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©The Author(s) 2024.
Artif Intell Gastrointest Endosc. Jun 8, 2024; 5(2): 91424
Published online Jun 8, 2024. doi: 10.37126/aige.v5.i2.91424
Published online Jun 8, 2024. doi: 10.37126/aige.v5.i2.91424
Table 1 Technological advancement in endoscopic diagnosis and treatment of colorectal diseases
| No. | Techniques | Technology | Clinical use diagnostic/therapeutic | Ref. |
| 1 | Chromoendoscopy | Real-time tissue enhancement using biocompatible dyes | Polyp and adenoma detection, differentiation of benign from malignant lesions, dysplasia associated with IBD | [111-114] |
| 2 | Narrow band imaging | Physical spectral filters generate narrow bands of 415 and 540 nm in center wavelength | Adenoma detection, dysplasia associated with IBD | [115,116] |
| 3 | Blue light imaging | Narrowed spectrum LED light of 410 nm and 450 nm enabling haemoglobin excitation and a positive mucosal contrast | Differentiation of non-neoplastic from neoplastic lesions, in vivo histology | [117-119] |
| 4 | Autofluorescence endoscopy | Fluorescence of fluorophores differentiate tissues | Adenoma detection, differentiation of non-neoplastic lesions from neoplastic lesions | [120-123] |
| 5 | Flexible spectral imaging color enhancement | This differentiation is based on the surface capillary pattern | Differentiation of non-neoplastic from neoplastic lesions, in vivo histology | [124-126] |
| 6 | Linked color imaging | Pre-processing narrow band LED radiation and post-processing color technology to separate imported colors into red, green, and blue what enhances color differences | Polyp detection | [127-129] |
| 7 | i-SCAN | Enhancement of the image contrast through a real-time post-processing algorithm, basing the different reflective properties of normal and abnormal mucosa | Adenoma detection, in vivo histology, disease activity in IBD, detection of neoplasia in IBD | [130-133] |
| 8 | i-SCAN OE | Incorporation of a digital pre-processor optical enhancement to improve visualization of mucosal vascular pattern | Detection of pre-malignant lesions | [134] |
Table 2 Commercial artificial intelligence algorithms and its clinical use in colorectal diseases[135]
| No. | Product name | Company | Integration | CAD mode | Regulatory (country, year) | Clinical use |
| 1 | EndoBRAIN | Cybernet System Co. (Tokyo, Japan) | CF-290ECI, Olympus Co. | CADx | Japan, 2018 | Colorectal polyps endocytoscopy-computer-aided diagnosis |
| 2 | EndoBRAIN-EYE | Cybernet System Co. | Olympus colonoscopes | CADe | Japan, 2020 | Colorectal polyps endocytoscopy-computer-aided diagnosis |
| 3 | EndoBRAIN-PLUS | Cybernet System Co. | CF-290ECI, Olympus Co. | CADx | Japan, 2020 | Image enhanced colonoscopy |
| 4 | EndoBRAIN-UC | Cybernet System Co. | CF-290ECI, Olympus Co. | CADx | Japan, 2020 | Image enhanced colonoscopy |
| 5 | GI Genius | Medtronic Co. (Dublin, Ireland) | Multi vendors possible | CADe | United States, Europe, 2019 | Colorectal polyps |
| 6 | DISCOVERY | Pentax Medical Co. (Tokyo, Japan) | Pentax colonoscope | CADe | Europe, 2020 | Colorectal polyps |
| 7 | ENDO-AID | Olympus Co. (Tokyo, Japan) | Olympus colonoscopes | CADe | Europe, 2020 | Colorectal polyps, real-time aid, texture and color enhancement imaging |
| 8 | CAD-EYE | Fujifilm (Tokyo, Japan) | Fukifilm colonoscope | CADe CADx | Europe, Japan, 2020 | Colorectal polyps, real-time aid |
| 9 | EndoScreener | Shanghai Wision AI Co. (Shanghai, China) | Multi vendors | CADe | Europe, United States, 2021 | Colorectal polyps |
| 10 | WISE VISION | NEC Co. (Tokyo, Japan) | Multi vendors | CADe | Japan, Europe, 2020 | Colorectal polyps |
Table 3 Results of combined endo-laparoscopic surgery, segmental resection and outcome
| No. | Number of patients | Complications (%) | Length of stay (d) | Procedure time (min) | Cost (dollars)/others | Ref. |
| 1 | 23 SR; 23 CELS | CELS: 13; SR: 47.8 | CELS: 4; SR: 7 | CELS: 135; SR: 200 | - | Golda et al[107], 2022 |
| 2 | 11 CELS; 11 SR | CELS: 0; SR: 9 | CELS: 0-3; SR: 2-5 | CELS: 66.73; SR: 204.7 | CELS: 5523.29; SR: 12626.33 | Jayaram et al[108], 2019 |
| 3 | 5 CELS; 9 SR | CELS: 0; SR: 33.3 | CELS: 1; SR: 5 | CELS: 159; SR: 205 | - | Lee et al[109], 2013 |
Table 4 Results of published series on surgery vs endoscopic intervention in malignant colorectal polyps and colonic obstruction
| No. | Patients | Diagnosis | Complications (%) | Outcome (surgery vs endoscopy) | Ref. |
| 1 | Of 2077 patients: Surgical resection (1340), endoscopic polypectomy (737) | Malignant polyp | Surgery: 8.8. Endoscopy: 1.4 | 1-yr OS (92% vs 75%); 5-yr OS (88% vs 62%) | Cooper et al[136], 2012 |
| 2 | Of 13157 patients: Surgical resection (11113), endoscopic polypectomy (2044) | Malignant polyp | - | Right colon polyps: < 20 mm polyp: 94.5% vs 94.3% (P = 0.9); 20-39 mm: 91.8% vs 74.2% (P < 0.01); > 40 mm: 92.4% vs 60% (P < 0.01) | Gangireddy et al[137], 2018 |
| 3 | Of 31062 patients: Surgical resection (28469), endoscopic polypectomy (2593) | Malignant polyp | - | 5-yr OS: 86.1% vs 80.6% (P < 0.05) | Lowe et al[138], 2020 |
| 4 | Of 12 studies (meta-analysis) | Malignant obstruction | SEMS: 32.7. ES: 48.2 (RR = 0.61, 95%CI: 0.41-0.91) | Mortality (RR = 1.06, 95%CI: 0.55-2.04). Successful primary anastomosis (SEMS: 69.75% vs ES: 55.07%) (RR = 1.26, 95%CI: 1.01-1.57) | Cirocchi et al[55], 2021 |
| 5 | Of 167 patients: SEMS (115), ES (52) | Malignant obstruction | SEMS: 20. ES: 30.8 | 5-yr OS: 85.6 vs 82.6% (P = 0.68) | Kim et al[54], 2023 |
- Citation: Ghosh NK, Kumar A. Ultra-minimally invasive endoscopic techniques and colorectal diseases: Current status and its future. Artif Intell Gastrointest Endosc 2024; 5(2): 91424
- URL: https://www.wjgnet.com/2689-7164/full/v5/i2/91424.htm
- DOI: https://dx.doi.org/10.37126/aige.v5.i2.91424