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George ZacharopoulosView Articles

Volume 20, Number 1Original Research

Transrectal Ultrasound–guided Versus Transperineal Mapping Prostate Biopsy: Complication Comparison

Transrectal ultrasound guided prostate biopsy • Transperieneal mapping prostate biopsy • Complications

Vladimir MouravievE David CrawfordVassilios M SkouterisPaul AranguaMarios Panagiotis MetsinisMichael SkouterisGeorge ZacharopoulosNelson N Stone

Herein, the authors compare morbidity in men who underwent both transrectal ultrasound–guided (TRUS) prostate biopsy and transperineal mapping biopsy (TPMB) at two institutions with extensive experience in both procedures. We also identified strategies and predictive factors to reduce morbidity for both procedures. In our study, 379 men from two institutions, of which 265 (69.9%) had a prior TRUS-guided biopsy, also had TPMB performed via a template with biopsies taken at 5-mm intervals. Men in the TRUS group had a median of 12 cores sampled whereas the TPMB group had 51.5 (range, 16-151). The median biopsy density was 1.1 core/cc prostate volume. Median age and prostate-specific antigen (PSA) level were 65 years (range, 34-86) and 5.5 ng/mL (range, 0.02-118). Of these men, 11 of 265 (4.2%) who had TRUS biopsy developed urinary tract infection compared with 3 of 379 (0.79%) of those with mapping biopsy. Infection was 14.8% in TRUS biopsy group with 13 or more cores versus 2.9% in those with 12 or less (OR, 5.8; 95% CI, 1.6-21.2; P = 0.003). No men developed retention after TRUS biopsy whereas 30 of 379 (7.9%) did following TPMB. Older age, larger prostate volume (PV), and higher core number were associated with retention. On linear regression only age (P = 0.010) and PV (P = 0.016) remained as significant associations. Men older than 65 years had 12.8% versus 3.9% (OR, 3.7; 95% CI, 1.6-8.4, P = 0.001) and PV greater than 42 cc had 13.4% versus 2.7% (OR, 5.7; 95% CI, 2.1-15.1) retention incidence. In the present study TPMB is rarely associated with infection (0.78%) but more commonly with urinary retention (7.9%). Men older than 65 years and with PV greater than 42 cc were at four to five times greater retention risk. Consideration should be given to discharging these men with a urinary catheter following TPMB. [Rev Urol. 2018;20(1):19–25 doi: 10.3909/riu0785] © 2018 MedReviews, LLC®

ComplicationsTransrectal ultrasound guided prostate biopsyTransperieneal mapping prostate biopsy

Gérard AmarencoView Articles

Volume 21, Number 2Review Articles

Nocturia in Patients With Multiple Sclerosis

Management Review

Benjamin M BruckerRoger R DmochowskiW Stuart ReynoldsBenoit PeyronnetXavier GaméLauren B KruppGérard AmarencoJean-Nicolas CornuLana Zhovtis RyersonCarrie Lyn SammarcoJonathan E HowardRobert W Charlson

The prevalence of nocturia in patients with multiple sclerosis (MS) is high, ranging from 20.9% to 48.8% in this population. Its underlying pathophysiology is complex and different from the non-neurogenic population. In the MS population, the pathophysiology may involve neurogenic lower urinary tract dysfunction (NLUTD) such as detrusor overactivity (NDO), detrusor-sphincter dyssynergia, or detrusor underactivity resulting in reduced bladder capacity. Nocturnal polyuria is also a significant contributor to the pathogenesis of nocturia in MS patients and may be the result of specific mechanisms such as nocturnal hypertension through autonomic cardiovascular dysfunction or lack of diurnal variation of antidiuretic hormone production (ADH) due to demyelinating lesions of the spinal cord. Nocturia might be particularly burdensome in MS patients by contributing to fatigue, a common and highly debilitating symptom in this population. There is likely a complex and multidirectional relationship between nocturia, other sleep disorders, and fatigue in the MS population that has yet to be explored. The assessment of nocturia in MS should rely upon a thorough history and physical examination. Urinalysis should be done to rule out urinary tract infection, a frequency-volume chart might help elucidating the underlying mechanisms, and post-void residual volume may be of interest to screen for urinary retention that could be asymptomatic in MS patients. Other tests such as urodynamics or polysomnography are indicated in selected patients. The treatment should be tailored to the underlying cause. The first steps involve behavioral interventions and treatment of cofactors. When possible, the predominant mechanism should be addressed first. In case of predominant NDO, antimuscarinics and beta-3 agonists should be offered as a first-line treatment and intradetrusor injections of botulinum toxin as a second-line treatment. In cases of incomplete bladder emptying, clean-intermittent self-catheterization is often used as part of multiple other interventions. In cases of nocturnal polyuria, desmopressin may be offered, inclusive of use of newer formulations (desmopressin acetate nasal spray, desmopressin orally disintegrated tablet) in countries where they are approved. [Rev Urol. 2019;21(2/3):63–73] © 2019 MedReviews®, LLC

NocturiaMultiple sclerosisFatigueDesmopressinNocturnal polyuriavoiding diary