Evaluation of Magnifying Colonoscopy in the Diagnosis of Serrated Polyps

Overview

Journal World J Gastroenterol

Publisher Baishideng Publishing Group

Specialty Gastroenterology

Date 2012 Sep 13

PMID 22969193

Citations 24

Authors

Shinya Ishigooka

Masahito Nomoto

Nobuyuki Obinata

Yoshichika Oishi

Yoshinori Sato

Satoko Nakatsu

Midori Suzuki

Yoshiko Ikeda

Tadateru Maehata

Tomoaki Kimura

Yoshiyuki Watanabe

Takashi Nakajima

Hiro-O Yamano

Hiroshi Yasuda

Fumio Itoh

Affiliations

Soon will be listed here.

Abstract

Aim: To elucidate the colonoscopic features of serrated lesions of the colorectum using magnifying colonoscopy.

Methods: Broad division of serrated lesions of the colorectum into hyperplastic polyps (HPs), traditional serrated adenomas (TSAs), and sessile serrated adenomas/polyps (SSA/Ps) has been proposed on the basis of recent molecular biological studies. However, few reports have examined the colonoscopic features of these divisions, including magnified colonoscopic findings. This study examined 118 lesions excised in our hospital as suspected serrated lesions after magnified observation between January 2008 and September 2011. Patient characteristics (sex, age), conventional colonoscopic findings (location, size, morphology, color, mucin) and magnified colonoscopic findings (pit pattern diagnosis) were interpreted by five colonoscopists with experience in over 1000 colonoscopies, and were compared with histopathological diagnoses. The pit patterns were categorized according to Kudo's classification, but a more detailed investigation was also performed using the subclassification [type II-Open (type II-O), type II-Long (type II-L), or type IV-Serrated (type IV-S)] proposed by Kimura T and Yamano H.

Results: Lesions comprised 23 HPs (23/118: 19.5%), 39 TSAs (39/118: 33.1%: with cancer in one case), 50 SSA/Ps (50/118: 42.4%: complicated with cancer in three cases), and six others (6/118: 5.1%). We excluded six others, including three regular adenomas, one hamartoma, one inflammatory polyp, and one juvenile polyp for further analysis. Conventional colonoscopy showed that SSA/Ps were characterized as larger in diameter than TSAs and HPs (SSA/P vs HP, 13.62 ± 8.62 mm vs 7.74 ± 3.24 mm, P < 0.001; SSA/Ps vs TSA, 13.62 ± 8.62 mm vs 9.89 ± 5.73 mm, P < 0.01); common in the right side of the colon [HPs, 30.4% (7/23): TSAs, 20.5% (8/39): SSA/P, 84.0% (42/50), P < 0.001]; flat-elevated lesion [HPs, 30.4% (7/23): TSAs, 5.1% (2/39): SSA/Ps, 90.0% (45/50), P < 0.001]; normal-colored or pale imucosa [HPs, 34.8% (8/23): TSAs, 10.3% (4/39): SSA/Ps, 80% (40/50), P < 0.001]; and with large amounts of mucin [HPs, 21.7% (5/23): TSAs, 17.9% (7/39): SSA/Ps, 72.0% (36/50), P < 0.001]. In magnified colonoscopic findings, 17 lesions showed either type II pit pattern alone or partial type II pit pattern as the basic architecture, with 14 HPs (14/17, 70.0%) and 3 SSA/Ps. Magnified colonoscopy showed the type II-O pit pattern as characteristic of SSA/Ps [sensitivity 83.7% (41/49), specificity 85.7% (54/63)]. Cancer was also present in three lesions, in all of which a type VI pit pattern was also present within the same lesion. There were four HPs and four TSAs each. The type IV-S pit pattern was characteristic of TSAs [sensitivity 96.7% (30/31), specificity 89.9% (72/81)]. Cancer was present in one lesion, in which a type VI pit pattern was also present within the same lesion. In our study, serrated lesions of the colorectum also possessed the features described in previous reports of conventional colonoscopic findings. The pit pattern diagnosis using magnifying colonoscopy, particularly magnified colonoscopic findings using subclassifications of surface architecture, reflected the pathological characteristics of SSA/Ps and TSAs, and will be useful for colonoscopic diagnosis.

Conclusion: We suggest that this system could be a good diagnostic tool for SSA/Ps using magnifying colonoscopy.

Citing Articles

Endoscopic characteristics and performance of WASP classification in the diagnosis of colorectal sessile-serrated lesions in Vietnamese patients.

Vu N, Le H, Vo D, Le N, Ho D, Quach D JGH Open. 2024; 8(6):e13109.

PMID: 38919272 PMC: 11196833. DOI: 10.1002/jgh3.13109.

Sessile serrated lesions with dysplasia: is it possible to nip them in the bud?.

Utsumi T, Yamada Y, Diaz-Meco M, Moscat J, Nakanishi Y J Gastroenterol. 2023; 58(8):705-717.

PMID: 37219625 PMC: 10366009. DOI: 10.1007/s00535-023-02003-9.

A Multicenter Prospective Validation Study on Selective Endoscopic Resection of Sessile Serrated Lesions Using Magnifying Colonoscopy in Clinical Practice.

Hirata D, Kashida H, Matsumoto T, Ebisutani C, Teramoto A, Iwatate M Digestion. 2023; 104(4):262-269.

PMID: 36649681 PMC: 10534952. DOI: 10.1159/000527978.

Evaluation of the optical criteria for sessile serrated lesions of the colon: A prospective study on a colorectal cancer screening population.

Bustamante-Balen M, Satorres C, Ramos-Soler D, Garcia-Campos M, Alonso N, Ponce M Endosc Int Open. 2021; 9(1):E14-E21.

PMID: 33403231 PMC: 7775808. DOI: 10.1055/a-1293-7086.

Traditional serrated adenoma has two distinct genetic pathways for molecular tumorigenesis with potential neoplastic progression.

Tanaka Y, Eizuka M, Uesugi N, Kawasaki K, Yamano H, Suzuki H J Gastroenterol. 2020; 55(9):846-857.

PMID: 32535664 PMC: 7452875. DOI: 10.1007/s00535-020-01697-5.

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