Add to ORKGAn artificial intelligence (AI) algorithm for prostate cancer detection and grading was developed for clinical diagnostics on biopsies. The study cohort included 4221 scanned slides from 872 biopsy sessions at the HUS Helsinki University Hospital during 2016–2017 and a subcohort of 126 patients treated by robot-assisted radical prostatectomy (RALP) during 2016–2019. In the validation cohort (n = 391), the model detected cancer with a sensitivity of 98% and specificity of 98% (weighted kappa 0.96 compared with the pathologist’s diagnosis). Algorithm-based detection of the grade area recapitulated the pathologist’s grade group. The area of AI-detected cancer was associated with extra-prostatic extension (G5 OR: 48.52; 95% CI 1.11–8.33), semin...
Prostate cancer is that starts in the prostate gland. The prostate is a small, walnut sized structur...
Through a community-driven competition, the PANDA challenge provides a curated diverse dataset and a...
Purpose: To explore the role of artificial intelligence and machine learning (ML) techniques in onco...
An artificial intelligence (AI) algorithm for prostate cancer detection and grading was developed fo...
Background: An increasing volume of prostate biopsies and a worldwide shortage of urological patholo...
Background: The first sign of metastatic prostate cancer after radical prostatectomy is rising PSA l...
Diagnosis and Gleason grading of prostate cancer in biopsies are critical for the clinical managemen...
Artificial intelligence (AI) is the field of computer science that aims to build smart devices perfo...
Introduction Lymph node metastases are a key prognostic factor in prostate cancer (PCa), but detecti...
A multitude of studies have explored the role of artificial intelligence (AI) in providing diagnosti...
As medical science and technology progress towards the era of “big data”, a multi-dimensional datase...
International audienceArtificial Intelligence (AI) is progressively remodeling our daily life. A lar...
The Gleason score is the most important prognostic marker for prostate cancer patients, but it suffe...
Diagnosis and Gleason grading of prostate cancer in biopsies are critical for the clinical managemen...
Prostate cancer is that starts in the prostate gland. The prostate is a small, walnut sized structur...
Through a community-driven competition, the PANDA challenge provides a curated diverse dataset and a...
Purpose: To explore the role of artificial intelligence and machine learning (ML) techniques in onco...
An artificial intelligence (AI) algorithm for prostate cancer detection and grading was developed fo...
Background: An increasing volume of prostate biopsies and a worldwide shortage of urological patholo...
Background: The first sign of metastatic prostate cancer after radical prostatectomy is rising PSA l...
Diagnosis and Gleason grading of prostate cancer in biopsies are critical for the clinical managemen...
Artificial intelligence (AI) is the field of computer science that aims to build smart devices perfo...
Introduction Lymph node metastases are a key prognostic factor in prostate cancer (PCa), but detecti...
A multitude of studies have explored the role of artificial intelligence (AI) in providing diagnosti...
As medical science and technology progress towards the era of “big data”, a multi-dimensional datase...
International audienceArtificial Intelligence (AI) is progressively remodeling our daily life. A lar...
The Gleason score is the most important prognostic marker for prostate cancer patients, but it suffe...
Diagnosis and Gleason grading of prostate cancer in biopsies are critical for the clinical managemen...
Prostate cancer is that starts in the prostate gland. The prostate is a small, walnut sized structur...
Through a community-driven competition, the PANDA challenge provides a curated diverse dataset and a...
Purpose: To explore the role of artificial intelligence and machine learning (ML) techniques in onco...