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Clinical Trial Summary

The aim of the present study is to compare the accuracy of Magnetic resonance imaging targeted (fusion) versus cognitive prostatic biopsy in biopsy-naïve suspected cancer prostate patient


Clinical Trial Description

Prostate cancer is the second most frequent malignancy (after lung cancer) in men worldwide, counting 1,276,106 new cases and causing 358,989 deaths (3.8% of all deaths caused by cancer in men. The clinical prostate cancer detection rate of TRUS-guided needle biopsies is only 25-30%. while more than 50% of cancers that require definitive treatment remain undetected during initial biopsies . Clinical studies have shown that 75-80% of non-palpable carcinomas remain undetected during initial prostate biopsies. Multi-parametric prostate MRI has a high sensitivity for the detection of prostate adenocarcinoma and has shown promise for targeted biopsy of lesions that may be missed on routine systematic trans -rectal ultrasound (TRUS) biopsy . The most recent European Association of Urology guidelines recommend MRI before prostate biopsy for biopsy-naïve men with elevated PSA, the strength rating of the recommendation is weak. A systematic 12-core trans-rectal ultrasound-guided systematic biopsy (TRUS-SB) is still carried out for biopsy-naïve men at present. However, the TRUS-SB technique has several limitations, including over-diagnosis of clinically insignificant prostate cancer (CISCa), under-diagnosis of clinically significant prostate cancer (CSCa), false negative biopsy results and biopsy-related complications, such as bleeding and infections . Targeted prostate biopsies from MRI-suspicious lesions have been shown to improve the cancer detection rate (CDR) of CSCa compared with systematic TRUS-guided biopsies . Currently, three biopsy techniques are used for TB from MRI-suspicious lesions: in-bore MRI biopsies, cognitive magnetic resonance imaging trans-rectal ultrasound fusion targeted biopsy (COG-TB) and software guided magnetic resonance imaging-ultrasound fusion targeted biopsies (MRUS-TB). Inbore MRI biopsies that are carried out with an MRI-compatible guidance device can target suspicious lesions accurately; however, such biopsies are time-consuming and expensive . In the COG-TB technique, a physician samples a location that has been visually estimated using ultrasound and is considered to correspond to the location of a suspicious lesion that was detected on MRI. However, when the suspicious lesion is completely invisible (isoechoic or too small) on TRUS, the accuracy of such biopsies is likely reduced . The accuracy of COG-TB might be influenced by multiple factors, including the alignment of prostate landmarks, the physician's experience and so on. for these reasons, MRUS-TB where software fuses the MRI images with real-time TRUS images to guide the operator to biopsy the suspicious lesions is more commonly carried out; however, the optimal TB method remains unclear. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05969704
Study type Interventional
Source Menoufia University
Contact Ahmed M Mehanna
Phone 201026906035
Email ahmedmehana1994@gmail.com
Status Recruiting
Phase N/A
Start date January 1, 2023
Completion date June 1, 2024

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