Artificial intelligence assisted endoscopic ultrasound for detection of pancreatic space-occupying lesion: a systematic review and meta-analysis

Arkadeep Dhali; Vincent Kipkorir; Bahadar S Srichawla; Harendra Kumar; Roger B Rathna; Ibsen Ongidi; Talha Chaudhry; Gisore Morara; Khulud Nurani; Doreen Cheruto; Jyotirmoy Biswas; Leonard R Chieng; Gopal Krishna Dhali

doi:10.1097/JS9.0000000000000717

Artificial intelligence assisted endoscopic ultrasound for detection of pancreatic space-occupying lesion: a systematic review and meta-analysis

Int J Surg. 2023 Dec 1;109(12):4298-4308. doi: 10.1097/JS9.0000000000000717.

Affiliations

¹ NIHR Academic Clinical Fellow in Gastroenterology, University of Sheffield; Internal Medicine Trainee, Sheffield Teaching Hospitals NHS Foundation Trust, Sheffield, UK.
² School of Medicine, Faculty of Health Sciences, University of Nairobi, Nairobi, Kenya.
³ University of Massachusetts Chan Medical School, Worcester, MA.
⁴ Dow University of Health Sciences, Karachi, Pakistan.
⁵ University Hospitals Birmingham, Birmingham, UK.
⁶ College of Medicine and Sagore Dutta Hospitals.
⁷ School of Digestive and Liver Diseases, Institute of Postgraduate Medical Education and Research, Kolkata, India.

Abstract

Background: Diagnosing pancreatic lesions, including chronic pancreatitis, autoimmune pancreatitis, and pancreatic cancer, poses a challenge and, as a result, is time-consuming. To tackle this issue, artificial intelligence (AI) has been increasingly utilized over the years. AI can analyze large data sets with heightened accuracy, reduce interobserver variability, and can standardize the interpretation of radiologic and histopathologic lesions. Therefore, this study aims to review the use of AI in the detection and differentiation of pancreatic space-occupying lesions and to compare AI-assisted endoscopic ultrasound (EUS) with conventional EUS in terms of their detection capabilities.

Methods: Literature searches were conducted through PubMed/Medline, SCOPUS, and Embase to identify studies eligible for inclusion. Original articles, including observational studies, randomized control trials, systematic reviews, meta-analyses, and case series specifically focused on AI-assisted EUS in adults, were included. Data were extracted and pooled, and a meta-analysis was conducted using Meta-xl. For results exhibiting significant heterogeneity, a random-effects model was employed; otherwise, a fixed-effects model was utilized.

Results: A total of 21 studies were included in the review with four studies pooled for a meta-analysis. A pooled accuracy of 93.6% (CI 90.4-96.8%) was found using the random-effects model on four studies that showed significant heterogeneity ( P <0.05) in the Cochrane's Q test. Further, a pooled sensitivity of 93.9% (CI 92.4-95.3%) was found using a fixed-effects model on seven studies that showed no significant heterogeneity in the Cochrane's Q test. When it came to pooled specificity, a fixed-effects model was utilized in six studies that showed no significant heterogeneity in the Cochrane's Q test and determined as 93.1% (CI 90.7-95.4%). The pooled positive predictive value which was done using the random-effects model on six studies that showed significant heterogeneity was 91.6% (CI 87.3-95.8%). The pooled negative predictive value which was done using the random-effects model on six studies that showed significant heterogeneity was 93.6% (CI 90.4-96.8%).

Conclusion: AI-assisted EUS shows a high degree of accuracy in the detection and differentiation of pancreatic space-occupying lesions over conventional EUS. Its application may promote prompt and accurate diagnosis of pancreatic pathologies.

Publication types

Meta-Analysis
Systematic Review

MeSH terms

Adult
Artificial Intelligence*
Endosonography
Humans
Pancreas / pathology
Pancreatic Neoplasms* / diagnostic imaging
Pancreatic Neoplasms* / pathology
Sensitivity and Specificity