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CMIC Seminar: Agnieszka Szczotka and Steve Thompson

16 May 2018, 1:00 pm–2:00 pm

In this seminar, Agnieszka Szczotka will be explaining deep learning for exemplar-based super-resolution in endomicroscopy and Steve Thompson will be talking about in-vivo estimation of target registration errors during augmented reality laparoscopic surgery.

Event Information

Open to

All

Organiser

Dominique Drai

Location

Room 106
Robert's Engineering Building
Malet Place
London
WC1E 7JE
United Kingdom

About

Agnieszka Szczotka

Title: Deep learning for exemplar-based super-resolution in endomicroscopy

Purpose Probe-based confocal laser endomicroscopy (pCLE) is a recent imaging modality that allows performing in vivo optical biopsies. The design of pCLE hardware, and its reliance on an optical fibre bundle, fundamentally limits the image quality with a few tens of thousands fibres, each acting as the equivalent of a single-pixel detector, assembled into a single fibre bundle. Video registration techniques can be used to estimate high-resolution (HR) images by exploiting the temporal information contained in a sequence of low-resolution (LR) images. However, the alignment of LR frames, required for the fusion, is computationally demanding and prone to artefacts. Methods In this work, we propose a novel synthetic data generation approach to train exemplar-based Deep Neural Networks (DNNs). HR pCLE images with enhanced quality are recovered by the models trained on pairs of estimated HR images (generated by the video registration algorithm) and realistic synthetic LR images. Performance of three different state-of-theart DNNs techniques were analysed on a Smart Atlas database of 8806 images from 238 pCLE video sequences. The results were validated through an extensive image quality assessment that takes into account different quality scores, including a Mean Opinion Score (MOS). Results Results indicate that the proposed solution produces an effective improvement in the quality of the obtained reconstructed image. Conclusion The proposed training strategy and associated DNNs allows us to perform convincing super-resolution of pCLE images.

Steve Thompson

Title: In-Vivo Estimation of Target Registration Errors During Augmented Reality Laparoscopic Surgery

Purpose: Successful use of augmented reality for laparoscopic surgery requires that the surgeon has a thorough understanding of the likely accuracy of any overlay. Whilst the accuracy of such systems can be estimated in the laboratory, it is difficult to extend such methods to the in vivo clinical setting. Herein we describe a novel method that enables the surgeon to estimate in vivo errors during use. We show that the method enables quantitative evaluation of in vivo data gathered with the SmartLiver image guidance system.

Methods: The SmartLiver system utilises an intuitive display to enable the surgeon to compare the positions of landmarks visible in both a projected model and in the live video stream. From this the surgeon can estimate the system accuracy when using the system to locate subsurface targets not visible in the live video. Visible landmarks may be either point or line features. We test the validity of the algorithm using an anatomically representative liver phantom, applying simulated perturbations to achieve clinically realistic overlay errors. We then apply the algorithm to in vivo data.

Results: The phantom results show that using projected errors of surface features provides a reliable predictor of subsurface target registration error for a representative human liver shape. Applying the algorithm to in vivo data gathered with the SmartLiver image-guided surgery system shows that the system is capable of accuracies around 12 mm; however, achieving this reliably remains a significant challenge.

Conclusion: We present an in vivo quantitative evaluation of the SmartLiver image-guided surgery system, together with a validation of the evaluation algorithm. This is the first quantitative in vivo analysis of an augmented reality system for laparoscopic surgery.

https://link.springer.com/article/10.1007/s11548-018-1761-3

Visitors from outside UCL please email in advance.

About the Speakers

Agnieszka Szczotka

PhD student at UCL CMIC

Steve Thompson

Researcher at UCL CMIC