Defining the learning curve for multiparametric magnetic resonance imaging (MRI) of the prostate using MRI-transrectal ultrasonography (TRUS) fusion-guided transperineal prostate biopsies as a validation tool.
about
Magnetic resonance imaging for prostate cancer: Comparative studies including radical prostatectomy specimens and template transperineal biopsyReview of Prostate Imaging Reporting and Data System version 2.Transperineal prostate biopsies for diagnosis of prostate cancer are well tolerated: a prospective study using patient-reported outcome measures.Comparison of initial and tertiary centre second opinion reads of multiparametric magnetic resonance imaging of the prostate prior to repeat biopsyA critical comparison of techniques for MRI-targeted biopsy of the prostate.The addition of a sagittal image fusion improves the prostate cancer detection in a sensor-based MRI /ultrasound fusion guided targeted biopsyInvestigating the ability of multiparametric MRI to exclude significant prostate cancer prior to transperineal biopsy.Applying precision medicine to the active surveillance of prostate cancer.Targeted transperineal biopsy of the prostate has limited additional benefit over background cores for larger MRI-identified tumors.Navigating MRI-TRUS fusion biopsy: optimizing the process and avoiding technical pitfalls.Clarifying the PSA grey zone: The management of patients with a borderline PSA.Multiparametric magnetic resonance imaging for prostate cancer-a comparative study including radical prostatectomy specimens.In patients with a previous negative prostate biopsy and a suspicious lesion on magnetic resonance imaging, is a 12-core biopsy still necessary in addition to a targeted biopsy?Prostate cancer detection on transrectal ultrasonography-guided random biopsy despite negative real-time magnetic resonance imaging/ultrasonography fusion-guided targeted biopsy: reasons for targeted biopsy failure.The limitations of multiparametric magnetic resonance imaging also must be borne in mind.The Prostate Health Index adds predictive value to multi-parametric MRI in detecting significant prostate cancers in a repeat biopsy population.Revisiting prostate cancer: Can we separate the wheat from the chaff?Evaluation of MRI/Ultrasound Fusion-Guided Prostate Biopsy Using Transrectal and Transperineal Approaches.Diagnostic Accuracy of Magnetic Resonance Imaging (MRI) 5-Point Likert Scoring System Evaluated by The Result of MRI/Ultrasonography Image-fusion Targeted Biopsy of The Prostate.Multicentre evaluation of magnetic resonance imaging supported transperineal prostate biopsy in biopsy-naïve men with suspicion of prostate cancer.Magnetic resonance imaging in the early detection of prostate cancer and review of the literature on magnetic resonance imaging-stratified clinical pathways.From novice to expert: analyzing the learning curve for MRI-transrectal ultrasonography fusion-guided transrectal prostate biopsy.Evaluation of magnetic resonance imaging and targeted biopsy: The difficulty of finding the right reference standard.The Current State of MR Imaging-targeted Biopsy Techniques for Detection of Prostate Cancer.The influence of prostate-specific antigen density on positive and negative predictive values of multiparametric magnetic resonance imaging to detect Gleason score 7-10 prostate cancer in a repeat biopsy setting.A urologists' guide to the multi-parametric magnetic resonance imaging (mpMRI)-galaxy.
P2860
Q26771360-B41041C6-2397-436A-A1D5-E5A8FADB8D8BQ31131775-BEEC2DA4-3202-4A4D-8C05-C4E86A394491Q33166857-C3387A89-FB46-4EEE-BDA2-17B9E59D4CE3Q33611513-4C93570A-07F9-478A-B950-D4EE09C8098DQ33890165-7F39EEFB-DB12-4B42-951B-B518775A29AEQ36249431-4D0B2A66-F5F5-4284-80ED-A2C33C6585E5Q36449937-59208EFA-2044-4126-84BB-71E3561A5B45Q36592871-DB875C50-7F8A-4665-A35C-DB3308B0C9F8Q36706373-0664BB64-7CA4-4713-B175-C29C74CDB84AQ38664945-84AC1B29-A9CA-4785-A95F-E2115DC2356DQ38965360-2E8CB8EE-114F-48F9-9B17-CB6DF99CE776Q39245393-B309B3B2-C3C4-4933-B598-68E0F076CBC3Q40224363-09075210-5DB4-47BD-A82B-A35968EEFE8EQ40524688-16ABC7DA-7971-44E2-8F6E-1E83A21E5456Q40678297-2D481A82-E36C-48E1-A25F-0F3BC978496AQ41474330-C0E6190B-0ADA-4393-A8A1-B678FA97BBE1Q42361433-83CB45EE-16A4-4B8E-9C15-B3B73D8577CDQ42991626-D284D0EF-F80C-44CA-98DA-FF9F901AA3FDQ44688793-876AD331-5BA6-4F13-90EB-349B4B1EF909Q47811496-64DEB2D3-A46C-4D7D-956D-9F475C010A3EQ47949163-2C43F87C-4403-4B94-818B-7D56BCFB0537Q48227453-1427DE3D-46FF-49AA-85C3-AEB7E377A288Q48369482-7F5EDCE6-7F4D-487B-8500-5484B16FA599Q50088856-886EA76C-1341-45C7-AED8-5FB9E1BB9394Q51595856-634535BE-2350-4081-B01C-2465B078B191Q53570255-562384FB-E8B1-4475-9FC6-F10CF9712EAE
P2860
Defining the learning curve for multiparametric magnetic resonance imaging (MRI) of the prostate using MRI-transrectal ultrasonography (TRUS) fusion-guided transperineal prostate biopsies as a validation tool.
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh-hant
name
Defining the learning curve fo ...... biopsies as a validation tool.
@en
Defining the learning curve for multiparametric magnetic resonance imaging
@nl
type
label
Defining the learning curve fo ...... biopsies as a validation tool.
@en
Defining the learning curve for multiparametric magnetic resonance imaging
@nl
prefLabel
Defining the learning curve fo ...... biopsies as a validation tool.
@en
Defining the learning curve for multiparametric magnetic resonance imaging
@nl
P2093
P2860
P356
P1433
P1476
Defining the learning curve fo ...... biopsies as a validation tool
@en
P2093
Andrew Doble
Anne Warren
Brendan C Koo
Christof Kastner
Eva Serrao
Jonas Seidenader
Julia Frey
Karan Wadhwa
Lina Carmona
Tristan Barrett
P2860
P356
10.1111/BJU.12892
P577
2015-05-11T00:00:00Z