Towards a catheter free status in neurogenic bladder dysfunction: a review of bladder management options in spinal cord injury (SCI)

Functional mapping of the lower urinary tract by epidural electrical stimulation of the spinal cord in decerebrated cat model

Several neurologic diseases including spinal cord injury, Parkinson's disease or multiple sclerosis are accompanied by disturbances of the lower urinary tract functions. Clinical data indicates that chronic spinal cord stimulation can improve not only motor function but also ability to store urine and control micturition. Decoding the spinal mechanisms that regulate the functioning of detrusor (Detr) and external urethral sphincter (EUS) muscles is essential for effective neuromodulation therapy in patients with disturbances of micturition. In the present work we performed a mapping of Detr and EUS activity by applying epidural electrical stimulation (EES) at different levels of the spinal cord in decerebrated cat model. The study was performed in 5 adult male cats, evoked potentials were generated by EES aiming to recruit various spinal pathways responsible for LUT and hindlimbs control. Recruitment of Detr occurred mainly with stimulation of the lower thoracic and upper lumbar spinal cord (T13-L1 spinal segments). Responses in the EUS, in general, occurred with stimulation of all the studied sites of the spinal cord, however, a pronounced specificity was noted for the lower lumbar/upper sacral sections (L7-S1 spinal segments). These features were confirmed by comparing the normalized values of the slope angles used to approximate the recruitment curve data by the linear regression method. Thus, these findings are in accordance with our previous data obtained in rats and could be used for development of novel site-specific neuromodulation therapeutic approaches.

Stem Cell Therapy in Spinal Cord Injury-Induced Neurogenic Lower Urinary Tract Dysfunction

Spinal cord injury (SCI) is a devastating condition that enormously affects an individual's health and quality of life. Neurogenic lower urinary tract dysfunction (NLUTD) is one of the most important sequelae induced by SCI, causing complications including urinary tract infection, renal function deterioration, urinary incontinence, and voiding dysfunction. Current therapeutic methods for SCI-induced NLUTD mainly target on the urinary bladder, but the outcomes are still far from satisfactory. Stem cell therapy has gained increasing attention for years for its ability to rescue the injured spinal cord directly. Stem cell differentiation and their paracrine effects, including exosomes, are the proposed mechanisms to enhance the recovery from SCI. Several animal studies have demonstrated improvement in bladder function using mesenchymal stem cells (MSCs) and neural stem cells (NSCs). Human clinical trials also provide promising results in urodynamic parameters after MSC therapy. However, there is still uncertainty about the ideal treatment window and application protocol for stem cell therapy. Besides, data on the therapeutic effects regarding NSCs and stem cell-derived exosomes in SCI-related NLUTD are scarce. Therefore, there is a pressing need for further well-designed human clinical trials to translate the stem cell therapy into a formal therapeutic option for SCI-induced NLUTD.

Mid-lumbar (L3) epidural stimulation effects on bladder and external urethral sphincter in non-injured and chronically transected urethane-anesthetized rats

Recent pre-clinical and clinical spinal cord epidural stimulation (scES) experiments specifically targeting the thoracolumbar and lumbosacral circuitries mediating lower urinary tract (LUT) function have shown improvements in storage, detrusor pressure, and emptying. With the existence of a lumbar spinal coordinating center in rats that is involved with external urethral sphincter (EUS) functionality during micturition, the mid-lumbar spinal cord (specifically L3) was targeted in the current study with scES to determine if the EUS and thus the void pattern could be modulated, using both intact and chronic complete spinal cord injured female rats under urethane anesthesia. L3 scES at select frequencies and intensities of stimulation produced a reduction in void volumes and EUS burst duration in intact rats. After chronic transection, three different subgroups of LUT dysfunction were identified and the response to L3 scES promoted different cystometry outcomes, including changes in EUS bursting. The current findings suggest that scES at the L3 level can generate functional neuromodulation of both the urinary bladder and the EUS in intact and SCI rats to enhance voiding in a variety of clinical scenarios.

Long-Term Surveillance and Management of Urological Complications in Chronic Spinal Cord-Injured Patients

Bladder dysfunction is a common complication after chronic spinal cord injury (SCI). Patients may experience renal function loss, urinary tract infection (UTI), urolithiasis, bladder cancer, and even life-threatening events such as severe sepsis or renal failure. Suitable patient care may prevent UTI and urinary incontinence, decrease medication use, and preserve renal function. As the primary goal is to preserve renal function, management should be focused on facilitating bladder drainage, the avoidance of UTI, and the maintenance of a low intravesical pressure for continence and complete bladder emptying. Currently, several bladder management options are available to SCI patients: (1) reflex voiding; (2) clean intermittent catheterization; (3) indwelling catheterization. The target organ may be the bladder or the bladder outlet. The purposes of intervention include the following: (1) increasing bladder capacity and/or decreasing intravesical pressure; (2) increasing bladder outlet resistance; (3) decreasing bladder outlet resistance; (4) producing detrusor contractility; (5) urinary diversion. Different bladder management methods and interventions may have different results depending on the patient's lower urinary tract dysfunction. This review aims to report the current management options for long-term bladder dysfunction in chronic SCI patients. Furthermore, we summarize the most suitable care plans for improving the clinical outcome of SCI patients.

Timeline of Changes in Biomarkers Associated with Spinal Cord Injury-Induced Polyuria

Deficits in upper and lower urinary tract function, which include detrusor overactivity, urinary incontinence, detrusor-sphincter dyssynergia, and polyuria, are among the leading issues that arise after spinal cord injury (SCI) affecting quality of life. Given that overproduction of urine (polyuria) has been shown to be associated with an imbalance in key regulators of body fluid homeostasis, the current study examined the timing of changes in levels of various relevant hormones, peptides, receptors, and channels post-contusion injury in adult male Wistar rats. The results show significant up- or downregulation at various time points, beginning at 7 days post-injury, in levels of urinary atrial natriuretic peptide, serum arginine vasopressin (AVP), kidney natriuretic peptide receptor-A, kidney vasopressin-2 receptor, kidney aquaporin-2 channels, and kidney epithelial sodium channels (β- and γ-, but not α-, subunits). The number of AVP-labeled neurons in the hypothalamus (supraoptic and -chiasmatic, but not paraventricular, nuclei) was also significantly altered at one or more time points. These data show significant fluctuations in key biomarkers involved in body fluid homeostasis during the post-SCI secondary injury phase, suggesting that therapeutic interventions (e.g., desmopressin, a synthetic analogue of AVP) should be considered early post-SCI.

Low pressure voiding induced by stimulation and 1 kHz post-stimulation block of the pudendal nerves in cats

The goal of this study is to induce low-pressure voiding by stimulation and bilateral 1 kHz post-stimulation block of the pudendal nerves. In anesthetized cats, wire hook electrodes were placed on the left and/or right pudendal nerves. Stimulus pulses (30 Hz, 0.2 ms) were applied to one pudendal nerve to induce a reflex bladder contraction and to produce contractions of the external urethral sphincter (EUS). High frequency (1 kHz) biphasic stimulation was applied to block axonal conduction in both pudendal nerves and block EUS activity. In 4 cats, a catheter was inserted into the distal urethra to perfuse and measure the back pressure caused by the EUS contraction. In another 5 cats, a catheter was inserted into the bladder dome and the urethra was left open to allow voiding. The 1 kHz stimulation (30-60 s, 0.5-5 mA) delivered via a wire hook electrode completely blocked pudendal nerve conduction for ≥2 min after terminating the stimulation, i.e., a post-stimulation block. The block gradually disappeared in 6-18 min. The block duration increased with increasing amplitude or duration of the 1 kHz stimulation. Without the 1 kHz block, 30 Hz stimulation alone induced high-pressure (90 cmH₂O) voiding. When combined with the 1 kHz block, the 30 Hz stimulation induced low-pressure (≤50 cmH₂O) voiding with a high voiding efficiency (80%). In summary, a minimally invasive surgical approach might be developed to restore voiding function after spinal cord injury by stimulation and block of the pudendal nerves using lead electrodes.

Autophagy activation promotes the effect of iPSCs-derived NSCs on bladder function restoration after spinal cord injury

The role of autophagy in the transplantation of induced pluripotent stem cells (iPSCs)-derived neural stem cells (NSCs) to treat spinal cord injury (SCI) and neurogenic bladder was investigated in this study. NSCs derived from human iPSCs were identified by and immunofluorescence assay. To clarify the role of autophagy, iPSCs were treated with either an autophagy inducer (rapamycin), or an autophagy inhibitor (chloroquine). Cell Counting kit-8 (CCK-8), western blot and flow cytometry were used to detect the effect of autophagy on the viability and differentiation of iPSCs. Sixty Wistar rats were selected to establish the SCI model and treated with iPSCs-derived NSCs transplantation. The effect of autophagy on the bladder function of rats with different treatments was evaluated by Basso, Beattie, and Bresnahan (BBB) score, bladder function score, bladder weight measurement, Hematoxylin & Eosin (H&E) staining, and Masson staining. The results of in vitro experiment showed that rapamycin enhanced the cell activity of iPSCs, increased the number of nestin positive cells, up-regulated Beclin-1 and LC3BI/II expressions, and down-regulated p62 expression. And the results of in vivo experiment showed that rapamycin improved exercise ability and bladder function, partially restored bladder weight, and significantly reduced bladder tissue damage in SCI rats. However, chloroquine showed the opposite results. The differentiation of iPSCs into NSCs could be promoted by induced autophagy, while neurogenic bladder of SCI was restored by autophagy activation.

Restoring both continence and micturition after chronic spinal cord injury by pudendal neuromodulation

Neurogenic bladder management after spinal cord injury (SCI) is very challenging. Daily urethral catheterization is most commonly used to empty the bladder, which causes frequent infections of the lower urinary tract. This study reports a novel idea to restore both continence and micturition after SCI by an implantable pudendal nerve stimulator (PNS). The PNS was surgically implanted in four cats with complete SCI at T9-T10 spinal level and tested weekly for 13-14 weeks under awake conditions. These chronic SCI cats consistently exhibited large residual bladder volumes (average 40-50 ml) due to their inability to void efficiently, while urine leakage also occurred frequently. The PNS which consisted of stimulating the pudendal nerve at 20-30 Hz to trigger a spinal reflex bladder contraction and at the same time blocking the pudendal nerves bilaterally with 10 kHz stimulation to relax the external urethral sphincter and reduce the urethral outlet resistance successfully induced highly efficient (average 80-100%), low pressure (<50 cmH₂O) voiding. The PNS at 5 Hz also promoted urine storage by inhibiting reflex bladder activity and increasing bladder capacity. At the end of 14-week chronic testing, low pressure efficient voiding induced by PNS was further confirmed under anesthesia by directly measuring voiding pressure using a bladder catheter inserted through the bladder dome. This study demonstrated the efficacy and safety of the PNS in awake chronic SCI cats, suggesting that a novel neuroprosthesis can be developed for humans to restore bladder function after SCI by stimulating and/or blocking the pudendal nerves.

Delivery of the 5-HT2A Receptor Agonist, DOI, Enhances Activity of the Sphincter Muscle during the Micturition Reflex in Rats after Spinal Cord Injury

Simple Summary

Spinal cord injury often disrupts connections between the brain and spinal cord leading to a plethora of health complications, including bladder dysfunction. Spinal cord injured patients are left with symptoms such as a leaky bladder (the inability to hold their urine), frequent urinary tract infections, and potential kidney failure. However, previous studies have shown that manipulation of serotoninergic receptors can improve urinary performance following spinal cord injury. In the current study, we sought to explore how stimulation of a specific serotonergic receptor subtype can significantly enhance bladder function in spinal cord injured rats. To do so, we utilized spinal cord injured female rats that underwent various bladder performance evaluations combined with pharmacological intervention of a specific serotonergic subtype. Additionally, the primary site of action was investigated to determine effects elicited during various administration routes (e.g., directly into the cord, into the femoral vein, or into the skin). Stimulation of this receptor subtype, regardless of delivery route, improved activity of the external urethral sphincter and detrusor-sphincter coordination in spinal cord injured rats. Collectively, the results of these experiments have the potential to provide vital guidance for the development of therapeutic strategies to alleviate urinary dysfunction following spinal cord injury.

Abstract

Traumatic spinal cord injury (SCI) interrupts spinobulbospinal micturition reflex pathways and results in urinary dysfunction. Over time, an involuntary bladder reflex is established due to the reorganization of spinal circuitry. Previous studies show that manipulation of serotonin 2A (5-HT_2A) receptors affects recovered bladder function, but it remains unclear if this receptor regulates the activity of the external urethral sphincter (EUS) following SCI. To elucidate how central and peripheral serotonergic machinery acts on the lower urinary tract (LUT) system, we employed bladder cystometry and EUS electromyography recordings combined with intravenous or intrathecal pharmacological interventions of 5-HT_2A receptors in female SCI rats. Three to four weeks after a T10 spinal transection, systemic and central blockage of 5-HT_2A receptors with MDL only slightly influenced the micturition reflex. However, delivery of the 5-HT_2A receptor agonist, DOI, increased EUS tonic activity and elicited bursting during voiding. Additionally, subcutaneous administration of DOI verified the enhancement of continence and voiding capability during spontaneous micturition in metabolic cage assays. Although spinal 5HT_2A receptors may not be actively involved in the recovered micturition reflex, stimulating this receptor subtype enhances EUS function and the synergistic activity between the detrusor and sphincter to improve the micturition reflex in rats with SCI.

Effect of Different Forms of Activity-Based Recovery Training on Bladder, Bowel, and Sexual Function After Spinal Cord Injury

OBJECTIVES

To investigate whether the urogenital and bowel functional gains previously demonstrated post-locomotor step training after chronic spinal cord injury could have been derived due to weight-bearing alone or from exercise in general.

DESIGN

Prospective cohort study; pilot trial with small sample size.

SETTING

Urogenital and bowel scientific core facility at a rehabilitation institute and spinal cord injury research center in the United States.

PARTICIPANTS

Men and women (N=22) with spinal cord injury (American Spinal Injury Association Impairment Scale grades of A-D) participated in this study.

INTERVENTIONS

Approximately 80 daily 1-hour sessions of either stand training or nonweight-bearing arm crank ergometry. Comparisons were made with previously published locomotor training data (step; N=7).

MAIN OUTCOME MEASURES

Assessments at both pre- and post-training timepoints included cystometry for bladder function and International Data Set Questionnaires for bowel and sexual functions.

RESULTS

Cystometry measurements revealed a significant decrease in bladder pressure and limited improvement in compliance with nonweight-bearing exercise but not with standing. Although International Data Set questionnaires revealed profound bowel dysfunction and marked deficits in sexual function pretraining, no differences were identified poststand or after nonweight-bearing exercise.

CONCLUSIONS

These pilot trial results suggest that, although stand and weight-bearing alone do not benefit pelvic organ functions after spinal cord injury, exercise in general may contribute at least partially to the lowering of bladder pressure and the increase in compliance that was seen previously with locomotor training, potentially through metabolic, humoral, and/or cardiovascular mechanisms. Thus, to maximize activity-based recovery training benefits for functions related to storage and emptying, an appropriate level of sensory input to the spinal cord neural circuitries controlling bladder and bowel requires task-specific stepping.

Bladder management practices in spinal cord injury patients: A single center experience from a developing country

Context/Objective: Inadequate bladder management in spinal cord injury (SCI) patients results in significant morbidity and even mortality. Clean intermittent catheterization (CIC) is the recommended option for SCI patients. The objective of the study was to document the bladder management practices of SCI patients in a developing country.Design: Questionnaire based cross sectional surveySetting: Armed Forces Institute of Rehabilitation Medicine, Rawalpindi, PakistanParticipants: All patients with SCI (irrespective of duration, level and etiology)Interventions: Data documentation included demographics, level, severity and time since injury, bladder management techniques used, details of CIC, results of Urodynamic studies (if available), complications resulting from bladder management technique and patient awareness of the yearly follow up. SPSS V 20 was used for analysis.Outcome Measures: Not applicableResults: Thirty four consenting patients were enrolled. All were males. Mean age was 31.24 ± 10.9. Most (17) of the patients were thoracic level paraplegics, while 12 patients had sustained a cervical SCI. Majority (23) had complete injury (ASIA A). Fifteen patients used CIC for bladder management followed by in dwelling Foley catheters in thirteen patients. Those using CIC performed the procedure every four hours and used disposable catheters. The same 'disposable' catheter was used for 5-7 days by half of these patients. Only Six patients independently performed CIC. Three patients on CIC reported urinary tract infection.Conclusions: In the largest spinal rehabilitation unit of a developing country; Pakistan CIC was the preferred method of bladder management followed by indwelling catheter. Re-use of disposable catheters is a common practice due to cost issues. The rate of UTI was significantly lower in patients on CIC.

Activity-Based Training Reverses Spinal Cord Injury-Induced Changes in Kidney Receptor Densities and Membrane Proteins

Complications in upper and lower urinary function arise after spinal cord injury (SCI), which creates a significant impact on quality of life for those affected. One upper urinary complication is SCI-induced polyuria, or the overproduction of urine, of which the underlying mechanisms have yet to be elucidated. Activity-based training (ABT) has been utilized in both animal and clinical settings as a rehabilitative therapy to improve many issues that arise after SCI, including more recently urogenital function. The goal of the current study was to identify potential mechanisms contributing to previously identified improvements in polyuria with ABT, using a male rat moderate-severe spinal contusion model. Although ABT had no significant effect on reversing injury-induced alterations of serum arginine vasopressin and urinary atrial natriuretic peptide levels, there was a dramatic effect upon the receptors of these fluid balance hormones (vasopressin receptor 2 and natriuretic peptide A receptor), as well as kidney aquaporin 2 and sodium channels. ABT changes in densities of key receptors and kidney membrane proteins involved in fluid balance after chronic SCI support the likelihood of multiple mechanisms through which exercise can positively influence urinary tract function after SCI. By understanding the mechanisms, amount, and timing regarding how ABT improves different aspects of urinary function, more targeted training strategies can be developed to optimize the functional gains within the SCI population.

Long-term compliance with bladder management in patients with spinal cord injury: A Saudi-Arabian perspective

Objective: To examine long-term compliance with bladder management in patients with spinal cord injury (SCI) at a tertiary care rehabilitation facility in Saudi Arabia.Design: Cross-sectional survey.Setting: Tertiary care rehabilitation facility in Saudi Arabia.Participants: A self-administered questionnaire was distributed to patients with SCI during their clinic visits. 50 patients (41 males and nine females) participated in the survey. Data documentation included demographic characteristics, type and level of injury, compliance with bladder management and barriers in compliance.Main outcome measures: The type of bladder management employed at first follow-up visit was compared with that employed at discharge.Results: Eleven out of 41 patients who were discharged on clean intermittent catheterization (CIC) stopped it within 3 months of discharge, mainly due to lack of accessibility and financial support to buy catheters. Of the total sample, 23% reported that they did not know the difference between catheter types and their advantages, and 49% stated that they did not receive proper health education regarding bladder management.Conclusion: CIC was the most commonly used bladder management technique in patients with SCI following up at a tertiary care rehabilitation facility in Saudi Arabia. Compliance with CIC may be improved by ensuring access to catheters post-discharge and by providing appropriate education about bladder management during inpatient rehabilitation.

Lumbosacral spinal cord epidural stimulation improves voiding function after human spinal cord injury

Deficits in urologic function after spinal cord injury (SCI) manifest both as a failure to store and empty, greatly impacting daily life. While current management strategies are necessary for urological maintenance, they oftentimes are associated with life-long side effects. Our objective was to investigate the efficacy of spinal cord epidural stimulation (scES) as a promising therapy to improve bladder control after SCI. A bladder mapping study was undertaken for sixteen sessions over the course of four months in an individual with chronic, motor complete SCI. Varying combinations of stimulating cathode electrodes were initially tested during filling cystometry resulting in the identification of an effective configuration for reflexive bladder emptying at the caudal end of the electrode array. Subsequent systematic testing of different frequencies at a fixed stimulus intensity and pulse width yielded lowest post-void residual volumes at 30 Hz. These stimulation parameters were then tested in four additional research participants and found to also improve reflexive voiding efficiency. Taken together with SCI studies on step, stand, voluntary motor control and cardiovascular regulation, these findings further corroborate that scES has an all-encompassing potential to increase the central state of excitability, allowing for the control of multiple body functions, including the urological system.

Improvements in bladder, bowel and sexual outcomes following task-specific locomotor training in human spinal cord injury

OBJECTIVE

Locomotor training (LT) as a therapeutic intervention following spinal cord injury (SCI) is an effective rehabilitation strategy for improving motor outcomes, but its impact on non-locomotor functions is unknown. Given recent results of our labs' pre-clinical animal SCI LT studies and existing overlap of lumbosacral spinal circuitries controlling pelvic-visceral and locomotor functions, we addressed whether LT can improve bladder, bowel and sexual function in humans at chronic SCI time-points (> two years post-injury).

STUDY DESIGN

Prospective cohort study; pilot trial with small sample size.

METHODS

Eight SCI research participants who were undergoing 80 daily one-hour sessions of LT on a treadmill using body-weight support, or one-hour of LT and stand training on alternate days, as part of another research study conducted at the Kentucky Spinal Cord Injury Research Center, University of Louisville, were enrolled in this pilot trial. Urodynamic assessments were performed and International Data Set questionnaire forms completed for bladder, bowel and sexual functions at pre-and post-training time points. Four usual care (non-trained; regular at-home routine) research participants were also enrolled in this study and had the same assessments collected twice, at least 3 months apart.

RESULTS

Filling cystometry documented significant increases in bladder capacity, voiding efficiency and detrusor contraction time as well as significant decreases in voiding pressure post-training relative to baseline. Questionnaires revealed a decrease in the frequency of nocturia and urinary incontinence for several research participants as well as a significant decrease in time required for defecation and a significant increase in sexual desire post-training. No significant differences were found for usual care research participants.

CONCLUSIONS

These results suggest that an appropriate level of sensory information provided to the spinal cord, generated through task-specific stepping and/or loading, can positively benefit the neural circuitries controlling urogenital and bowel functions.

TRIAL REGISTRATION

ClinicalTrials.gov NCT03036527.

Long-Term Complications of the Neurogenic Bladder

It is widely accepted that neurogenic lower urinary tract dysfunction, when left untreated, has a natural history that has a potential for causing deterioration of renal function over time. However, certain patient profiles are at risk for this and other complications. This can be linked to their underlying neurologic disease process. Identifying risk profiles allows the provider to determine what surveillance strategies might be adopted. Risk factors for upper urinary tract deterioration include loss of bladder compliance, repeated bouts of pyelonephritis, and chronic indwelling catheterization. Other long-term complications include nephrolithiasis, refractory urinary incontinence, and malignancy.

One-Year Mortality of Patients with Chronic Kidney Disease After Spinal Cord Injury: A 14-Year Population-Based Study

OBJECTIVE

Chronic kidney disease (CKD) has become a global public health burden because of its increasing incidence, high risk of progression to end-stage renal disease (ESRD), and poor prognosis. We aimed to investigate the 1-year mortality of patients with spinal cord injury (SCI) with CKD and ESRD, and compare it with that of patients with SCI without CKD by reviewing a large Taiwanese population data set.

METHODS

In this 14-year retrospective cohort study, the study group (SCI with CKD group, n = 3315) and comparison group (SCI without CKD group, n = 6630) were matched at a 1:2 ratio with propensity score matching by age, sex, comorbidities, length of intensive care unit stay, and length of stay. The 1-year mortality and the relative risks of mortality were calculated. Mortality stratified by age, sex, and comorbidities was also analyzed.

RESULTS

The SCI with CKD group had a significantly shorter survival period (10.13 vs. 10.97 months), higher 1-year mortality (17.65% vs. 8.54%), and higher risk of mortality than did the comparison group (adjusted hazard ratio, 2.25). Furthermore, patients with CKD with ESRD had a 7.71-fold higher risk of mortality than did patients with SCI without CKD for ages <50 years. The presence of comorbidities was a risk factor for mortality among patients with SCI CKD or ESRD in contrast to patients with SCI without CKD.

CONCLUSIONS

Patients with SCI with CKD, especially those with ESRD, have a higher risk of mortality than do patients who do not have CKD. Therefore, patients with CKD should have carefully monitoring for the development of 1-year mortality after SCI, especially for ESRD.

Electrical stimulation of dog pudendal nerve regulates the excitatory pudendal-to-bladder reflex

Pudendal nerve plays an important role in urine storage and voiding. Our hypothesis is that a neuroprosthetic device placed in the pudendal nerve trunk can modulate bladder function after suprasacral spinal cord injury. We had confirmed the inhibitory pudendal-to-bladder reflex by stimulating either the branch or the trunk of the pudendal nerve. This study explored the excitatory pudendal-to-bladder reflex in beagle dogs, with intact or injured spinal cord, by electrical stimulation of the pudendal nerve trunk. The optimal stimulation frequency was approximately 15-25 Hz. This excitatory effect was dependent to some extent on the bladder volume. We conclude that stimulation of the pudendal nerve trunk is a promising method to modulate bladder function.

Longitudinal cleavage of the penis in chronic spinal cord injury: two case reports

CONTEXT

Penile cleavage is a rare complication of spinal cord injury (SCI) in patients with a chronic indwelling catheter. We report two cases of chronic SCI who developed penile urethral cleavage after prolonged use of an indwelling catheter for bladder management.

FINDINGS

A 25-year-old wheelchair mobile male with T7 American Spinal Injury Association (ASIA) Impairment Scale (AIS) grade A paraplegia developed a 4 × 1.5 cm ventral urethral cleavage after using an indwelling catheter for four months with inadequate care. He had an associated urinary tract infection and undiagnosed diabetes mellitus. A suprapubic catheter was inserted and surgical repair recommended after resolution of UTI and adequate control of his diabetes mellitus. After initial treatment he was lost to follow-up. The second patient was a 15-year-old male with AIS grade B tetraplegia who presented with a 2.5 cm cleavage on the ventral aspect of penis for the preceding three months. He had been using an indwelling catheter for bladder management for the previous 18 months. He had modified Ashworth scale grade III spasticity in lower limbs resistant to conservative management. There was no history of trauma, infection or diabetes mellitus. The patient was advised penile urethral repair surgery but was lost to follow-up.

CONCLUSION

Penile cleavage is a rare complication of neurogenic bladder in SCI patients. Patients and care givers should be trained in proper bladder management techniques during the hospital stay, counseled regarding the need for regular follow up, and be taught identification and prevention of common complications.

Safety and efficacy of a patient-controlled bladder management system for treating urinary retention in men

AIMS

The CymActive™ Bladder Management System (BMS) is a self-retaining, intraurethral catheter with a patient-controlled magnetic valve that allows cyclical bladder filling and emptying, without external appliances. We determined the safety and efficacy of the BMS in men with urinary retention who required catheterization for more than 7 days.

METHODS

Men requiring continuous drainage, bladder capacity less than 300 ml, history of prostatic or urethral surgery, or urethral length outside of defined limits, were excluded. Data were collected from patient diaries and weekly visits during catheterization for up to 30 days. The primary composite endpoint assessed four outcomes: placement, post-void residual volume (PVR) of 75 ml or less, adverse device-related events requiring early removal, and removal.

RESULTS

Nine of 23 patients met all four criteria: eight of 18 non-neurogenic (7/11 prior Foley users and 1/7 without Foley experience) and one of five neurogenic spinal cord injury (SCI) patients. Secondary outcomes in non-neurogenic patients included: 17/18 successful insertions; of these, 16/17 average PVR of 75 ml; successful valve openings and closings ≥ 95% of more than 1,400 voids; and minimal leakage. Four of five SCI patients discontinued within 7 days. Cystourethroscopy after removal revealed no marked inflammation or mucosal changes.

CONCLUSIONS

This pilot study demonstrated the BMS is potentially useful, convenient, and safe for appropriate patients. A follow-up study will better define the characteristics of patients who benefit from this device and examine whether the use of antimuscarinic agents improves outcomes. Neurourol. Urodynam. 35:630-635, 2016. © 2015 Wiley Periodicals, Inc.

Complication rate of neurogenic lower urinary tract dysfunction after spinal cord injury in Taiwan

PURPOSE

In view of the limited information on neurogenic lower urinary tract dysfunction (NLUTD) after spinal cord injury (SCI) in the literature, this study aimed to investigate the complication rate of NLUTD after SCI and to describe the clinical management of NLUTD in Taiwan.

METHODS

A cross-sectional study was conducted using the National Health Insurance Research Database of Taiwan from which patients newly diagnosed with SCI during 2006-2008 were extracted. Records of diagnosis, prescriptions, and procedures for patients were retrieved to identify NLUTD cases. The utilization of medical treatments including pharmacotherapy and procedures such as intermittent and indwelling catheters was analyzed.

RESULTS

A total of 941 eligible SCI patients were identified, with a mean age of 48.4 (±18.5), of which 575 (61.1 %) were male, and 500 (53.1 %) were with cervical SCI. By the end of 1-year follow-up, 165 (17.5 %) had developed NLUTD. The characteristics were mostly similar between the NLUTD and non-NLUTD groups except in age and length of stay (LOS) in hospitals, where patients with NLUTD were 7.5 years old and had 2.15-month-longer LOS. Over 80 % of NLUTD patients received urinary catheterization, with approximately half also receiving pharmacotherapy.

CONCLUSIONS

This is the first study using nationwide datasets to evaluate the overall complication rate of NLUTD associated with SCI, which is shown to be lower than previously reported. While various treatment options are available, urinary catheterization is the most common treatment for NLUTD.

Short versus long course of antibiotics for catheter-associated urinary tract infections in patients with spinal cord injury: a randomized controlled noninferiority trial

OBJECTIVE

To assess the applicability of a short-course regimen of antibiotics for managing catheter-associated urinary tract infection (CA-UTI) in patients with spinal cord injury (SCI).

DESIGN

Randomized, controlled, noninferiority trial.

SETTING

Medical center.

PARTICIPANTS

Patients with SCI who had CA-UTI (N=61).

INTERVENTIONS

Patients were randomized to receive either a 5-day regimen of antibiotics after catheter exchange (experimental group) or a 10-day regimen of antibiotics with catheter retention (control group). Noninferiority was prespecified with a margin of 10%.

MAIN OUTCOME MEASURE

Clinical cure at the end of therapy.

RESULTS

Of the 61 patients enrolled in this study, 6 patients were excluded because of bacteremia or absence of urinary symptoms. All patients (100%) achieved clinical cure at the end of therapy. The rates of microbiologic response were 82.1% in the experimental group and 88.9% in the control group (upper boundary 95% confidence interval (CI) for difference, 26%). The rates of resolution of pyuria were 89.3% in the experimental group and 88.9% in the control group (upper boundary 95% CI for difference, 16%). Patients in the experimental group had higher rates of CA-UTI recurrence than the control group. The rates of new CA-UTI, diarrhea, and Clostridium difficile colitis were similar in the 2 treatment arms.

CONCLUSIONS

The primary endpoint of the study was met, indicating that the 5-day regimen with catheter exchange was noninferior to the 10-day regimen with catheter retention on the basis of clinical cure. Criteria for noninferiority on the basis of microbiologic response and resolution of pyuria were not met.

Concurrent recordings of bladder afferents from multiple nerves using a microfabricated PDMS microchannel electrode array

In this paper we present a compliant neural interface designed to record bladder afferent activity. We developed the implant's microfabrication process using multiple layers of silicone rubber and thin metal so that a gold microelectrode array is embedded within four parallel polydimethylsiloxane (PDMS) microchannels (5 mm long, 100 μm wide, 100 μm deep). Electrode impedance at 1 kHz was optimized using a reactive ion etching (RIE) step, which increased the porosity of the electrode surface. The electrodes did not deteriorate after a 3 month immersion in phosphate buffered saline (PBS) at 37 °C. Due to the unique microscopic topography of the metal film on PDMS, the electrodes are extremely compliant and can withstand handling during implantation (twisting and bending) without electrical failure. The device was transplanted acutely to anaesthetized rats, and strands of the dorsal branch of roots L6 and S1 were surgically teased and inserted in three microchannels under saline immersion to allow for simultaneous in vivo recordings in an acute setting. We utilized a tripole electrode configuration to maintain background noise low and improve the signal to noise ratio. The device could distinguish two types of afferent nerve activity related to increasing bladder filling and contraction. To our knowledge, this is the first report of multichannel recordings of bladder afferent activity.

Staggered rhizotomy of anterior and posterior sacral roots for bladder reservoir function in spinal cord injury: a canine experimental study and preliminary clinical report

OBJECTIVE

To report an experimental study and preliminary clinical results of staggered anterior and posterior sacral rhizotomy for restoring function of the bladder and preventing reflex incontinence in supra-conal spinal cord injury (SCI).

METHODS

Ten T10 spinal cord transected mongrel dogs were divided into three groups. In group 1 (n= 2), laminectomy only was performed (control). In group 2 (n= 4), all L7-S3 posterior roots were microsurgically cut (complete deafferentation). And in group 3 (n= 4), the L7, S1, S3 posterior roots and S2 anterior root were cut (staggered deafferentation and deefferentation). Intraoperative electrical stimulation and postoperative cystometrography (CMG) were carried out. In the clinic, three patients with spastic bladder caused by a supra conal complete SCI underwent staggered rhizotomy and were followed up for 6 years.

RESULTS

In the canine experimental study, resection of the S2 anterior root combined with L7, S1 and S3 posterior rhizotomy, stimulating the S2 posterior root (four dogs) resulted in a minimal rise in pressure in the bladder and urethra, which was only about 10% of that obtained by stimulating the S2 proximal posterior root while its anterior counterpart was intact (eight dogs, Student's t-test, P < 0.01). The CMG study showed that groups 2 and 3 had similar volume/pressure curves; in both groups the tendency was to develop flaccid bladders. In the clinic, three cases underwent staggered rhizotomy of the anterior and posterior roots in S3 and S4. Good bladder reservoir and compliance was achieved over six years of follow-up.

CONCLUSION

Staggered rhizotomy of the anterior and posterior sacral roots at different spinal cord levels has the same denervation effect as a complete posterior rhizotomy, and good bladder reservoir function can be achieved by this procedure.

Isolated gangrene of the penis in a paraplegic patient secondary to a condom catheter

Isolated gangrene of the penis is rare. Our case was unusual in that gangrene developed due to continuous tourniquet effect on the penis caused by a condom catheter. Also, men with paraplegia appear to have a greater incidence of bacterial colonisation of genital skin as compared to neurologically normal controls. Early therapy is the key, including debridement of entire shaft of the penis distal to the devasted area, parenteral broad-spectrum antibiotics, repeated antiseptic dressings and skin grafting. Early diagnosis by a strong index of suspicion ensures a favourable outcome. Since gangrene of the penis is an irreversible process, this case highlights the importance of proper care and routine maintenance of condom catheters in preventing this complication. Despite extensive search of the literature, I have been able to find only few such cases.

Simvastatin protects bladder and renal functions following spinal cord injury in rats

BACKGROUND

Urinary bladder and renal dysfunction are secondary events associated with spinal cord injury (SCI) in humans. These secondary events not only compromise quality of life but also delay overall recovery from SCI pathophysiology. Furthermore, in experimental models the effects of SCI therapy on bladder and renal functions are generally not evaluated. In this study, we tested whether simvastatin improves bladder and renal functions in a rat model of experimental SCI.

METHODS

SCI was induced by controlled contusion of T9-T10 in adult female rats. Simvastatin (5 mg/Kg body weight) was administered at two hours after SCI and repeated every 24 hours until the end point. Simvastatin-treated SCI animals (simvastatin group) were compared with vehicle-treated SCI animals (vehicle group) in terms of the Basso Beattie Bresnahan score, tissue morphology, cell death, and bladder/renal functions.

RESULTS

The urinary bladder of vehicle animals showed a 4.3-fold increase in size and a 9-fold increase in wet weight compared to sham animals. Following SCI, the urine to plasma osmolality ratio increased initially but decreased 1 week after SCI. Hematoxylin and eosin staining of bladder tissue showed transitional epithelial hyperplasia, degeneration of lamina propria, and enlargement of tunica adventia in addition to detrusor muscle hypertrophy. Rats treated with simvastatin for 14 days displayed remarkable recovery by showing decreased bladder size and maintenance of a normal urine/plasma osmolality ratio, in addition to improved locomotion. The muscularis layer of the bladder also regained its compact nature in simvastatin animals. Moreover, SCI-induced renal caspase-3 activity was significantly decreased in the simvastatin group indicating the ability of simvastatin to reduce the renal tubular apoptosis.

CONCLUSION

Post-injury administration of simvastatin ameliorates bladder and renal dysfunction associated with SCI in rats.

Diagnosis, prevention, and treatment of catheter-associated urinary tract infection in adults: 2009 International Clinical Practice Guidelines from the Infectious Diseases Society of America

Guidelines for the diagnosis, prevention, and management of persons with catheter-associated urinary tract infection (CA-UTI), both symptomatic and asymptomatic, were prepared by an Expert Panel of the Infectious Diseases Society of America. The evidence-based guidelines encompass diagnostic criteria, strategies to reduce the risk of CA-UTIs, strategies that have not been found to reduce the incidence of urinary infections, and management strategies for patients with catheter-associated asymptomatic bacteriuria or symptomatic urinary tract infection. These guidelines are intended for use by physicians in all medical specialties who perform direct patient care, with an emphasis on the care of patients in hospitals and long-term care facilities.

Cortical substrate of bladder control in SCI and the effect of peripheral pudendal stimulation

We investigated (i) the central representation of lower urinary tract (LUT) control and (ii-iii) the acute and short-term central neuromodulatory effect of peripheral pudendal nerve stimulation in incomplete spinal cord injured (SCI) patients using functional magnetic resonance imaging (fMRI). The urinary bladder of eight SCI patients has been passively filled and emptied using a catheter, to identify the neural substrate of bladder control (i), and with simultaneous peripheral pudendal nerve stimulation to investigate its acute central neuromodulatory effect (ii). To identify the potential effects of pudendal nerve stimulation treatment (iii), six patients underwent a 2-week training using pudendal nerve stimulation followed by another fMRI session of bladder filling. The pre- and post-training fMRI results have been compared and correlated with the patient's pre- and post-training urological status. Our results suggest that the central representation of bladder filling sensation is preserved in the subacute stage of incomplete SCI. However, compared to earlier data from healthy subjects, it shows decreased neural response in right prefrontal areas and increased in left prefrontal regions, indicating diminished inhibitory micturition control as well as, compensatory or decompensatory reorganization of bladder control. We also provide evidence for a neuromodulatory effect of acute pudendal nerve stimulation, which was most prominent in the right posterior insula, a brain region implicated in homeostatic interoception in human. Pudendal stimulation training also induced significant neuromodulation, predominantly signal increases, in the normal cortical network of bladder control. Correlations with the patient's urological status indicate that this neuromodulatory effect may reflect the clinical improvement following training.

Catheter-related urinary tract infection in patients suffering from spinal cord injuries

Urinary tract infection is commoner in patients with spinal cord injuries because of incomplete bladder emptying and the use of catheters that can result in the introduction of bacteria into the bladder. 145 patients suffering from spinal cord injuries, admitted to the Institute for physical medicine and rehabilitation, Centre for paraplegia of the Clinical Centre of the University of Sarajevo, were included. The patients were divided in three groups according to the method of bladder drainage: Group A (n=61) consisted of patients on clean intermittent catheterization; Group B (n=54) consisted of patients with indwelling catheters; Group C (n=30) consisted of patients who had performed self-catheterization. From a total of 4539 urine samples, 3963 (87,3%) were positive and 576 (12,7%) were sterile. More than 90% of the infected patients were asymptomatic. The overall rate of urinary infection amounted to about 2,1 episodes, and bacteriuria to 8,1 episodes per patient. 77% of infections (113/145) were acquired within seven days from catheterization. Infection was usually polymicrobial; the greatest number of urine samples 1770/3943 (44,9%) included more than one bacterium. The vast majority of cases of urinary tract infection and bacteriuria are caused by Gram-negative bacilli and enterococci, commensal organisms of the bowel and perineum, representative of those from the hospital environment. Providencia stuarti (18,9%) being the most common, followed by Proteus mirabilis (16,3%), Escherichia coli (11,8%), Pseudomonas aeruginosa (10,2%), Klebsiella pneumoniae (8,1%), Morganella morgani (5,4%), Acinetobacter baumannii (4,6%), Providencia rettgeri (3,5%). 15,7% of isolates were Gram-positive with Enterococcus faecalis (8,6%) as the most common. 55,3% of isolates were multidrug-resistant, and the highest rates of resistance were found among Acinetobacter baumannii (87,8%), Providencia rettgeri (86,7%), Pseudomonas aeruginosa (85,4%), Providencia stuarti (84,3%) and Morganella morgani (81,0%). Lower rates of resistance were found in Group C, i.e. patients on intermittent self-catheterisation. Eradication of organisms was achieved in only 53 (10,05%) of patients; hence, antibiotic therapy had no or very low effect. Significant correlations were found between the method of catheterization and the frequency of bacteriuria and urinary tract infections. The analysis of Group C showed a rate of lower urinary tract infection and bacteriuria than the other two Groups of patients. The objective of this study is the update of etiology and antimicrobial susceptibility in urinary tract infections in this group of patients. In addition, possible correlations between UTI and the type of bladder management were examined.

Bladder inhibition or excitation by electrical perianal stimulation in a cat model of chronic spinal cord injury

OBJECTIVE

To test the hypothesis that perianal electrical stimulation (PES) in chronic spinal cord-injured (SCI) cats could induce frequency-dependent inhibitory or excitatory reflex bladder responses.

MATERIALS AND METHODS

The experiments were conducted > or =4-5 weeks after spinal cord transection at the T9-T10 level. PES was applied via a pair of hook electrodes to the perianal skin area in three awake female cats with chronic SCI. A double-lumen balloon catheter was inserted through the urethra into the bladder to monitor bladder pressure and infuse saline (2-4 mL/min).

RESULTS

Under isovolumetric conditions PES at 3-10 Hz significantly inhibited large-amplitude reflex bladder activity induced by bladder distension above the micturition volume threshold. However, PES at 20-50 Hz induced large-amplitude bladder contractions when the bladder volume was below the micturition volume threshold. Inhibitory PES (7 Hz) significantly increased the mean (sem) bladder capacity by 40 (10)% when it was applied continuously during cystometrography. The optimum excitatory PES (30 Hz) induced large-amplitude (>25 cmH(2)O), long-duration (>20 s) bladder contractions at a wide range of bladder volumes (10-90% of bladder capacity).

CONCLUSIONS

This study showed that activation of pudendal afferent fibres by PES could induce frequency-dependent reflex bladder responses in awake cats with chronic SCI, indicating that a possible noninvasive treatment based on PES could be developed to restore both continence and micturition function for patients with SCI.

Inhibitory and excitatory perigenital-to-bladder spinal reflexes in the cat

This study revealed that in awake chronic spinal cord-injured (SCI) cats reflexes from perigenital skin area to the bladder can be either inhibitory or excitatory. Electrical perigenital stimulation at frequencies between 5 and 7 Hz significantly inhibited large-amplitude rhythmic reflex bladder activity, whereas frequencies between 20 and 40 Hz induced large-amplitude bladder contractions even at low bladder volumes when reflex bladder activity was absent. Both inhibitory and excitatory effects were enhanced as the stimulation intensity increased (5-30 V, 0.2-ms pulse width). During cystometrograms, the inhibitory stimulation (7 Hz) significantly increased the micturition volume threshold 35 +/- 13% above the control volume, while the excitatory stimulation (30 Hz) significantly reduced the threshold 21 +/- 3%. Mechanical perigenital stimulation applied by repeated light stroking of the perigenital skin with a cotton swab only induced an excitatory effect on the bladder. Both electrical and mechanical perigenital stimuli induced large-amplitude (>30 cm H(2)O) bladder contractions that were relatively consistent over a range of bladder volumes (10-90% of the capacity). However, the excitatory electrical stimulation only induced bladder contractions lasting on average 42.2 +/- 3.9 s, but the mechanical stimulation induced bladder contractions that lasted as long as the stimulation continued (2-3 min). Excitatory electrical or mechanical perigenital stimulation also induced poststimulus voiding. The ability to either inhibit or excite the bladder by noninvasive methods could significantly transform the current clinical management of bladder function after SCI.

Voiding reflex in chronic spinal cord injured cats induced by stimulating and blocking pudendal nerves

AIMS

To induce efficient voiding in chronic spinal cord injured (SCI) cats.

METHODS

Voiding reflexes induced by bladder distension or by electrical stimulation and block of pudendal nerves were investigated in chronic SCI cats under alpha-chloralose anesthesia.

RESULTS

The voiding efficiency in chronic SCI cats induced by bladder distension was very poor compared to that in spinal intact cats (7.3 +/- 0.9% vs. 93.6 +/- 2.0%, P < 0.05). In chronic SCI cats continuous stimulation of the pudendal nerve on one side at 20 Hz induced large amplitude bladder contractions, but failed to induce voiding. However, continuous pudendal nerve stimulation (20 Hz) combined with high-frequency (10 kHz) distal blockade of the ipsilateral pudendal nerve elicited efficient (73.2 +/- 10.7%) voiding. Blocking the pudendal nerves bilaterally produced voiding efficiency (82.5 +/- 4.8%) comparable to the efficiency during voidings induced by bladder distension in spinal intact cats, indicating that the external urethral sphincter (EUS) contraction was caused not only by direct activation of the pudendal efferent fibers, but also by spinal reflex activation of the EUS through the contralateral pudendal nerve. The maximal bladder pressure and average flow rate induced by stimulation and bilateral pudendal nerve block in chronic SCI cats were also comparable to those in spinal intact cats.

CONCLUSIONS

This study shows that after the spinal cord is chronically isolated from the pontine micturition center, bladder distension evokes a transient, inefficient voiding reflex, whereas stimulation of somatic afferent fibers evokes a strong, long duration, spinal bladder reflex that elicits efficient voiding when combined with blockade of somatic efferent fibers in the pudendal nerves.

Symptom burden in persons with spinal cord injury

OBJECTIVE

To determine (1) the frequency, severity, and reported course of 7 symptoms in persons with spinal cord injury (SCI) and (2) the association between these symptoms and patient functioning.

DESIGN

Postal survey.

SETTING

Community.

INTERVENTION

A survey that included measures of the frequency, severity, and recalled course of pain, fatigue, numbness, weakness, shortness of breath, vision loss, and memory loss, as well as a measure of community integration and psychologic functioning was mailed to a sample of persons with SCI. One hundred forty-seven usable surveys were returned (response rate, 43% of surveys mailed).

MAIN OUTCOME MEASURES

The frequency and average severity of each symptom was computed, and the frequencies of each type of reported course were noted. Analyses estimated the associations among the symptoms, and between symptom severity and measures of patient functioning.

RESULTS

The most common symptoms were pain, weakness, fatigue, and numbness. All symptoms were reported to remain the same or to get worse more often than they were reported to improve once they began. Pain, weakness, fatigue, and memory loss were the symptoms most closely associated with patient functioning.

CONCLUSIONS

Patients with SCI must deal with a number of secondary complications in addition to any disability caused by the injury itself. Of 7 symptoms studied, pain, weakness, and fatigue appeared to be most common and most closely linked to patient social and mental health functioning. Research is needed to identify the causal relationships between perceived symptoms and quality of life in patients with SCI and to identify effective treatments for those symptoms shown to impact patient functioning.

Kidney disease as a predictor of mortality in chronic spinal cord injury

BACKGROUND

The purpose of this study is to assess the predictive value of proteinuria and creatinine clearance (CrCl) in relation to mortality in patients with spinal cord injury.

METHODS

Computerized medical records covering 6 to 11 years were reviewed in 2004 to determine all-cause mortality. Long-term survival was assessed by means of Kaplan-Meier analysis. Multiple and stepwise Cox proportional hazards models were used to identify risk factors for mortality. The dependent variable was duration of survival in months. Potential predictors included proteinuria, CrCl, age, duration and type of injury, type of bladder management, ethnicity, diabetes mellitus, hypertension, coronary artery disease, hematocrit, serum albumin level, and serum cholesterol level.

RESULTS

With the Cox model, proteinuria with protein of 500 mg/d or greater (hazard ratio [HR], 2.98), CrCl less than 60 mL/min (<1.00 mL/s; HR, 3.89), or both (HR, 7.86) were associated independently with increased mortality. When added individually to the base Cox model, bladder catheter use (HR, 1.70) and age (HR, 1.05) also were independently predictive of time to death. Patients with preserved CrCl (>or=60 mL/min) and no proteinuria (protein < 500 mg/d) had a significantly greater duration of survival compared with patients with proteinuria (protein >or= 500 mg/d), decreased CrCl (<60 mL/min), or both (median survival, 120, 86, 87, and 47 months, respectively; P < 0.0001). There was no significant difference in survival in patients with proteinuria (protein >or= 500 mg/d) and preserved CrCl (>or=60 mL/min) compared with those with no proteinuria (protein < 500 mg/d) and decreased CrCl (<60 mL/min; P = 0.90). However, those with both proteinuria and decreased CrCl had significantly worse survival compared with those with only 1 condition (P < 0.01). Kidney disease was associated with an increase in both cardiovascular and noncardiovascular mortality.

CONCLUSION

The presence of either proteinuria with protein of 500 mg/d or greater or CrCl less than 60 mL/min is associated independently with increased mortality in the chronic spinal cord injury population. The presence of both conditions further increases this risk.

Malignancy associated with the use of intestinal segments in the urinary tract

Use of intestinal segments for urinary tract reconstruction has become widespread. In these patients, urologists are increasingly encountering malignancies that may be a direct result of this altered milieu. This review attempts to summarize the current literature on cancer in patients with intestinal segments in their urinary tracts. Although the exact etiology for this increased risk of malignancy is still unclear, several theories have been proposed. Many investigators now recommend annual screening in patients who have intestinal segments in contact with urine beginning 10 years after the initial surgery.

Bladder inhibition or voiding induced by pudendal nerve stimulation in chronic spinal cord injured cats

AIMS

To investigate pudendal-to-bladder spinal reflexes in chronic spinal cord injured (SCI) cats induced by electrical stimulation of the pudendal nerve.

METHODS

Bladder inhibition or voiding induced by pudendal nerve stimulation at different frequencies (3 or 20 Hz) was studied in three female, chronic SCI cats under alpha-chloralose anesthesia.

RESULTS

Voiding induced by a slow infusion (2-4 ml/min) of saline into the bladder was very inefficient (voiding efficiency=7.3%+/-0.9%). Pudendal nerve stimulation at 3 Hz applied during the slow infusion inhibited reflex bladder activity, and significantly increased bladder capacity to 147.2+/-6.1% of its control capacity. When the 3-Hz stimulation was terminated, voiding rapidly occurred and the voiding efficiency was increased to 25.4+/-6.1%, but residual bladder volume was not reduced. Pudendal nerve stimulation at 20 Hz induced large bladder contractions, but failed to induce voiding during the stimulation due to the direct activation of the motor pathway to the external urethral sphincter. However, intermittent pudendal nerve stimulation at 20 Hz induced post-stimulus voiding with 78.3+/-12.1% voiding efficiency. The voiding pressures (39.3+/-6.2 cmH2O) induced by the intermittent pudendal nerve stimulation were higher than the voiding pressures (23.1+/-1.7 cmH2O) induced by bladder distension. The flow rate during post-stimulus voiding induced by the intermittent pudendal nerve stimulation was significantly higher (0.93+/-0.04 ml/sec) than during voiding induced by bladder distension (0.23+/-0.07 ml/sec).

CONCLUSIONS

This study indicates that a neural prosthetic device based on pudendal nerve stimulation might be developed to restore micturition function for people with SCI.

Management and rehabilitation of neuropathic bladder in patients with spinal cord lesion

The patients with spinal cord lesion (SCL) develop problems of urination due to impaired neural control of the lower urinary tract, such as incontinence or retention; these conditions constitute risks for the upper urinary tract and should be treated appropriately over the various phases of the disease. The therapeutic approach in the acute and subacute post-traumatic phase is of particular importance for the early and late management of the subsequent urinary disturbances. When the rehabilitation program is completed, it is estimated that deficiencies in sphincter control have greater impact on personal and social life of individuals than the movement disability. Currently, as the number of sufferers from SCLs is constantly increasing, medical science faces two great challenges: (i) to develop and apply modern treatment modalities in the framework of advanced neurorehabilitation programs, and (ii) to provide well-organized follow-up management. All efforts should be directed towards the functional integrity of the upper urinary tract and the acquirement of the greatest possible independence for the patient.

Sacral neuromodulation as a functional treatment of bladder overactivity

Sacral neuromodulation, namely the electrical stimulation of the sacral nerves has become an alternative treatment for cases of idiopathic bladder overactivity. The mechanism of action in this type of spinal cord modulation is only partially understood but it seems to involve stimulation of inhibitory interneurons. Temporary sacral nerve stimulation is the first step. It consists of the temporary application of neurostimulation as a diagnostic test in order to check the integrity of the sacral root and determine the best location for the implant. If the test stimulation is successful, a permanent device is implanted. In experienced hands, this is a safe procedure. When the patients are selected on the basis of sound criteria, more than three-quarters of them show a clinically significant improvement with a reduction in the frequency of incontinence episodes by more than 50%; however, the results vary according to each author's method of evaluation. The application of this technique should be combined with careful follow-up and attentive adjustments of the stimulation parameters in order to optimize the coordination of activity between the neurological systems involved.

Disordered control of the urinary bladder after human spinal cord injury: what are the problems?

Spinal cord injury has a profound impact on the storage and voiding functions of the urinary bladder. Loss of autonomic and somatic control mechanisms leads to hypo- or hyperactivity of the bladder wall and sphincters causing problems that range from incontinence to complete loss of the capacity to empty the bladder. This chapter outlines the types of bladder dysfunction that occur after spinal cord injury, their relative prevalence and current practices used to manage the problems. With all the interventions that are available, management of bladder function often still remains a compromise, as the medications and physical interventions available may stimulate or block components of the voiding reflex, but are often not fully restorative in this effort.

Improving the global management of the neurogenic bladder patient: part I. The complexity of patients

BACKGROUND

The management of urinary incontinence in patients with neurological disease is complex. Physicians face a multitude of challenges related to progression of the primary condition, the presence of a diversity of other related and unrelated symptoms, the safety, efficacy and tolerability issues associated with multiple therapies being required and the changing need for collaboration with other specialities.

SCOPE

Current guidelines produced by the urological communities, as well as the disease-focused organizations, aim to standardize care in their specific group of patients. A passive approach to implementation, however, means that guidelines produced are all too frequently not readily available to, read by or followed by the wider audience. In addition, each speciality has its own guidelines and a different view of the primary focus of care in neurological patients, which may lead to variations in recommendations and, subsequently, in clinical practice. A review of current urological and disease specific guidelines was made to evaluate differences between the published guidance between the specialities and within urology itself.

CONCLUSIONS

Although availability of effective therapies remains a cornerstone of neurogenic bladder treatment, consideration must also be given to the non-pharmacological and surgical issues related to the global management of this population. Improved cross-speciality interactions and development of patient-specific treatment and follow-up plans, which are in keeping with the current guidelines of each speciality involved, may serve to enhance physicians' understanding of the importance of effective urinary incontinence treatment as well as the overall management of the patient.

Control of urinary bladder function with devices: successes and failures

The management of urinary tract dysfunction is crucial for the health and well-being of people with spinal cord injury. Devices, specifically catheters, play an important role in the daily regime of bladder management for most people with spinal cord injury. However, the high incidence of complications associated with the use of catheters, and the fact that the spinal segments involved in lower urinary tract control remain intact in most cord-injured people, continue to motivate research into devices that could harness the nervous system to provide greater control over lower urinary tract function. Mechanical devices discussed in this review include catheters, artificial urethral sphincters, urethral stents and intraurethral pumps. Additionally, many attempts to restore control of the lower urinary tract with electrical stimulation have been made. Stimulation sites have included: inside the bladder, bladder wall, thigh, pelvic floor, dorsal penile nerve, pelvic nerve, tibial nerve, sacral roots, sacral nerves and spinal cord. Catheters and sacral root stimulators are two techniques whose efficacy is well established. Some approaches have proven less successful and others are still in the development stage. Modifications to sacral root stimulation including posterior root stimulation, anodal blockade and high-frequency blockade as well as new techniques including intraspinal microstimulation, urethral afferent stimulation and injectable microstimulators are also discussed. No single device has yet restored the control and function of the lower urinary tract to the pre-injury state, but new techniques are bringing this possibility closer to reality.

Practice patterns of Japanese physicians in urologic surveillance and management of spinal cord injury patients

STUDY DESIGN

Analysis of answers to a new questionnaire.

OBJECTIVE

To examine current practice patterns of physicians in the urological surveillance and management of spinal cord injury (SCI) patients in Japan.

SETTING

Nationwide questionnaire survey to physicians in Japan.

METHODS

A Japanese version of the 14-item questionnaire survey carried out in US was mailed to 770 members of the Japanese Neurogenic Bladder Society (JNBS).

RESULTS

We received answers to our questionnaire from 333 (43.2%) members of JNBS. The responders were all urologists. For surveillance of the upper urinary tract (UUT), 239 (71.8%) respondents preferred abdominal ultrasound. Cystometry was performed routinely by 174 (52.3%) respondents for the evaluation of vesicourethral function. Cystoscopy was carried out in cases of hematuria (88.0%) and bladder stone (55.3%). Surveillance of the urinary tract was performed every year in 154 (46.2%). For detection of bladder cancer, which 119 (37.9%) respondents have experienced, 94.9% physicians perform cystoscopy, 76.3% urinary cytology, and 60.4% ultrasound. For initial treatment of detrusor-sphincter dyssynergia (DSD), 225 (69.2%) respondents chose alpha-blocker, and 94 (28.9%) chose clean intermittent catheterization (CIC) with/without anticholinergic agent(s). For initial treatment of overactive bladder, 245 (74.7%) chose anticholinergic agent(s) only and 63 (19.2%) chose anticholinergic agent(s) with CIC. For initial treatment of areflexic bladder, 233 (73.7%) chose CIC and 63 (19.9%) chose Credé maneuver or tapping.

CONCLUSIONS

This survey shows that there are some differences in urological surveillance and management of SCI patients between Japan and the US. Reasons for the discrepancy should be examined.