Thursday, September 5, 2019
Refractory Monosymptomatic Nocturnal Enuresis Treatment
Refractory Monosymptomatic Nocturnal Enuresis Treatment Role of Posterior Tibial Nerve Stimulation in the Treatment ofà Refractory Monosymptomatic Nocturnal Enuresis: A Pilot Study Ali Abdel Raheem,* Yasser Farahat, Osama El-Gamal, Maged Ragab,à Mohamed Radwan, Abdel Hamid El-Bahnasy, Abdel Naser El-Gamasyà and Mohamed Rasheed Purpose: We evaluated the early clinical and urodynamic results of posterior tibialà nerve stimulation in patients with refractory monosymptomatic nocturnal enuresis. Materials and Methods: We randomly assigned 28 patients with refractoryà monosymptomatic nocturnal enuresis to 2 equal groups. Group 1 received aà weekly session of posterior tibial nerve stimulation for 12 weeks and group 2 wasà the placebo group. Evaluation was performed in each group at baseline and afterà posterior tibial nerve stimulation to compare clinical and urodynamic findings. Another clinical assessment was done 3 months after the first followup. Results: The 2 groups were comparable in baseline clinical and urodynamic data. Overall, 13 patients (46.4%) had detrusor overactivity and 14 (50%) had decreasedà bladder capacity. After treatment 11 group 1 patients (78.6%) had a partial or fullà response to posterior tibial nerve stimulation but only 2 (14.3%) in group 2 had aà partial response (p 0.002). Also, the average number of wet nights in group 1 wasà significantly lower than at baseline (p 0.002). All urodynamic parameters significantlyà improved in group 1. In contrast, the number of wet nights and urodynamicà parameters did not change significantly in group 2. At 3-month followup the numberà of patients with a partial or full response in group 1 had decreased from 11 (78.6%)à to 6 (42.9%). No change was evident in group 2. Conclusions: Posterior tibial nerve stimulation can be a viable treatment optionà in some patients with refractory monosymptomatic nocturnal enuresis. However,à deterioration in some responders with time suggests the need for maintenanceà protocols. Key Words: urinary bladder, nocturnal enuresis, transcutaneous electricà nerve stimulation, urodynamics, treatment outcomeà NOCTURNAL enuresis is usually associatedà with severe psychological and socialà distress to children and their families. 1 In recent years several treatmentà modalities emerged to treat NE, suchà as behavioral therapy,2 alarm treatment,à 3 medical therapy with desmopressin,à oxybutynin and imipramine,à and combination therapy.4ââ¬â6 However,à none has been completely successful andà the relapse rate of all of them is significant. 7ââ¬â9 Therefore, there is a great needà to find other treatments that could beà more effective and durable than currentà therapy.à The pathogenesis of refractory NEà was discussed in many studies and attributedà to decreased bladder capacityà and/or PTNS was introduced with earlyà promising results as neuromodulativeà therapy for diseases that involve theà lower urinary tract and for refractory conditions inà adults and children.15ââ¬â19 These beneficial effects ofà PTNS for controlling various bladder disorders ledà us to try it in patients with refractory primary MNE.à MATERIALS AND METHODS A total of 28 patients were included in this prospective,à randomized, placebo controlled, single blind study fromà January 2010 to March 2012 at the urology department atà Tanta University Hospital. The study protocol was reviewedà and approved by the Tanta University institutionalà review board. Informed consent was obtained fromà all participants or from parents if the patient was youngerà than 18 years. We recruited patients with severe (3 or more wet nightsà per week) primary MNE at least 6 months in duration inà whom available conventional and combination therapiesà had failed, including desmopressin, anticholinergics andà an alarm. We excluded those with secondary NE, nonMNE,à nocturnal polyuria and any neurological abnormality. All patients provided a detailed history and underwentà complete physical examination, urinalysis, x-ray of theà lumbo-sacral spine and ultrasound of the urinary system.à All patients were asked to keep a nocturnal enuresis diaryà for 2 weeks, which included the time of sleep and arousal,à and whether they had a dry or wet bed in the morning. Nocturnal urinary output was measured as the total urineà volume collected in the diaper after voiding during the lastà night (assessed by weighing the diaper in the morning)à plus the first morning urine volume. Nocturnal polyuriaà was defined as nocturnal urine output 130% or greater ofà EBC for age.20 The Arabic version of a 2-day frequency-volume chartà (adapted from the Pan Arab Continence Society, www.pacsoffice.com) was obtained from all patients to confirmà that the problem was MNE. Daytime functional bladder capacity was considered the recorded MVV. EBC for ageà was calculated by the formula, 30 _ (age in years _ 30). Children with MVV less than 65% of EBC for age wereà considered to have a small bladder.20 All patients also underwent urodynamic tests, as performedà by the same urodynamicist using a Delphis-KTà device (Laborie, Toronto, Ontario, Canada), includingà 1) uroflowmetry with PVR estimation by ultrasound for atà least 2 voids and 2) cystometrogram, including 1 fillingà cycle using an 8Fr double lumen urethral catheter withà the patient supine and a slow filling rate of 10 ml perà minute. Patients were randomly divided into 2 equal groups byà method. Randomization was done blindly by having anà independent nurse randomly take a card from an envelopeà containing 14 cards for group 1 and 14 for group 2. Groupà 1 received active PTNS treatment sessions using theà Urgentà ® PC Neuromodulation System, while group 2 underwentà a sham procedure. Treatment Protocol We applied the technique described by Stoller.21 The patientà lay supine with the soles of the feet together, and theà knees abducted and flexed (frog position). A 34 gaugeà needle was inserted percutaneously approximately 2à inches (5 cm) cephalad to the medial malleolus and 1 cmà from the posterior margin of the tibia at an angle of 60à degrees from the skin surface and the lead wire attachedà to it. The surface electrode was placed on the same legà near the arch of the foot over the calcaneus bone. Theà device was turned on and amplitude was slowly increasedà until the largest toe of the patient began to curl, the digitsà fanned or the entire foot extended, indicating proximity toà the nerve bundle (see figure). If this response was notà achieved or pain occurred near the insertion site, theà device was turned off and the procedure was repeated. When the needle was inserted in the correct position, theà current was set at a tolerable level (pain threshold) andà the session continued for 30 minutes. For the sham procedure we tested only the foot responseà to the electrical impulse and then turned off theà apparatus during the whole session. To avoid patientà identification of the type of procedure all participantsà were informed that they may or may not feel a sensoryà stimulus in the lower extremities during the treatmentà sessions. Groups 1 and 2 underwent 12 weekly outpatient treatmentà sessions. All participants were advised to stop allà medical treatment for NE at least 1 month before startingà PTNS but to continue behavioral therapy, including fluidà A, neuromodulation system. B, system in use with flexion of left largest toe.à restriction at night, complete bladder emptying beforeà sleep and awakening 2 hours after sleep to void. Patient Assessment The first patient evaluation was done in the first 2 weeksà after the last session. This evaluation involved repeatingà the clinical and urodynamic assessments. The clinical partà included a nocturnal enuresis diary for 2 weeks in whichà the number of wet nights/week was reported as well as aà 2-day frequency-volume chart. The clinical response to treatment was assessed asà outlined by the International Childrenââ¬â¢s Continence Society,à including no responseââ¬âless than a 50% decrease inà the total number of wet nights, partial responseââ¬â50% toà 89% decrease, responseââ¬â90% or greater decrease and fullà responseââ¬â100% decrease.20 Urodynamic assessment includedà uroflowmetry, PVR measurement and cystometry. The second evaluation was done 3 months after the lastà session. It involved clinical evaluation using nocturnalà and voiding diaries only. Statistical Analysis All statistical analysis was performed using SPSSà ® 17.à Data are shown as the mean SD unless otherwise specified. The Student t and paired sample t tests were usedà for comparison between groups and in the same group,à respectively. Nonparametric data were compared by theà Wilcoxon signed ranks or Mann-Whitney U test. Statisticalà significance was considered at p 0.05. RESULTS Recruited for this study were 28 patients with refractoryà NE who met inclusion criteria. Initial assessmentà and baseline characteristics of each groupà showed no significant difference in clinical and urodynamicà parameters (table 1). Overall, in the 2à groups DO was present in 13 patients (46.4%) andà 14 (50%) had decreased bladder capacity.à The procedure was performed easily with no adverseà effects in all cases. No patient discontinuedà the planned sessions. At the end of the PTNS sessions clinical assessmentà revealed significant improvement in the average numberà of wet nights per week in group 1 (decrease fromà 4.7 to 2.6, p 0.002, table 2). Compared to the placeboà group, the number of wet nights after treatment wasà significantly lower in group 1 (p 0.041, table 2). Atà that time 4 group 1 patients (28.6%) had a completeà response to PTNS, 7 (50%) had a partial response andà 3 were nonresponders. However, in group 2 there wereà 2 patients (14.3%) with a partial response, while theà remainder did not respond. When we compared the 2à groups, the difference in this response rate was statisticallyà significant (p 0.002, table 2). At first evaluation after the end of treatment, theà active group showed significant improvement in allà urodynamic parameters compared to baseline, includingà first and strong desire to void, and MCCà (p 0.002, 0.01 and 0.000, respectively, table 2). Inà group 2 these parameters did not significantly differà compared to baseline (table 2). Also, DO disappearedà in 2 of 7 group 1 patients but this improvement wasà not noted in the sham treated group (table 2). Statisticalà analysis revealed that the difference be- Table 1. Patient characteristics Active Placebo p Value No. boys/girls 8/6 9/5 1 Mean SD age (yrs) 13.7 2.8 14 2.8 0.8 Mean SD body mass index (kg/m2) 24.95 4.40 26.27 4.23 0.43 Mean SD max urine flow (ml/sec) 26.85 6.74 23.28 5.49 0.13 Mean SD PVR (ml) 6.21 7.11 5.86 5.48 0.9 Mean SD daytime frequency 3.9 0.67 4.29 0.64 0.07 Mean SD MVV (ml) 266.57 82 288.93 106.29 0.27 Mean SD No. wet nights/wk 4.7 1.3 5.1 1.4 0.42 No. detrusor overactivity: Present 7 6 1 Absent 7 8 ââ¬â Mean SD void desire (ml): 1st 148.46 25.89 153.50 21.65 0.59 Strong 260.43 84.18 271.79 75.43 0.71 Mean SD MCC (ml) 291.21 86.82 322.21 76.04 0.32 Table 2. Intragroup and intergroup comparisons of clinical and urodynamic findings after PTNS at first evaluation Active Placebo Baseline After Treatment p Value Baseline After Treatment p Value Posttreatment p Value Mean SD void desire (ml): 1st 148.46 25.89 177.71 35.48 0.002 153.50 21.65 154.14 20.71 0.59 0.041 Strong 260.43 84.18 283.64 72.03 0.01 271.79 75.43 271.6 72.8 0.94 0.67 Mean SD MCC (ml) 291.21 86.82 322.5 65.89 0.000 322.21 76.04 323.57 77.44 0.57 0.97 No. detrusor overactivity: Present 7 5 0.44 6 6 1 0.7 Absent 7 9 8 8 Mean SD MVV (ml) 266.57 82 280.14 71.81 0.022 288.93 106.29 291.07 96.84 0.73 0.6 Mean SD No. wet nights/wk 4.7 1.3 2.6 2.2 0.002 5.1 1.4 4.7 2.1 0.08 0.041 No. response: ââ¬â ââ¬â ââ¬â ââ¬â Full 4 0 0.002 Partial 7 2 None 3 12 1516 POSTERIOR TIBIAL NERVE STIMULATION FOR REFRACTORY NOCTURNAL ENURESIS tween the 2 groups in this regard was not statisticallyà significant (p 0.7, table 2). Furthermore, inà this evaluation urodynamic parameters showed thatà bladder volume at first desire to void was significantlyà higher in group 1 than in group 2 (p 0.041). On the other hand, bladder volume at strong desireà to void and MCC did not significantly differ betweenà the groups (p 0.67 and 0.97, respectively, table 2). Five of the 8 group 1 patients with decreased EBCà showed improved capacity. MVV also significantlyà increased after treatment from a mean of 266.57à 82 to 280.14 71.81 cc (p 0.022, table 2). When we studied the relationship between the responseà to PTNS and initial urodynamic findings, weà noted that all 10 group 1 patients with small bladderà capacity and/or DO showed a good response to treatment,à including 4 and 6 with a full and partial response,à respectively. However, when we compared the type ofà response in those with normal vs abnormal urodynamicà results, the 4 patients with normal urodynamic findingsà in this group had a poor response to the sessions, includingà 3 with no response and 1 with only a partial response. This difference was significant (p 0.007). Clinical results at 3 months after the last sessionà showed some deterioration in early results in theà active group. In this group the number of patientsà à ith a full response decreased from 4 to 2 and theà number of those with a partial response decreasedà from 7 to 4. No change was detected in the otherà group. However, when we compared the responseà rate in the 2 groups at this time, we detected noà significant difference (p 0.13). In addition, theà average number of wet nights per week at that timeà was 2.9 in group 1 and 4.2 in group 2, which did notà significantly differ (p 0.07). DISCUSSION This study demonstrates that PTNS could be of valueà in some patients with primaryMNEin whom previousà conventional therapies failed. To our knowledge thisà treatment modality has not been tried before in suchà cases but it has been successfully used for overactiveà bladder syndrome,22,23 lower urinary tract dysfunctionà in adults and children,15,18 refractory overactive bladder,à 16 refractory vesical dysfunction19 and refractoryà nonneurogenic bladder sphincter dysfunction.17à Absent daytime lower urinary tract symptoms inà patients with NE does not necessarily mean that theà bladder functions well because DO and/or decreasedà bladder capacity was previously reported in suchà patients.10,11 The clinical response to desmopressinà therapy is less satisfactory when NE is associatedà with decreased bladder capacity and/or DO.12ââ¬â14 Inà our study we detected DO and decreased bladderà capacity in 46.4% and 50% of patients, respectively,à although patients with MNE only were included inà analysis. These values agree with previous reportsà showing bladder overactivity24 and small bladderà capacity25 in 49% and 50% of children with MNE,à respectively. These findings may partially explainà the mechanism of resistance to the previous treatmentà trials in our patients. Our results and those of others reveal that PTNSà can be applied easily and safely in children.18,19à After the 12 PTNS sessions in our series, patientsà showed a significant increase in MVV and urodynamicà parameters, including first and strong desireà to void, and MCC, compared to the placebo group. These results agree with those in previous reportsà demonstrating that PTNS increased cystometric capacityà from 197 to 252 cc26 and from 243 to 340 cc,27à and increased MVV by 39 cc, which was statisticallyà significant.23 However, at 3-month followup we detected someà deterioration in the response rate compared to earlyà results. The overall number of full and partial respondersà decreased from 11 (78.6%) to 6 (42.9%) inà group 1. This deterioration during followup suggestsà that PTNS may have temporary efficacy and its effectà decreases gradually with time. This finding was alsoà noted in patients with overactive bladder treated withà PTNS. van der Pal reported that 7 of 11 patients withà an initially good response had evidence of subjectiveà and objective deterioration after PTNS.28 They suggestedà the need for maintenance treatment. The early promising results of this study encouragedà us to suggest that PTNS might be effectiveà in patients with refractory primary MNE inà whom nocturnal polyuria is not an etiological factorà but in whom the main underlying pathologicalà condition is decreased bladder capacity and/or DO. However, the exact mechanism that could explainà the mode of action of this treatment modality isà still unknown. PTNS may induce some inhibitoryà effects on DO. The existence of this functionalà abnormality in the bladder implies that the detrusorà is not completely relaxed between voids.à Therefore, the capacity of the overactive bladder isà usually smaller than that of the bladder with aà normal detrusor. Consequently, the clinical responseà usually occurs when bladder capacity increasesà and DO improves after PTNS. This explanationà may be supported by the improvement inà bladder capacity (functional and cystometric) andà the disappearance of DO in patients who respondedà to PTNS in our study. The main limitations of this study are the smallà sample size and the short 3-month followup. Inà addition, we did not repeat urodynamic tests atà the second followup at 3 months to avoid patientà discomfort but depended only on the patient clinicalà response. However, this information could be important for assessing the cause of the deterioration in PTNS efficacy after treatment wasà stopped. CONCLUSIONS PTNS appears to be a viable treatment option inà some patients with refractory primary MNE. However,à deterioration in the response rate with timeà raises important questions about the long-termà efficacy of this therapy and the need for furtherà maintenance sessions. More studies are needed toà support our findings and select patients whoà would be good candidates for this therapy.
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