Top

Surgical Endoscopy

Published in:

Open Access 11-03-2024 | Endoscopy

Enhancing endoscopic measurement: validating a quantitative method for polyp size and location estimation in upper gastrointestinal endoscopy

Authors: Nazanin Safavian, Simon K. C. Toh, Martino Pani, Raymond Lee

Published in: Surgical Endoscopy | Issue 5/2024

Abstract

Background

Accurate measurement of polyps size is crucial in predicting malignancy, planning relevant intervention strategies and surveillance schedules. Endoscopists’ visual estimations can lack precision. This study builds on our prior research, with the aim to evaluate a recently developed quantitative method to measure the polyp size and location accurately during a simulated endoscopy session.

Methods

The quantitative method merges information about endoscopic positions obtained from an electromagnetic tracking sensor, with corresponding points on the images of the segmented polyp border. This yields real-scale 3D coordinates of the border of the polyp. By utilising the sensor, positions of any anatomical landmarks are attainable, enabling the estimation of a polyp’s location relative to them. To verify the method’s reliability and accuracy, simulated endoscopies were conducted in pig stomachs, where polyps were artificially created and assessed in a test–retest manner. The polyp measurements were subsequently compared against clipper measurements.

Results

The average size of the fifteen polyps evaluated was approximately 12 ± 4.3 mm, ranging from 5 to 20 mm. The test–retest reliability, measured by the Intraclass Correlation Coefficient (ICC) for polyp size estimation, demonstrated an absolute agreement of 0.991 (95% CI 0.973–0.997, p < 0.05). Bland & Altman analysis revealed a mean estimation difference of − 0.17 mm (− 2.03%) for polyp size and, a mean difference of − 0.4 mm (− 0.21%) for polyp location. Both differences were statistically non-significant (p > 0.05). When comparing the proposed method with calliper measurements, the Bland & Altman plots showed 95% of size estimation differences between − 1.4 and 1.8 mm (− 13 to 17.4%) which was not significant (p > 0.05).

Conclusions

The proposed method of measurements of polyp size and location was found to be highly accurate, offering great potential for clinical implementation to improve polyp assessment. This level of performance represents a notable improvement over visual estimation technique used in clinical practice.

https://polhemus.com/applications/electromagnetics/.

Banks M et al (2019) British Society of Gastroenterology guidelines on the diagnosis and management of patients at risk of gastric adenocarcinoma. Gut 68(9):1545–1575CrossRefPubMed

Evans JA et al (2015) The role of endoscopy in the management of premalignant and malignant conditions of the stomach. Gastrointest Endosc 82(1):1–8CrossRefPubMed

Goddard AF, Badreldin R, Pritchard DM, Walker MM, Warren B (2010) The management of gastric polyps. Gut 59(9):1270–1276CrossRefPubMed

Houwen BBSL et al (2022) Definition of competence standards for optical diagnosis of diminutive colorectal polyps: European Society of Gastrointestinal Endoscopy (ESGE) position statement. Endoscopy 54(01):88–99CrossRefPubMed

Moug SJ, Vernall N, Saldanha J, McGregor JR, Balsitis M, Diament RH (2010) Endoscopists’ estimation of size should not determine surveillance of colonic polyps. Colorectal Dis 12(7):646–650CrossRefPubMed

Schoen RE, Gerber LD, Margulies C (1997) The pathologic measurement of polyp size is preferable to the endoscopic estimate. Gastrointest Endosc 46(6):492–496CrossRefPubMed

Chaptini L, Chaaya A, Depalma F, Hunter K, Peikin S, Laine L (2014) Variation in polyp size estimation among endoscopists and impact on surveillance intervals. Gastrointest Endosc 80(4):652–659CrossRefPubMed

Redondo-Cerezo E et al (2022) Accuracy in optical diagnosis for polyps between 5 and 15 mm and its implications on surveillance: a prospective, multicenter study (POPS study). Surg Endosc 36:1–10CrossRef

Tang L, Di Re A, El-Khoury T (2020) Accuracy of estimation of polyp size at colonoscopy. ANZ J Surg 90(6):1125–1129CrossRefPubMed

10.

Elwir S, Shaukat A, Shaw M, Hughes J, Colton J (2017) Variability in, and factors associated with, sizing of polyps by endoscopists at a large community practice. Endosc Int Open 5(08):E742–E745CrossRefPubMedPubMedCentral

11.

Eichenseer PJ, Dhanekula R, Jakate S, Mobarhan S, Melson JE (2013) Endoscopic mis-sizing of polyps changes colorectal cancer surveillance recommendations. Dis Colon Rectum 56(3):315–321CrossRefPubMed

12.

Shim CN et al (2014) Size discrepancy between endoscopic size and pathologic size is not negligible in endoscopic resection for early gastric cancer. Surg Endosc 28(7):2199–2207CrossRefPubMed

13.

Han S-K, Kim H, Kim J, Kim H-S, Kim S-Y, Park H-J (2021) Usefulness of a colonoscopy cap with an external grid for the measurement of small-sized colorectal polyps: a prospective randomized trial. J Clin Med 10(11):2365CrossRefPubMedPubMedCentral

14.

Jin H-Y, Leng Q (2015) Use of disposable graduated biopsy forceps improves accuracy of polyp size measurements during endoscopy. World J Gastroenterol: WJG 21(2):623CrossRefPubMedPubMedCentral

15.

Kaz AM, Anwar A, Robinson DO, Dominitz JA (2016) Use of a novel polyp ‘ruler snare’ improves estimation of colon polyp size. Gastrointest Endosc. https://doi.org/10.1016/j.gie.2015.08.082CrossRefPubMed

16.

Itoh H et al (2021) Binary polyp-size classification based on deep-learned spatial information. Int J Comput Assist Radiol Surg 16(10):1817–1828CrossRefPubMed

17.

Kwak MS, Cha JM, Jeon JW, Yoon JY, Park JW (2022) Artificial intelligence-based measurement outperforms current methods for colorectal polyp size measurement. Digest Endosc 34:1188–1195CrossRef

18.

Visentini-Scarzanella M et al (2018) A structured light laser probe for gastrointestinal polyp size measurement: a preliminary comparative study. Endosc Int Open 6(05):E602–E609CrossRefPubMedPubMedCentral

19.

Furukawa R et al (2016) 3D endoscope system using DOE projector. 2016 38th annual international conference of the IEEE Engineering in Medicine and Biology Society (EMBC). IEEE, pp 2091–2094CrossRef

20.

Yoshioka M et al (2021) Virtual scale function of gastrointestinal endoscopy for accurate polyp size estimation in real-time: a preliminary study. J Biomed Opt 26(9):96002CrossRef

21.

Shimoda R et al (2022) Estimating colorectal polyp size with a virtual scale endoscope and visual estimation during colonoscopy: prospective, preliminary comparison of accuracy. Digest Endosc 34:1471–1477CrossRef

22.

Oka K, Seki T, Akatsu T, Wakabayashi T, Inui K, Yoshino J (2014) Clinical study using novel endoscopic system for measuring size of gastrointestinal lesion. World J Gastroenterol 20(14):4050CrossRefPubMedPubMedCentral

23.

Safavian N, Toh SKC, Pani M, Lee R (2023) Endoscopic measurement of the size of gastrointestinal polyps using an electromagnetic tracking system and computer vision-based algorithm. Int J Comput Assist Radiol Surg 9:321–329CrossRef

24.

Dong B, Wang W, Fan D-P, Li J, Fu H, Shao L (2021) Polyp-PVT: polyp segmentation with pyramid vision transformers. arXiv preprint arXiv:2108.06932

25.

Wang W et al. (2021) Pyramid Vision Transformer: a versatile backbone for dense prediction without convolutions. In: Proceedings of the IEEE/CVF international conference on computer vision, pp. 568–578

26.

Jha D et al. (2020) Kvasir-SEG: a segmented polyp dataset. In: MultiMedia modeling: 26th international conference, MMM 2020, Daejeon, South Korea, January 5–8, 2020, Proceedings, Part II 26. Springer, pp. 451–462

27.

Bernal J, Sánchez FJ, Fernández-Esparrach G, Gil D, Rodríguez C, Vilariño F (2015) WM-DOVA maps for accurate polyp highlighting in colonoscopy: validation vs saliency maps from physicians. Comput Med Imaging Graph 43:99–111CrossRefPubMed

28.

Ma J, Wang D, Wang X-P, Yang X (2021) A characteristic function-based algorithm for geodesic active contours. SIAM J Imaging Sci 14(3):1184–1205CrossRef

29.

Belongie S, Malik J, Puzicha J (2000) Shape context: a new descriptor for shape matching and object recognition. Adv Neural Inf Process Syst 13:831–837

30.

Koo TK, Li MY (2016) A guideline of selecting and reporting intraclass correlation coefficients for reliability research. J Chiropr Med 15(2):155–163CrossRefPubMedPubMedCentral

31.

Giavarina D (2015) Understanding bland Altman analysis. Biochem Med 25(2):141–151CrossRef

32.

Shapiro SS, Wilk MB (1965) An analysis of variance test for normality (complete samples). Biometrika 52(3/4):591–611CrossRef

Title: Enhancing endoscopic measurement: validating a quantitative method for polyp size and location estimation in upper gastrointestinal endoscopy
Authors: Nazanin Safavian
Simon K. C. Toh
Martino Pani
Raymond Lee
Publication date: 11-03-2024
Publisher: Springer US
Keyword: Endoscopy
Published in: Surgical Endoscopy / Issue 5/2024
Print ISSN: 0930-2794
Electronic ISSN: 1432-2218
DOI: https://doi.org/10.1007/s00464-024-10758-2

At a glance: The STEP trials

Springer Medicine

Enhancing endoscopic measurement: validating a quantitative method for polyp size and location estimation in upper gastrointestinal endoscopy

Abstract

Background

Methods

Results

Conclusions

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Methods

Results

Conclusions

Please log in to get access to this content

Other articles of this Issue 5/2024

The current state of autonomous suturing: a systematic review

Survival paradox between stage IIB/C and stage IIIA colon cancer: is it time to revise the American Joint Committee on Cancer TNM system?

Effect of anti-reflux suture on gastroesophageal reflux symptoms after one anastomosis gastric bypass: a randomized controlled trial

Single anastomosis duodenal switch versus Roux-en-Y gastric bypass in patients with BMI ≥ 50 kg/m2: a multi-centered comparative analysis

Efficacy of endoscopic surveillance for pharyngeal mucosa during endoscopic resection for pharyngeal carcinoma: a multicenter prospective study

Achievement of textbook outcome after hepatectomy combined with thermal ablation for colorectal liver metastases