afferents. These urinary bladder afferent sensory nerves consist of small diameter A, - and C-fibers running in the hypogastic and pelvic nerves. Neuroanatomical studies have revealed a complex neuronal network within the bladder wall. The exact mechanisms that underline mechano-sensory transduction in bladder afferent terminals remain ambiguous; however, a wide range of ion channels (e.g. TTX-resistant Na+ channels, Kv channels and hyperpolarization-activated cyclic nucleotidegated cation channels, degenerin/epithelial Na+ channel), and receptors (e.g. TRPV1, TRPM8, TRPA1, P2X2/3, etc.) have been identified at bladder afferent terminals and have implicated in the generation and modulation of afferent signals, which are elcited by a wide range of bladder stimulations including physiological bladder filling, noxious distension, cold, chemical irritation and inflammation. The mammalian transient receptor potential (TRP) family consists of 28 channels that can be subdivided into six different classes: TRPV (Vanilloid), TRPC (Canonical), TRPM (Melastatin), TRPP (Polycystin), TRPML (Mucolipin), and TRPA (Ankyrin). TRP channels are activated by a diversity of physical (voltage, heat, cold, mechanical stress) or chemical (pH, osmolality) stimuli and by binding of specific ligands, enabling them to act as multifunctional sensors at the cellular level. TRPV1, TRPV2, TRPV4, TRPM8, and TRPA1 have been described in different parts of the urogenital tract. Although only TRPV1 among TRPs has been extensively studied so far, more evidence is slowly accumulating about the role of other TRP channels, ion channels, and receptors in the pathophysiology of the urogenital tract, and may provide a new strategy for the treatment of bladder dysfunction. [source] Management of Low Compliant Bladder in Spinal Cord Injured PatientsLUTS, Issue 2 2010Won Hee PARK Low bladder compliance means an abnormal volume and pressure relationship, and an incremental rise in bladder pressure during the bladder filling. It is well known that at the time bladder capacity decreases, intravesical pressure increases, and the risk of upper deterioration increases. Hypocompliance is usually thought to be the range from 1.0 to 20.0 mL/cmH2O. Though the exact cause of hypocompliance is not known, it may be caused by changes in the elastic and viscoelastic properties of the bladder, changes in detrusor muscle tone, or combinations of the two. Management aims at increasing bladder capacity with low intravesical pressure. The main is a medical therapy with antimuscarinics combined with clean intermittent catheterization. The results are sometimes unsatisfactory. Various drugs or agents through the mouth or the bladder, including oxybutynin, new antimuscarinics, capsaicin and resiniferatoxin were tried. Among them botulinum toxin-A is promising. Some patients eventually required surgical intervention in spite of the aggressive medical therapy. Finally most patients undergo the surgical treatment including autoaugmentation, diversion, and augmentation cystoplasty. Among them augmentation cystoplasty still seems the only clearly verified treatment method. [source] Reproducibility of same session repeated cystometry and pressure-flow studies in women with symptoms of urinary incontinence,,NEUROUROLOGY AND URODYNAMICS, Issue 3 2010Suzan R. Broekhuis Abstract Aim The aim of this study was to determine the reproducibility of same session repeated urodynamic measurements in women with symptoms of urinary incontinence. Methods Women presenting with symptoms of urinary incontinence underwent standardized urodynamic examination, which consisted of free uroflowmetry and two filling cystometries and pressure-flow studies. Intra-class Correlation Coefficient (ICC) and McNemar tests were used to describe the same session reproducibility. Results Two evaluable urodynamic tests were available in 152 patients. Overall, reproducibility of the urodynamic parameters were good to excellent (ICC range: 0.72,0.93), except for the bladder volume at first sensation of bladder filling (ICC,=,0.46) and the maximum Watt's factor (ICC,=,0.68). The bladder volume at first sensation and the maximum cystometric capacity were systematically higher in the second run (mean difference (95% CI),=,,45 (,73; ,37) and ,3 (,15; 10), respectively). Reproducibility of the diagnosis stress urinary incontinence and/or detrusor overactivity were good to excellent (median ICC,=,0.76, P,=,0.68 and P,=,1.00, respectively). Reproducibility of the volume and amplitude at involuntary detrusor contractions, however, were only poor (ICC,=,0.18 and 0.25, respectively). Conclusions The reproducibility of same session repeated urodynamic measurements in women with symptoms of urinary incontinence was good to excellent. Our results provide the scientific support for guidelines that recommend the omission of repeated filling cystometries and pressure-flow studies in cases where the first test confirms the pathology expected. Neurourol. Urodynam. 29:428,431, 2010. © 2009 Wiley-Liss, Inc. [source] A decade of functional brain imaging applied to bladder controlNEUROUROLOGY AND URODYNAMICS, Issue 1 2010Clare J. Fowler Abstract Over the last 10 years functional brain imaging has emerged as the most powerful technique for studying human brain function. Although the literature is now vast, including studies of every imaginable aspect of cortical function, the number of studies that have been carried out examining brain control of bladder function is relatively limited. Nevertheless those that have been reported have transformed our thinking. This article reviews that development in the context of emerging ideas of interoception and a working model of brain activity during bladder filling and emptying is proposed. Some studies have also been carried out using functional imaging methods to examine pathophysiological bladder conditions or the effect of treatments and these are reviewed and future work anticipated. Neurourol. Urodynam. 29: 49,55, 2010. © 2009 Wiley-Liss, Inc. [source] Investigating afferent nerve activity from the lower urinary tract: Highlighting some basic research techniques and clinical evaluation methods,,NEUROUROLOGY AND URODYNAMICS, Issue 1 2010Jean Jacques Wyndaele Abstract Aims To give a review of some basic research recording and clinical evaluations of bladder afferent nerves and the sensory information related to them. Methods Literature survey. Results Direct investigation of the afferent nerve pathways of the lower urinary tract (LUT) can be done in animal studies where potentials can be recorded and measured directly in the dorsal roots after laminectomy. Differentiation between A delta and C fibers is possible when conduction speed is determined. In humans afferent innervation can be studied clinically with determination of the sensation on sensation-related bladder diary, during cystometrical bladder filling, with local electrical stimulation. All need further study. Electrodiagnostic tests are further explored. Conclusions Both basic research and clinical evaluation of afferent nerves and sensory function in the LUT are possible. To find out how both relate to each other, and how this function can be evaluated, is the task to be done now. Neurourol. Urodynam. 29: 56,62, 2010. © 2009 Wiley-Liss, Inc. [source] The effect of psychological motivation on volumes voided during uroflowmetry in healthy aged male volunteersNEUROUROLOGY AND URODYNAMICS, Issue 1 2006Yat-Ching Tong Abstract Aims To study the effect of psychological motivation on the voided volume during uroflowmetry in aged-male volunteers. Methods An open contest of free-flow rate was held for the elderly community. People over 60 years old with no prior history of lower urinary tract symptoms were invited to compete. Participants were given the suggestion to void only when strong desire was experienced because greater the volume, faster the flow. One month later, 20 of the male participants were asked to come back for an office uroflowmetry, given the instruction to hold until strong desire was experienced. The results of the maximum flow rate, mean flow rate, and voided volume were compared between these two tests. Results In the first uroflowmetry, the average voided volume for the 20 participants was 532,±,109 ml; maximum flow rate and average flow rate were 27.1,±,9.4, and 17.2,±,6.4 ml/sec, respectively. The voided volume decreased significantly in the second uroflowmetry (338,±,82 ml, P,<,0.01); the maximum and average flow rates did not changed significantly (24.2,±,9.5 and 14.9,±,6.9 ml/sec, respectively). No participant had a shift of more than one standard deviation between the two tests on the Siroky's flow-rate nomogram. Conclusions With psychological motivation to win the contest, the participants showed greater tolerance to bladder filling. This suggests that the state of mind can affect the perception on bladder sensation. On the other, the performance on emptying function is not significantly improved by motivation. Neurourol. Urdynam. © 2005 Wiley-Liss, Inc. [source] Micturitional disturbance in a patient with a spinal cavernous angiomaNEUROUROLOGY AND URODYNAMICS, Issue 6 2003Ryuji Sakakibara Abstract A 58-year-old woman had a 3-year history of numbness in the right leg, which developed into thoracic transverse myelopathy and urinary retention. After referral to our department, MRI scans revealed a lesion with a target appearance at the T10,11 spinal cord with multiple silent cerebral lesions, which confirmed the diagnosis of cavernous angioma. Gamma-knife surgery was not indicated, considering the risk of adverse effects. The patient gradually became able to urinate, but had urge urinary incontinence. The first urodynamic studies (conducted 3 months after full clinical manifestations of transverse myelopathy) showed detrusor hyperreflexia (DH), decreased bladder sensation during bladder filling, detrusor-sphincter dyssynergia (DSD), and weak detrusor on voiding. However, urinary retention appeared again without change of neurologic signs. The second urodynamic studies (conducted 2 months later) showed less marked DH during bladder filling, and equivocal DSD but marked weak detrusor on voiding. The patient started taking oral prazosin hydrochloride (6 mg/day), which gradually ameliorated her voiding difficulty. Lesions in the lateral and dorsal columns of the spinal cord seem to be responsible for the micturitional disturbance in our patient with spinal cavernous angioma. Neurourol. Urodynam. 22:606,610, 2003. © 2003 Wiley-Liss, Inc. [source] Alterations in connexin expression in the bladder of patients with urge symptomsBJU INTERNATIONAL, Issue 4 2005Jochen Neuhaus OBJECTIVE To compare the formation of gap junctions between detrusor smooth muscle cells in situ and the distribution of connexin (Cx)40, Cx43 and Cx45 expressions in bladder biopsies from a control group (with bladder tumour) and from patients with urge symptoms, as smooth muscle cells of the human detrusor muscle communicate via gap junctions and express several connexin subtypes, alterations of which may be involved in the causes of lower urinary tract symptoms. MATERIALS AND METHODS Connexin expression is prominent in myofibroblast-like cells, supposedly involved in afferent signalling pathways of the bladder. Their strategic position directly beneath the urothelium suggests they are a link between urothelial ATP signalling during bladder filling and afferent A,-fibre stimulation for co-ordination of bladder tonus and initialization of the micturition reflex. Modification of their coupling characteristics may have profound impact on bladder sensation. Bladder tissue probes of patients undergoing cystectomy or transurethral tumour resection for bladder cancer were used as controls. Tissue samples from patients with severe idiopathic urge symptoms were taken for exclusion diagnostics of interstitial cystitis (IC) and carcinoma in situ. The formation of functional syncytia between detrusor smooth muscle cells were examined in dye-coupling experiments by injecting with Lucifer Yellow. The morphology and structure of gap junctions were assessed by transmission electron microscopy and immunogold labelling of Cx43 and Cx45. The expression of connexin subtypes Cx40, Cx43 and Cx45 was compared by indirect immunofluorescence, and confocal laser scanning microscopy used for semiquantitative analysis. RESULTS There was dye coupling between smooth muscle cells of the detrusor in situ. Electron microscopy and immunogold labelling showed very small gap junctional plaques. These findings were confirmed by confocal immunofluorescence. Semiquantitative analyses showed significantly higher Cx43 expression in the detrusor muscle, and a tendency to higher Cx45 expression in the suburothelial layer associated with urge symptoms, whereas Cx40 expression was unaffected. CONCLUSIONS Smooth muscle cells of the human detrusor muscle are coupled by classical gap junctions, forming limited local functional syncytia. Both Cx43 and Cx45 are expressed at low levels in normal detrusor. Up-regulation of Cx43 in patients with urge incontinence supports the possibility of functional changes in the syncytial properties of detrusor smooth muscle cells in this condition. In addition, the observed increase of Cx45 in the myofibroblast cell layer supports the idea that alterations in sensory signalling are also involved. Comparison with previous reports implies that the pathophysiology of urgency is distinct from that of the unstable bladder and other forms of incontinence. [source] Are conventional pressure-flow measurements dependent upon filled volume?BJU INTERNATIONAL, Issue 3 2005Kanagasabai Sahadevan OBJECTIVE To determine, in a prospective study, whether detrusor pressure (pdet.Qmax) and maximum urinary flow rate (Qmax) measurements obtained after filling to maximum cystometric capacity (MCC) differ from those obtained with filling restricted to average voided volume (Vvoid), as standard protocols for pressure flow studies (PFS) mandate bladder filling until the subject has a strong desire to void, which aids standardization but further divorces the test from real-life experience. PATIENTS AND METHODS After calculating the appropriate sample size, 84 patients attending for PFS with an adequately completed 3-day frequency-volume chart were recruited. Each underwent two consecutive PFS with filling to MCC and average Vvoid in a random order, and measurements of pdet.Qmax and Qmax were compared. For men, the agreement for a diagnosis of obstruction between the tests was also assessed. RESULTS Complete data were obtained from 76 (90%) of the patients, with a mean (range) age of 64 (20,94) years. The mean (sd) difference between MCC and average Vvoid was 134 (113) mL (P < 0.01). There were no significant differences between estimates of Qmax, at ,,0.1 (3) mL/s (P = 0.75), and of pdet.Qmax, at ,,1 (13) cmH2O (P = 0.91), obtained within each patient. For men there was 91% agreement (32 of 35) in the classification of obstruction. CONCLUSIONS Restriction of filling to the average Vvoid during PFS allows a closer approximation to normal voiding and results in no clinically relevant change to the value of standard pressure-flow measurements or alters individual classification of obstruction. [source] Neural control of the urethra and development of pharmacotherapy for stress urinary incontinenceBJU INTERNATIONAL, Issue 8 2003M.O. Fraser SUMMARY This review discusses the control of the urethra by the central nervous system, emphasizing the importance of nervous system control and the role of serotonin and noradrenaline in storage, micturition and sphincter reflexes. The concept of pharmacological neuromodulation and the use of pharmacological therapy as first-line therapy for stress urinary incontinence (SUI) is presented. Coordination between the urinary bladder and urethra is mediated by many reflex pathways organized in the brain and spinal cord. During bladder filling, activation of mechanoreceptor afferent nerves in the bladder wall triggers firing in the cholinergic efferent pathways to the external urethral sphincter and in sympathetic adrenergic pathways to the urethral smooth muscle. These storage reflexes depend on interneuronal circuitry in the spinal cord and are modulated by descending pathways. It would therefore seem that neurotransmission in the central nervous system and periphery may be important in SUI, and moreover that pharmacological agents affecting these neurotransmitter pathways may be used to treat SUI. The central and peripheral mechanisms of action of duloxetine affect serotonin and noradrenaline neurotransmission in ways that may ameliorate the symptoms of SUI. [source] The role of capsaicin-sensitive afferents in autonomic dysreflexia in patients with spinal cord injuryBJU INTERNATIONAL, Issue 7 2003Y. Igawa OBJECTIVES To determine whether capsaicin-sensitive nerves in the bladder form the afferent limb involved in autonomic dysreflexia (AD) in patients with spinal cord injury (SCI). PATIENTS AND METHODS Seven men with SCI (five cervical cord, two thoracic cord) with AD and detrusor hyper-reflexia (DH) were enrolled. Under general anaesthesia, capsaicin solution (100 mL of 2 mmol/L in 10% ethanol) was instilled in the bladder and retained for 30 min. The patients were assessed by medium-fill cystometry (CMG) just before and 50 min after the capsaicin treatment. Intra-arterial blood pressure (BP) and heart rate were monitored continuously throughout the procedure; 10% ethanol was instilled before capsaicin treatment in four patients as a control. Serum catecholamines were measured during bladder filling and capsaicin treatment, and the blood ethanol concentration also measured after instillation in all patients. The CMG with concomitant monitoring of BP and heart rate was repeated 1 week, 1, 3, 6, 12 and 24 months after instillation. In two patients the instillations were repeated 5 and 12 months after the first because of recurrence of DH. Urodynamic variables assessed were maximum cystometric capacity (MCC), maximum amplitude of uninhibited detrusor contraction (UICmax), the bladder capacity at 40 cmH2O detrusor pressure (Cdp40) and a systolic BP of> 140 mmHg or diastolic BP of> 90 mmHg (CHT). RESULTS There was an increase in BP and a decrease in heart rate in all patients during bladder filling before capsaicin treatment. Instillation of capsaicin produced a significant increase in both systolic and diastolic BP and a significant decrease in heart rate. The maximum cardiovascular effects were at 5,10 min after instillation and gradually returned to baseline within 40 min. The vehicle had negligible effects on either BP or heart rate. After capsaicin treatment, the responses of BP and heart rate to bladder distension were significantly reduced. Both serum catecholamine values and the blood ethanol concentration remained within normal limits. The mean (range) follow-up after the first treatment was 15 (6,30) months. One month after treatment all seven patients became continent and their episodes of AD became negligible and well tolerable between catheterizations (for 3,4 h); the effects lasted for , 3 months in all. MCC was significantly increased at 4 weeks and 3 months, and UICmax significantly decreased at 4 weeks after treatment. Both mean Cdp40 and CHT increased 1 week, 1 and 3 months after treatment. Two patients received a second instillation, and have been continent with no symptomatic AD for 6 and 24 months. The remaining five patients have been continent with no symptomatic AD for 6,12 months. CONCLUSION These results indicate that intravesical capsaicin, but not the vehicle, acutely triggers AD in patients with SCI, suggesting involvement of bladder capsaicin- sensitive afferents in AD in these patients. The results also suggest that intravesical capsaicin may be a promising therapy for both AD and DH in such patients. Further long-term follow-up studies are needed to evaluate the duration of its effect. [source] The influence of bladder filling on anorectal functionCOLORECTAL DISEASE, Issue 3 2003J. J. Crosbie Abstract Objective The aim of this study was to develop a technique to simultaneously evaluate bladder and anorectal function. In particular, this study was designed to determine if anal sphincter resting pressure, anal sphincter squeeze pressure and rectal sensation change with bladder filling. Patient and methods A pilot study of ten female patients who presented to the pelvic physiology unit for assessment of urinary symptoms was performed. All patients completed a symptom questionnaire and quality of life assessment form. Following informed consent a baseline urodynamic test was performed with the bladder empty and subsequently followed by an anorectal manometric test. Changes in anal sphincter resting pressure, squeeze pressure and rectal pressure were recorded over a ten-minute period. With the patient lying in the left lateral position, the bladder was then filled with isotonic saline at room temperature at a constant rate of 30ml/min. A continuous assessment of changes in anal sphincter resting pressure during bladder filling was made. Anal sphincter squeeze pressure and rectal sensation were measured at fixed intervals during bladder filling (50, 100, 150 ml etc.) and at fixed intervals relative to bladder capacity (25, 50, 75 and 100% capacity) by stopping bladder filling at the appropriate level. Results , There was no significant change in anal sphincter resting pressure (Mean difference(s.d.) between bladder full and empty = 2.7(5.6) P = 0.92*), squeeze pressure (Mean(s.d.) difference = 9.5(26.3) P = 0.86*) and rectal sensation (Mean difference(s.d.) first sensation 10(15.2) P = 0.958; Mean difference(s.d.) urgency = 10(17.8) P = 0.07*) on bladder filling. Conclusion , Under normal physiological circumstances, bladder filling does not influence anorectal function. *Stastistical analysis: Wilcoxon signed rank sum test. P < 0.05 considered significant. Units = mmHg [source] | ||||||||||