key: cord-0760117-hj7i886f authors: Wilcox, G.; Taylor, J.; Albazaz, R.; Tolan, D. title: Re: Optimal diagnostic tool for surveillance of oesophageal varices during COVID-19 pandemic date: 2021-07-18 journal: Clin Radiol DOI: 10.1016/j.crad.2021.05.022 sha: e8151e9b3d0f52550f39576b41356eac93999cc9 doc_id: 760117 cord_uid: hj7i886f nan SirdWe read the article by Jothimani et al. 1 exploring the accuracy and utility of computed tomography (CT) for the diagnosis and grading of oesophageal varices, against the reference standard of oesophagogastroduodenoscopy (OGD). They conclude CT is comparable to OGD for these purposes and list limitations including low patient numbers, single centre, and lack of ability to detect highrisk signs for bleeding; however, we would like to raise further limitations. Two technique-specific scoring systems underpinned the comparative analysis for ordinal sizing of varices. The Baveno workshop consensus classification is established and is used in the British Society of Gastroenterology guidance, 2 but no such radiological measure is validated. The unreferenced four-stage radiological classification in this paper appears to be their own development, and it is not clear what the significance of the 3 and 5 mm boundaries is clinically and how these have been validated in practice. This is important because direct intertechnique comparison of vessel calibre or mucosal prominence may be affected by distension of the oesophagus during endoscopy, compared to the atmospheric pressure during CT acquisition. Varices have been observed to progress from small to medium/large at an annual rate of approximately 12%. 3 This study included cases where the CT occurred within 6 months either side of the OGD. In our opinion, this 6month delay may have led to category shifting of varices and affected the validity of the data and a smaller limit would have been more appropriate in a retrospective comparative study for proof of principle. We would like to draw attention to Table 2 where we believe the sensitivity was substituted for PPV for all categories of varix, and similarly, with specificity and NPV. We suggest that this should be re-evaluated and a correction published. It may be of interest to the readership to see an example of how we calculated this, with reference to small varices. Correctness if comparing small to not small Clinical Radiology j o ur n a l ho m e p a g e : w w w . c l i ni c a l ra d i o l og y o nl i n e . n e t Sensitivity ¼ TP/(TPþFN) ¼ 23/(23 þ 4) ¼ 85.1% Although the study included cases that had undergone triple-phase CT, the authors only evaluated the portal venous phase imaging for variceal measurement. Additional phases add little to the assessment of varices, 380 cases were excluded because of lack of triple-phase CT. In our view, single-phase portal venous imaging should have been included to increase the sample size. CT often identifies incidental findings, and there are potentially significant additional resource implications related to this. In the current UK context, local endoscopic surveillance programmes for patients with cirrhosis are recovering after the health emergency related to SARS-CoV-19. It is important that CT surveillance assessment is not assumed to have equivalence when its clinical role is unvalidated and the published statistical analysis is incorrect. Optimal diagnostic tool for surveillance of oesophageal varices during COVID-19 pandemic UK guidelines on the management of variceal haemorrhage in cirrhotic patients Incidence and natural history of small esophageal varices in cirrhotic patients The authors declare no conflict of interest.