contributed equally to the present study.
Objectives• To define terms and processes and agree on a minimum dataset in relation to transperineal prostate biopsy procedures and enhanced prostate diagnostics.• To identify the need for further evaluation and establish a collaborative research practice.
Patients and Methods• A 19-member multidisciplinary panel rated 66 items for their appropriateness and their definition to be incorporated into the international databank using the Research and Development/University of California Los Angeles Appropriateness Method. • The item list was developed from interviews conducted with healthcare professionals from urology, radiology, pathology and engineering.
Results• The panel agreed on 56 items that were appropriate to be incorporated into a prospective database.• In total, 10 items were uncertain and were omitted. These items were within the categories: definitions (n = 2), imaging (n = 1), surgical protocols (n = 2) and histology (n = 5).
Conclusions• The components of a minimum dataset for transperineal prostate biopsy have been defined. • This provides an opportunity for multicentre collaborative data analysis and technique development.• The findings of the present study will facilitate prospective studies into the application and outcome of transperineal prostate biopsies.
Magnetic resonance imaging targeted, transrectal ultrasound guided transperineal fusion biopsy provides high detection of clinically significant tumors. Since multiparametric magnetic resonance imaging still has some limitations, systematic biopsies should currently not be omitted. The morbidity of the transperineal saturation approach is reasonable and mainly self-limiting.
ObjectivesTo determine the accuracy of multiparametric magnetic resonance imaging (mpMRI) during the learning curve of radiologists using MRI targeted, transrectal ultrasonography (TRUS) guided transperineal fusion biopsy (MTTP) for validation.
Patients and MethodsProspective data on 340 men who underwent mpMRI (T2-weighted and diffusion-weighted MRI) followed by MTTP prostate biopsy, was collected according to Ginsburg Study Group and Standards for Reporting of Diagnostic Accuracy standards. MRI data were reported by two experienced radiologists and scored on a Likert scale. Biopsies were performed by consultant urologists not 'blinded' to the MRI result and men had both targeted and systematic sector biopsies, which were reviewed by a dedicated uropathologist. The cohorts were divided into groups representing five consecutive time intervals in the study. Sensitivity and specificity of positive MRI reports, prostate cancer detection by positive MRI, distribution of significant Gleason score and negative MRI with false negative for prostate cancer were calculated. Data were sequentially analysed and the learning curve was determined by comparing the first and last group.
ResultsWe detected a positive mpMRI in 64 patients from Group A (91%) and 52 patients from Group E (74%). The prostate cancer detection rate on mpMRI increased from 42% (27/64) in Group A to 81% (42/52) in Group E (P < 0.001). The prostate cancer detection rate by targeted biopsy increased from 27% (17/64) in Group A to 63% (33/52) in Group E (P < 0.001). The negative predictive value of MRI for significant cancer (>Gleason 3+3) was 88.9% in Group E compared with 66.6% in Group A.
ConclusionWe demonstrate an improvement in detection of prostate cancer for MRI reporting over time, suggesting a learning curve for the technique. With an improved negative predictive value for significant cancer, decision for biopsy should be based on patient/surgeon factors and risk attributes alongside the MRI findings.
We aimed to determine short-term patient-reported outcomes in men having general anesthetic transperineal (TP) prostate biopsies. A prospective cohort study was performed in men having a diagnostic TP biopsy. This was done using a validated and adapted questionnaire immediately post-biopsy and at follow-up of between 7 and 14 days across three tertiary referral hospitals with a response rate of 51.6%. Immediately after biopsy 43/201 (21.4%) of men felt light-headed, syncopal, or suffered syncope. Fifty-three percent of men felt discomfort after biopsy (with 95% scoring <5 in a 0–10 scale). Twelve out of 196 men (6.1%) felt pain immediately after the procedure. Despite a high incidence of symptoms (e.g., up to 75% had some hematuria, 47% suffered some pain), it was not a moderate or serious problem for most, apart from hemoejaculate which 31 men suffered. Eleven men needed catheterization (5.5%). There were no inpatient admissions due to complications (hematuria, sepsis). On repeat questioning at a later time point, only 25/199 (12.6%) of men said repeat biopsy would be a significant problem despite a significant and marked reduction in erectile function after the procedure. From this study, we conclude that TP biopsy is well tolerated with similar side effect profiles and attitudes of men to repeat biopsy to men having TRUS biopsies. These data allow informed counseling of men prior to TP biopsy and a benchmark for tolerability with local anesthetic TP biopsies being developed for clinical use.
e16063 Background: Precise staging of prostate cancer (PC) is essential for individualized treatment decisions. However, the majority of transrectal biopsies are negative for prostate cancer or show imprecise results. Additionally, the rate of upgrading in Gleason scores between biopsy and prostatectomy specimen is around 30-40%. MRI/TRUS fusion has shown encouraging results for detecting clinically significant prostate cancer. Methods: 412 consecutive patients with suspicion of PC were prospectively included in our database. The median age of patients was 65 years (range 42-84). Mean PSA level was 9.56 ng/ml (± 7.9ng/ml, SD). 55% of men had previous TRUS-guided biopsies, 45% underwent primary biopsy. Imaging data and biopsy results were analyzed and a self-designed questionnaire was send to all men regarding further clinical history and adverse effects of the biopsy. Results: In 236 of 412 (57.3%) biopsy samples showed PC. 71.6% of biopsy proven PC were clinically significant (D’Amico criteria). On multiparametric (mp)-MRI, 120 men were reported as highly suspicious for PC and in these tumor detection rate was 83.3% (100/120). In patients without cancer-suspicious MRI-lesions, 31,8% (42/132) men were diagnosed with significant disease (Table 1). Regarding adverse effects, 152 patients (49%) reported hematuria after biopsy. 9 patients (2%) needed temporary catheterization after biopsy due to prostate swelling. In three patients (0.7%) febrile urinary tract infection occurred after biopsy. Major limitation is the limited follow-up of 12-months of biopsy-negative patients. Conclusions: MRI-targeted TRUS-guided transperineal fusion biopsy provides high detection rates of clinically significant tumors. mp-MRI still has its limitations, and therefore systematic biopsies should currently not be omitted. The morbidity of the transperineal saturation approach is reasonable and mainly self-limiting. [Table: see text]
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.