Recent Advances in Imaging of Small and Large Bowel

Published:September 29, 2015DOI:https://doi.org/10.1016/j.cpet.2015.07.008

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      References

        • Markova I.
        • Kluchova K.
        • Zboril R.
        • et al.
        Small bowel imaging—still a radiologic approach?.
        Biomed Pap Med Fac Univ Palacky Olomouc Czech Repub. 2010; 154: 123-132
        • Algin O.
        • Evrimler S.
        • Arslan H.
        Advances in radiologic evaluation of small bowel diseases.
        J Comput Assist Tomogr. 2013; 37: 862-871
        • Algin O.
        • Evrimler S.
        • Ozmen E.
        • et al.
        A novel biphasic oral contrast solution for enterographic studies.
        J Comput Assist Tomogr. 2013; 37: 65-74
        • Bicik I.
        • Bauerfeind P.
        • Breitbach T.
        • et al.
        Inflammatory bowel disease activity measured by positron emission tomography.
        Lancet. 1997; 350: 262
        • Kresnik E.
        • Gallowitsch H.J.
        • Mikosch P.
        • et al.
        (18)F-FDG positron emission tomography in the early diagnosis of enterocolitis: preliminary results.
        Eur J Nucl Med Mol Imaging. 2002; 29: 1389-1392
        • Das C.J.
        • Makharia G.
        • Kumar R.
        • et al.
        PET-CT enteroclysis: a new technique for evaluation of inflammatory diseases of the intestine.
        Eur J Nucl Med Mol Imaging. 2007; 34: 2106-2114
        • Das C.J.
        • Makharia G.K.
        • Kumar R.
        • et al.
        PET/CT colonography: a novel non-invasive technique for assessment of extent and activity of ulcerative colitis.
        Eur J Nucl Med Mol Imaging. 2010; 37: 714-721
        • Kinner S.
        • Antoch G.
        • Bockisch A.
        • et al.
        Whole-body PET/CT-colonography: a possible new concept for colorectal cancer staging.
        Abdom Imaging. 2007; 32: 606-612
        • Shyn P.B.
        18F-FDG positron emission tomography: potential utility in the assessment of Crohn’s disease.
        Abdom Imaging. 2012; 37: 377-386
        • Shyn P.B.
        • Mortele K.J.
        • Britz-Cunningham S.H.
        • et al.
        Low-dose 18F-FDG PET/CT enterography: improving on CT enterography assessment of patients with Crohn disease.
        J Nucl Med. 2010; 51: 1841-1848
        • Coakley F.V.
        • Gould R.
        • Yeh B.M.
        • et al.
        CT radiation dose: what can you do right now in your practice?.
        AJR Am J Roentgenol. 2011; 196: 619-625
        • Flicek K.T.
        • Hara A.K.
        • Silva A.C.
        • et al.
        Reducing the radiation dose for CT colonography using adaptive statistical iterative reconstruction: a pilot study.
        AJR Am J Roentgenol. 2010; 195: 126-131
        • Liu B.
        • Ramalho M.
        • AlObaidy M.
        • et al.
        Gastrointestinal imaging-practical magnetic resonance imaging approach.
        World J Radiol. 2014; 6: 544-566
        • Sinha R.
        • Verma R.
        • Verma S.
        • et al.
        MR enterography of Crohn disease: part 1, rationale, technique, and pitfalls.
        AJR Am J Roentgenol. 2011; 197: 76-79
        • Sinha R.
        • Verma R.
        • Verma S.
        • et al.
        MR enterography of Crohn disease: part 2, imaging and pathologic findings.
        AJR Am J Roentgenol. 2011; 197: 80-85
        • Kavaliauskiene G.
        • Ziech M.L.
        • Nio C.Y.
        • et al.
        Small bowel MRI in adult patients: not just Crohn’s disease—a tutorial.
        Insights Imaging. 2011; 2: 501-513
        • Gourtsoyannis N.
        • Papanikolaou N.
        • Grammatikakis J.
        • et al.
        MR enteroclysis protocol optimization: comparison between 3D FLASH with fat saturation after intravenous gadolinium injection and true FISP sequences.
        Eur Radiol. 2001; 11: 908-913
        • Deeab D.A.
        • Dick E.
        • Sergot A.A.
        • et al.
        Magnetic resonance imaging of the small bowel.
        Radiography. 2011; 17: 67-71
        • Prassopoulos P.
        • Papanikolaou N.
        • Grammatikakis J.
        Rouso- moustakaki M, Maris T, Gourtsoyiannis N. MR enteroclysis imaging of Crohn disease.
        Radiographics. 2001; 21: S161-S172
        • Fujii T.
        • Naganuma M.
        • Kitazume Y.
        • et al.
        Advancing magnetic resonance imaging in Crohn’s disease.
        Digestion. 2014; 89: 24-30
        • Buisson A.
        • Joubert A.
        • Montoriol P.F.
        • et al.
        Diffusion-weighted magnetic resonance imaging for detecting and assessing ileal inflammation in Crohn's disease.
        Aliment Pharmacol Ther. 2013; 37: 537-545
        • Oto A.
        • Kayhan A.
        • Williams J.T.B.
        • et al.
        Active Crohn’s disease in the small bowel: evaluation by diffusion weighted imaging and quantitative dynamic contrast enhanced MR imaging.
        J Magn Reson Imaging. 2011; 33: 615-624
        • Kinner S.
        • Hahnemann M.L.
        • Forsting M.
        • et al.
        Magnetic resonance imaging of the bowel: today and tomorrow.
        Rofo. 2015; 187: 160-167
        • Fernandes T.
        • Oliveira M.I.
        • Castro R.
        • et al.
        Bowel wall thickening at CT: simplifying the diagnosis.
        Insights Imaging. 2014; 5: 195-208
        • Macari M.
        • Megibow A.J.
        • Balthazar E.J.
        A pattern approach to the abnormal small bowel: observations at MDCT and CT enterography.
        AJR Am J Roentgenol. 2007; 188: 1344-1355
        • Engin G.
        • Balik E.
        Imaging findings of intestinal tuberculosis.
        J Comput Assist Tomogr. 2005; 29: 37-41
        • Prakash A.
        Abdominal tuberculosis.
        in: Gupta A.K. Chowdhury V. Khandelwal N. Diagnostic radiology: gastrointestinal and hepatobiliary imaging. 3rd edition. Jaypee Brothers, New Delhi (India)2009: 112-133
        • Masselli G.
        • Gualdi G.
        CT and MR enterography in evaluating small bowel diseases: when to use which modality?.
        Abdom Imaging. 2013; 38: 249-259
        • Soyer P.
        • Boudiaf M.
        • Dray X.
        • et al.
        CT enteroclysis features of uncomplicated celiac disease: retrospective analysis of 44 patients.
        Radiology. 2009; 253: 416-424
        • Masselli G.
        • Gualdi G.
        MR imaging of the small bowel.
        Radiology. 2012; 264: 333-334
        • Athanasakos A.
        • Mazioti A.
        • Economopoulos N.
        • et al.
        Inflammatory bowel disease—the role of cross-sectional imaging techniques in the investigation of the small bowel.
        Insights Imaging. 2015; 6: 73-83
        • Roggeveen M.J.
        • Tismenetsky M.
        • Shapiro R.
        Ulcerative colitis.
        Radiographics. 2006; 26: 947-951
        • Lee S.D.
        • Cohen R.D.
        Endoscopy in inflammatory bowel disease.
        Gastroenterol Clin North Am. 2002; 31: 119-132
        • Thoeni R.F.
        • Cello J.P.
        CT imaging of colitis.
        Radiology. 2006; 240: 623-638
        • Carucci L.R.
        • Levine M.S.
        Radiographic imaging of inflammatory bowel disease.
        Gastroenterol Clin North Am. 2002; 31: 93-117
        • Holtmann M.H.
        • Uenzen M.
        • Helisch A.
        • et al.
        18F-Fluorodeoxyglucose positron-emission tomography (PET) can be used to assess inflammation non-invasively in Crohn’s disease.
        Dig Dis Sci. 2012 Oct; 57: 2658-2668
        • Abouzied M.M.
        • Crawford E.S.
        • Nabi H.A.
        18F-FDG imaging: pitfalls and artifacts.
        J Nucl Med Technol. 2005; 33 ([quiz: 162–3]): 145-155
        • Louis E.
        • Ancion G.
        • Colard A.
        • et al.
        Noninvasive assessment of Crohn’s disease intestinal lesions with (18)F-FDG PET/CT.
        J Nucl Med. 2007; 48: 1053-1059
        • Lenze F.
        • Wessling J.
        • Bremer J.
        • et al.
        Detection and differentiation of inflammatory versus fibromatous Crohn’s disease strictures: prospective comparison of 18F-FDG-PET/CT, MR-enteroclysis, and transabdominal ultrasound versus endoscopic/histologic evaluation.
        Inflamm Bowel Dis. 2012; 18: 2252-2260
        • Lemberg D.A.
        • Issenman R.M.
        • Cawdron R.
        • et al.
        Positron emission tomography in the investigation of pediatric inflammatory bowel disease.
        Inflamm Bowel Dis. 2005; 11: 733-738
        • Löffler M.
        • Weckesser M.
        • Franzius C.
        • et al.
        High diagnostic value of 18F-FDG-PET in pediatric patients with chronic inflammatory bowel disease.
        Ann N Y Acad Sci. 2006; 1072: 379-385
        • Skehan S.J.
        • Issenman R.
        • Mernagh J.
        • et al.
        18F-fluorodeoxyglucose positron tomography in diagnosis of paediatric inflammatory bowel disease.
        Lancet. 1999; 354: 836-837
        • Thulkar S.
        • Gupta A.K.
        Malignant lesions of stomach and small intestine.
        in: Gupta A.K. Chowdhury V. Khandelwal N. Diagnostic radiology: gastrointestinal and hepatobiliary imaging. 3rd edition. Jaypee Brothers, New Delhi (India)2009: 91-111
        • Amzallag-Bellenger E.
        • Oudjit A.
        • Ruiz A.
        • et al.
        Effectiveness of MR enterography for the assessment of small-bowel diseases beyond Crohn disease.
        Radiographics. 2012; 32: 1423-1444
        • Anzidei M.
        • Napoli A.
        • Zini C.
        • et al.
        Malignant tumours of the small intestine: a review of histopathology, multidetector CT and MRI aspects.
        Br J Radiol. 2011; 84: 677-690
        • Sailer J.
        • Zacherl J.
        • Schima W.
        MDCT of small bowel tumours.
        Cancer Imaging. 2007; 7: 224-233
        • Coulier B.
        • Pringot J.
        • Gielen I.
        • et al.
        Carcinoid tumor of the small intestine: MDCT findings with pathologic correlation.
        JBR-BTR. 2007; 90: 507-515
        • Zhu Q.Q.
        • Zhu W.R.
        • Wu J.T.
        • et al.
        Comparative study of intestinal tuberculosis and primary small intestinal lymphoma.
        World J Gastroenterol. 2014; 20: 4446-4452
        • Dong P.
        • Wang B.
        • Sun Q.Y.
        • et al.
        Tuberculosis versus non-Hodgkin's lymphomas involving small bowel mesentery: evaluation with contrast-enhanced computed tomography.
        World J Gastroenterol. 2008; 14: 3914-3918
        • Koh J.S.
        • Trent J.
        • Chen L.
        Gastrointestinal stromal tumors: overview of pathologic features, molecular biology, and therapy with imatinib mesylate.
        Histol Histopathol. 2004; 19: 565-574
        • Horton K.M.
        • Juluru K.
        • Montogomery E.
        • et al.
        Computed tomography imaging of gastrointestinal stromal tumors with pathology correlation.
        J Comput Assist Tomogr. 2003; 28: 811-817
        • Sheth S.
        • Horton K.M.
        • Garland M.R.
        • et al.
        Mesenteric neoplasms: CT appearances of primary and secondary tumors and differential diagnosis.
        Radiographics. 2003; 23: 457-473
        • Prabhakar H.B.
        • Sahani D.V.
        • Fischman A.J.
        • et al.
        Bowel hot spots at PET-CT.
        Radiographics. 2007; 27: 145-159
        • Ciarallo A.
        • Makis W.
        • Derbekyan V.
        Primary peripheral T-cell lymphoma of the colon mimics inflammatory bowel disease: a potential pitfall with F-18 FDG PET/CT imaging.
        Clinnucl Med. 2011; 36: e61-e64
        • Tatlidil R.
        • Mandelkern M.
        FDG-PET in the detection of gastrointestinal metastases in melanoma.
        Melanoma Res. 2001; 11: 297-301
        • Jain T.K.
        • Karunanithi S.
        • Dhull V.S.
        • et al.
        Carcinoma of unknown primary of neuroendocrine origin: accurate detection of primary with 68Ga-labelled [1, 4, 7, 10-tetraazacyclododecane-1, 4, 7, 10-tetraacetic acid]-1-NaI3-Octreotide positron emission tomography/computed tomography enterography.
        Indian J Nucl Med. 2014; 29: 122-123
        • Kalra N.
        • Kang M.
        Colorectal malignancies.
        in: Gupta A.K. Chowdhury V. Khandelwal N. Diagnostic radiology: gastrointestinal and hepatobiliary imaging. 3rd edition. Jaypee Brothers, New Delhi (India)2009: 154-174
        • Kekelidze M.
        • D'Errico L.
        • Pansini M.
        • et al.
        Colorectal cancer: current imaging methods and future perspectives for the diagnosis, staging and therapeutic response evaluation.
        World J Gastroenterol. 2013; 19: 8502-8514
        • Narayanan S.
        • Kalra N.
        • Bhatia A.
        • et al.
        Staging of colorectal cancer using contrast-enhanced multidetector computed tomographic colonography.
        Singapore Med J. 2014; 55: 660-666
        • Veit-Haibach P.
        • Kuehle C.A.
        • Beyer T.
        • et al.
        Diagnostic accuracy of colorectal cancer staging with whole-body PET/CT colonography.
        JAMA. 2006; 296: 2590-2600
        • Nagata K.
        • Ota Y.
        • Okawa T.
        • et al.
        PET/CT colonography for the preoperative evaluation of the colon proximal to the obstructive colorectal cancer.
        Dis Colon Rectum. 2008; 51: 882-890