Your search keyword '"early neoplasia"' showing total 3 results

1. A new artificial intelligence system successfully detects and localises early neoplasia in Barrett's esophagus by using convolutional neural networks

Author

Mohamed Hussein, Juana González‐Bueno Puyal, David Lines, Vinay Sehgal, Daniel Toth, Omer F. Ahmad, Rawen Kader, Martin Everson, Gideon Lipman, Jacobo Ortiz Fernandez‐Sordo, Krish Ragunath, Jose Miguel Esteban, Raf Bisschops, Matthew Banks, Michael Haefner, Peter Mountney, Danail Stoyanov, Laurence B. Lovat, and Rehan Haidry

Subjects

COMPUTER-AIDED DETECTION, ENDOSCOPY, Esophageal Neoplasms, Biopsy, DIAGNOSIS, Barrett Esophagus, early neoplasia, Artificial Intelligence, convolutional neural networks, Humans, CAD, early detection, Science & Technology, Gastroenterology & Hepatology, computer aided detection, Gastroenterology, ADENOCARCINOMA, Endoscopy, Barrett's Esophagus, artificial intelligence, neoplasia, Oncology, AI, HIGH-GRADE DYSPLASIA, Neural Networks, Computer, Life Sciences & Biomedicine, CNN

Abstract

BACKGROUND AND AIMS: Seattle protocol biopsies for Barrett's Esophagus (BE) surveillance are labour intensive with low compliance. Dysplasia detection rates vary, leading to missed lesions. This can potentially be offset with computer aided detection. We have developed convolutional neural networks (CNNs) to identify areas of dysplasia and where to target biopsy. METHODS: 119 Videos were collected in high-definition white light and optical chromoendoscopy with i-scan (Pentax Hoya, Japan) imaging in patients with dysplastic and non-dysplastic BE (NDBE). We trained an indirectly supervised CNN to classify images as dysplastic/non-dysplastic using whole video annotations to minimise selection bias and maximise accuracy. The CNN was trained using 148,936 video frames (31 dysplastic patients, 31 NDBE, two normal esophagus), validated on 25,161 images from 11 patient videos and tested on 264 iscan-1 images from 28 dysplastic and 16 NDBE patients which included expert delineations. To localise targeted biopsies/delineations, a second directly supervised CNN was generated based on expert delineations of 94 dysplastic images from 30 patients. This was tested on 86 i-scan one images from 28 dysplastic patients. FINDINGS: The indirectly supervised CNN achieved a per image sensitivity in the test set of 91%, specificity 79%, area under receiver operator curve of 93% to detect dysplasia. Per-lesion sensitivity was 100%. Mean assessment speed was 48 frames per second (fps). 97% of targeted biopsy predictions matched expert and histological assessment at 56 fps. The artificial intelligence system performed better than six endoscopists. INTERPRETATION: Our CNNs classify and localise dysplastic Barrett's Esophagus potentially supporting endoscopists during surveillance. ispartof: UNITED EUROPEAN GASTROENTEROLOGY JOURNAL vol:10 issue:6 pages:528-537 ispartof: location:England status: published

Published

2021

2. Modern Diagnosis of Early Esophageal Cancer: From Blood Biomarkers to Advanced Endoscopy and Artificial Intelligence

Author

Mentore Ribolsi, Edoardo Savarino, Pierfrancesco Visaggi, Matteo Ghisa, Brigida Barberio, Michele Valmasoni, Vincenzo Savarino, Santino Marchi, Nicola de Bortoli, and Matteo Fassan

Subjects

Cancer Research, diagnosis, Review, Disease, 03 medical and health sciences, 0302 clinical medicine, early neoplasia, advanced endoscopy, medicine, esophageal cancer, Esophagus, RC254-282, Mass screening, Advanced endoscopy, Artificial intelligence, Biomarkers, Diagnosis, Early neoplasia, Esophageal cancer, medicine.diagnostic_test, business.industry, biomarkers, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Cancer, artificial intelligence, medicine.disease, Dysphagia, Endoscopy, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, 030211 gastroenterology & hepatology, medicine.symptom, business, Odynophagia

Abstract

Simple Summary Esophageal cancer (EC) has a poor prognosis when the diagnosis is delayed, but curative treatment is possible if the diagnosis is timely. The disease subtly progresses before symptoms prompt patients to seek medical attention. Effective pre-symptomatic screening strategies may improve the outcome of the disease. Recent evidence provided insights into early diagnosis of EC via blood tests, advanced endoscopic imaging, and artificial intelligence. Accordingly, we reviewed available strategies to diagnose early EC. Abstract Esophageal cancer (EC) is the seventh most common cancer and the sixth cause of cancer death worldwide. Histologically, esophageal squamous cell carcinoma (ESCC) and esophageal adenocarcinoma (EAC) account for up to 90% and 20% of all ECs, respectively. Clinical symptoms such as dysphagia, odynophagia, and bolus impaction occur late in the natural history of the disease, and the diagnosis is often delayed. The prognosis of ESCC and EAC is poor in advanced stages, being survival rates less than 20% at five years. However, when the diagnosis is achieved early, curative treatment is possible, and survival exceeds 80%. For these reasons, mass screening strategies for EC are highly desirable, and several options are currently under investigation. Blood biomarkers offer an inexpensive, non-invasive screening strategy for cancers, and novel technologies have allowed the identification of candidate markers for EC. The esophagus is easily accessible via endoscopy, and endoscopic imaging represents the gold standard for cancer surveillance. However, lesion recognition during endoscopic procedures is hampered by interobserver variability. To fill this gap, artificial intelligence (AI) has recently been explored and provided encouraging results. In this review, we provide a summary of currently available options to achieve early diagnosis of EC, focusing on blood biomarkers, advanced endoscopy, and AI.

Published

2021

3. Modern Diagnosis of Early Esophageal Cancer: From Blood Biomarkers to Advanced Endoscopy and Artificial Intelligence.

Author

Visaggi, Pierfrancesco, Barberio, Brigida, Ghisa, Matteo, Ribolsi, Mentore, Savarino, Vincenzo, Fassan, Matteo, Valmasoni, Michele, Marchi, Santino, de Bortoli, Nicola, and Savarino, Edoardo

Subjects

HEAD & neck cancer diagnosis, ARTIFICIAL intelligence, EARLY detection of cancer, HEAD & neck cancer, TUMOR markers, ENDOSCOPIC gastrointestinal surgery, ESOPHAGEAL tumors, SQUAMOUS cell carcinoma

Abstract

Simple Summary: Esophageal cancer (EC) has a poor prognosis when the diagnosis is delayed, but curative treatment is possible if the diagnosis is timely. The disease subtly progresses before symptoms prompt patients to seek medical attention. Effective pre-symptomatic screening strategies may improve the outcome of the disease. Recent evidence provided insights into early diagnosis of EC via blood tests, advanced endoscopic imaging, and artificial intelligence. Accordingly, we reviewed available strategies to diagnose early EC. Esophageal cancer (EC) is the seventh most common cancer and the sixth cause of cancer death worldwide. Histologically, esophageal squamous cell carcinoma (ESCC) and esophageal adenocarcinoma (EAC) account for up to 90% and 20% of all ECs, respectively. Clinical symptoms such as dysphagia, odynophagia, and bolus impaction occur late in the natural history of the disease, and the diagnosis is often delayed. The prognosis of ESCC and EAC is poor in advanced stages, being survival rates less than 20% at five years. However, when the diagnosis is achieved early, curative treatment is possible, and survival exceeds 80%. For these reasons, mass screening strategies for EC are highly desirable, and several options are currently under investigation. Blood biomarkers offer an inexpensive, non-invasive screening strategy for cancers, and novel technologies have allowed the identification of candidate markers for EC. The esophagus is easily accessible via endoscopy, and endoscopic imaging represents the gold standard for cancer surveillance. However, lesion recognition during endoscopic procedures is hampered by interobserver variability. To fill this gap, artificial intelligence (AI) has recently been explored and provided encouraging results. In this review, we provide a summary of currently available options to achieve early diagnosis of EC, focusing on blood biomarkers, advanced endoscopy, and AI. [ABSTRACT FROM AUTHOR]

Published

2021