OnabotulinumtoxinA for the treatment of neurogenic detrusor overactivity in children

The working group initiated by the ICS Standardisation Steering Committee has updated the International Continence Society Standard "Good Urodynamic Practice" published in 2002.

Neurogenic bladder dysfunction due to spinal cord injury poses a significant threat to the well-being of patients. Incontinence, renal impairment, urinary tract infection, stones, and poor quality of life are some complications of this condition. The majority of patients will require management to ensure low pressure reservoir function of the bladder, complete emptying, and dryness. Management typically begins with anticholinergic medications and clean intermittent catheterization. Patients who fail this treatment because of inefficacy or intolerability are candidates for a spectrum of more invasive procedures. Endoscopic managements to relieve the bladder outlet resistance include sphincterotomy, botulinum toxin injection, and stent insertion. In contrast, patients with incompetent sphincters are candidates for transobturator tape insertion, sling surgery, or artificial sphincter implantation. Coordinated bladder emptying is possible with neuromodulation in selected patients. Bladder augmentation, usually with an intestinal segment, and urinary diversion are the last resort. Tissue engineering is promising in experimental settings; however, its role in clinical bladder management is still evolving. In this review, we summarize the current literature pertaining to the pathology and management of neurogenic bladder dysfunction in patients with spinal cord injury.

Renal scarring and renal failure remain life-threatening for children born with spinal dysraphism. We reviewed our data of spina bifida patients to evaluate whether optimal treatment of the neurogenic bladder from birth onwards can preserve kidney function. We reviewed data on all newborns with spinal dysraphism who were referred to our hospital between January 1988 and June 2001. We looked at their situations at referral and at follow-up: the type of treatment, antimuscarinic agents, clean intermittent catheterisation (CIC), antibiotic prophylaxis, and operations (sling procedures, bladder augmentations, antireflux procedures). Renal function (ultrasound, DMSA scan, serum creatinin, creatinin clearance) and bladder function (urodynamic studies) were evaluated over time. Data of 144 children of 176 could be evaluated by the end of the study: 5 patients had pre-existing renal abnormalities, 69 had an overactive sphincter, 27 had reflux, and six had renal scarring. None are currently developing end-stage renal disease. All patients with spina bifida aperta started CIC and antimuscarinic therapy shortly after birth. Five of the six patients with renal scarring were started on therapy with intermittent catheterisation and antimuscarinic therapy several months after birth. Sixty-three of 82 children with spina bifida were dry at school age (age six), although 37 of these had not had an operation. We show that an early start to therapy helps to safeguard renal function for children born with spina bifida. Our data support other recent reports that children born with spina bifida can probably use their own kidneys for a lifetime, if they are given adequate urological treatment. To protect the upper urinary tract, we need to ensure low intravesical pressure by starting children early on CIC (the preferred treatment); antimuscarinic agents to counteract detrusor instability are indispensable in most cases. Proactive treatment of risks for upper tract deterioration results in a negligible loss of renal function, even when early urinary continence is included in the treatment protocol.