Abstract
To determine retrospectively if quantitative measures of the comb sign at CT enterography correlated with laboratory indications in Crohn’s disease. We retrospectively included 72 known CD patients (47 male and 25 female patients) and 41 normal controls who had undergone CT enterography (CTE) from 2008 to 2010 and had high-sensitive C reaction protein (Hs-CRP) and erythrocyte sedimentation rate (ESR) results. We divided the 72 CD patients into two groups based on disease activity which was determined by Rutgeerts’ score. 41 patients were characterized as active disease while 31 patients were as inactive disease. For each individual, one reformatted coronal CTE image in which the comb sign (vasa recta) was most obviously displayed was selected by two experienced radiologists in a double blind manner. For each image, 20 regions of interest (ROI) with area of 1 cm2 were drawn and placed over the site where the comb sign exists; the comb sign amount was counted in each ROI and recorded. Total amount of the comb sign were assessed from 20 ROI data. Quantitative comb sign results were compared with Hs-CRP and ESR level. Quantitative comb sign score is significantly higher in the CD group than in the control group at both the arterial stage and venous stage (P < 0.001). Quantitative comb sign score is obviously higher in active CD patients than in inactive CD patients both at arterial stage and venous stage (3.63 vs. 2.86 at arterial stage; 3.53 vs. 2.90 at venous stage). ESR level was well correlated with quantitative comb sign score both at arterial and venous stage whereas Hs-CRP has no significant correlation at either stage. Quantitative comb sign results did well in predicting CD activity with the accuracy rate of 78.4% at arterial stage and 80% at venous stage when using 3.33 as the cutoff of quantitative comb sign score. Quantitative comb sign score is a promising CTE parameter in predicting CD activity and be well correlates with the ESR level.
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References
Loftus CG, Loftus EVJr, Harmsen WS, et al. (2007) Update on the incidence and prevalence of Crohn’s disease and ulcerative colitis in Olmsted County, Minnesota, 1940–2000. Inflamm Bowel Dis 13:254–261
Jess T, Loftus EVJr, Harmsen WS, et al. (2006) Survival and cause specific mortality in patients with inflammatory bowel disease: a long term outcome study in Olmsted County, Minnesota, 1940–2004. Gut 55:1248–1254
Card T, Hubbard R, Logan RF (2003) Mortality in inflammatory bowel disease: a population-based cohort study. Gastroenterology 125:1583–1590
Danzi JT (1988) Extraintestinal manifestations of idiopathic inflammatory bowel disease. Arch Intern Med 148:297–302
Canavan C, Abrams KR, Mayberry JF (2007) Meta-analysis: mortality in Crohn’s disease. Aliment Pharmacol Ther 25:861–870
Ekbom A, Helmick CG, Zack M, Holmberg L, Adami HO (1992) Survival and causes of death in patients with inflammatory bowel disease: a population-based study. Gastroenterology 103:954–960
Hara AK, Leighton JA, Heigh RI, et al. (2006) Crohn disease of the small bowel: preliminary comparison among CT enterography, capsule endoscopy, small-bowel follow-through, and ileoscopy. Radiology 238:128–134
Wold PB, Fletcher JG, Johnson CD, Sandborn WJ (2003) Assessment of small bowel Crohn disease: noninvasive peroral CT enterography compared with other imaging methods and endoscopy–feasibility study. Radiology 229:275–281
Triester SL, Leighton JA, Leontiadis GI, et al. (2006) A meta-analysis of the yield of capsule endoscopy compared to other diagnostic modalities in patients with non-stricturing small bowel Crohn’s disease. Am J Gastroenterol 101:954–964
Albert JG, Martiny F, Krummenerl A, et al. (2005) Diagnosis of small bowel Crohn’s disease: a prospective comparison of capsule endoscopy with magnetic resonance imaging and fluoroscopic enteroclysis. Gut 54:1721–1727
Bernstein CN, Greenberg H, Boult I, et al. (2005) A prospective comparison study of MRI versus small bowel follow-through in recurrent Crohn’s disease. Am J Gastroenterol 100:2493–2502
Li F, Gurudu SR, De Petris G, et al. (2008) Retention of the capsule endoscope: a single-center experience of 1000 capsule endoscopy procedures. Gastrointest Endosc 68:174–180
Cave D, Legnani P, de Franchis R, Lewis BS (2005) ICCE consensus for capsule retention. Endoscopy 37:1065–1067
Paulsen SR, Huprich JE, Fletcher JG, et al. (2006) CT enterography as a diagnostic tool in evaluating small bowel disorders: review of clinical experience with over 700 cases. Radiographics 26:641–657 (Discussion 57–62)
Fletcher JG (2009) CT enterography technique: theme and variations. Abdom Imaging 34:283–288
Meyers MA, McGuire P (1995) Spiral CT demonstration of hypervascularity in Crohn disease: “vascular jejunization of the ileum” or the “comb sign”. Abdom Imaging 20:327–332
Colombel JF, Solem CA, Sandborn WJ, et al. (2006) Quantitative measurement and visual assessment of ileal Crohn’s disease activity by computed tomography enterography: correlation with endoscopic severity and C reactive protein. Gut 55:1561–1567
Lee SS, Ha HK, Yang SK, et al. (2002) CT of prominent pericolic or perienteric vasculature in patients with Crohn’s disease: correlation with clinical disease activity and findings on barium studies. AJR Am J Roentgenol 179:1029–1036
Huprich JE, Fletcher JG (2009) CT enterography: principles, technique and utility in Crohn’s disease. Eur J Radiol 69:393–397
Zamboni GA, Raptopoulos V (2010) CT enterography. Gastrointest Endosc Clin N Am 20:347–366
Bodily KD, Fletcher JG, Solem CA, et al. (2006) Crohn disease: Mural attenuation and thickness at contrast-enhanced CT enterography–correlation with endoscopic and histologic findings of inflammation. Radiology 238:505–516
Baker ME, Walter J, Obuchowski NA, et al. (2009) Mural attenuation in normal small bowel and active inflammatory Crohn’s disease on CT enterography: location, absolute attenuation, relative attenuation, and the effect of wall thickness. AJR Am J Roentgenol 192:417–423
Booya F, Fletcher JG, Huprich JE, et al. (2006) Active Crohn disease: CT findings and interobserver agreement for enteric phase CT enterography. Radiology 241:787–795
van Oostayen JA, Wasser MN, van Hogezand RA, Griffioen G, de Roos A (1994) Activity of Crohn disease assessed by measurement of superior mesenteric artery flow with Doppler US. Radiology 193:551–554
Giovagnorio F (1999) Doppler ultrasonography of the upper mesenteric artery in chronic intestinal inflammation. Radiol Med 98:43–47
Fagan EA, Dyck RF, Maton PN, et al. (1982) Serum levels of C-reactive protein in Crohn’s disease and ulcerative colitis. Eur J Clin Invest 12:351–359
Pfefferkorn MD, Boone JH, Nguyen JT, et al. (2010) Utility of fecal lactoferrin in identifying Crohn disease activity in children. J Pediatr Gastroenterol Nutr 51:425–428
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The article is supported by Youth Fund of Shanghai Health Bureau, Project No. 2010Y019.
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Ying-Wei Wu and Xiao-Feng Tao contributed equally to the article.
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Wu, YW., Tao, XF., Tang, YH. et al. Quantitative measures of comb sign in Crohn’s disease: correlation with disease activity and laboratory indications. Abdom Imaging 37, 350–358 (2012). https://doi.org/10.1007/s00261-011-9808-8
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DOI: https://doi.org/10.1007/s00261-011-9808-8