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01-11-2020 | Magnetic Resonance Imaging | Review

Imaging spectrum of mesenteric masses

Authors: Radwan Diab, Mayur Virarkar, Mohammed Saleh, Sherif Elsheif, Sanaz Javadi, Priya Bhosale, Silvana Faria

Published in: Abdominal Radiology | Issue 11/2020

Abstract

Mesenteries are extensions of the visceral and parietal peritoneum consisting of fat, vessels, nerves, and lymphatics. Mesenteric masses have a wide differential diagnosis with neoplastic, infectious, or inflammatory etiologies and can either be solid or cystic. Imaging features are critical for the diagnosis. We review the epidemiology, imaging spectrum, and differentiating features and treatment of mesenteric masses.

Ganeshan, D., et al., Current Update on Desmoid Fibromatosis. Journal of Computer Assisted Tomography, 2019. 43(1): p. 29-38.PubMedPubMedCentralCrossRef

Dufay, C., et al., Mesenteric tumors: diagnosis and treatment. Journal of visceral surgery, 2012. 149(4): p. e239-e251.PubMedCrossRef

Escobar, C., et al., Update on desmoid tumors. Ann Oncol, 2012. 23(3): p. 562-9.PubMedCrossRef

Koskenvuo, L., A. Ristimaki, and A. Lepisto, Comparison of sporadic and FAP-associated desmoid-type fibromatoses. J Surg Oncol, 2017. 116(6): p. 716-721.PubMedCrossRef

Lou, L., et al., Sonographic appearances of desmoid tumors. J Ultrasound Med, 2014. 33(8): p. 1519-25.PubMedCrossRef

McCarville, M.B., et al., MRI and biologic behavior of desmoid tumors in children. AJR Am J Roentgenol, 2007. 189(3): p. 633-40.PubMedCrossRef

Braschi-Amirfarzan, M., et al., Role of Imaging in Management of Desmoid-type Fibromatosis: A Primer for Radiologists. Radiographics, 2016. 36(3): p. 767-82.PubMedCrossRef

Shinagare, A.B., et al., A to Z of desmoid tumors. AJR Am J Roentgenol, 2011. 197(6): p. W1008-14.PubMedCrossRef

Winant, A.J., et al., More than just metastases: a practical approach to solid mesenteric masses. Abdominal imaging, 2014. 39(3): p. 605-621.PubMedCrossRef

10.

Burke, A.P., et al., Intra-abdominal fibromatosis. A pathologic analysis of 130 tumors with comparison of clinical subgroups. The American journal of surgical pathology, 1990. 14(4): p. 335-341.PubMedCrossRef

11.

Society, A.C., Cancer facts & figures. American Cancer Society, 2016.

12.

Bianchi, C. and T. Bianchi, Global mesothelioma epidemic: Trend and features. Indian journal of occupational and environmental medicine, 2014. 18(2): p. 82.PubMedPubMedCentralCrossRef

13.

Kim, J., S. Bhagwandin, and D.M. Labow, Malignant peritoneal mesothelioma: a review. Annals of translational medicine, 2017. 5(11).

14.

Liu, S., et al., Diffuse mesothelioma of the peritoneum: correlation between histological and clinical parameters and survival in 73 patients. Pathology, 2014. 46(7): p. 604-9.PubMedCrossRef

15.

Arraiza, M., et al., Primary cystic peritoneal masses and mimickers: spectrum of diseases with pathologic correlation. Abdominal imaging, 2015. 40(4): p. 875-906.PubMedCrossRef

16.

Park, J.Y., et al., Peritoneal Mesotheliomas: Clinicopathologic Features, CT Findings, and Differential Diagnosis. American Journal of Roentgenology, 2008. 191(3): p. 814-825.PubMedCrossRef

17.

Broeckx, G. and P. Pauwels, Malignant peritoneal mesothelioma: a review. Translational lung cancer research, 2018. 7(5): p. 537-542.PubMedPubMedCentralCrossRef

18.

Lee, R.M., et al., What is the Optimal Preoperative Imaging Modality for Assessing Peritoneal Cancer Index? An Analysis From the United States HIPEC Collaborative. Clinical Colorectal Cancer, 2020. 19(1): p. e1-e7.PubMedCrossRef

19.

Shao, Z.H., et al., Malignant mesothelioma presenting as a giant chest, abdominal and pelvic wall mass. Korean J Radiol, 2011. 12(6): p. 750-3.PubMedPubMedCentralCrossRef

20.

Malgras, B., et al., Impact of Combination Chemotherapy in Peritoneal Mesothelioma Hyperthermic Intraperitoneal Chemotherapy (HIPEC): The RENAPE Study. Annals of Surgical Oncology, 2018. 25(11): p. 3271-3279.PubMedCrossRef

21.

Grosso, F., et al., Nintedanib plus pemetrexed/cisplatin in patients with malignant pleural mesothelioma: phase II results from the randomized, placebo-controlled LUME-Meso trial. 2017.

22.

Zalcman, G., et al., Bevacizumab for newly diagnosed pleural mesothelioma in the Mesothelioma Avastin Cisplatin Pemetrexed Study (MAPS): a randomised, controlled, open-label, phase 3 trial. Lancet, 2016. 387(10026): p. 1405-1414.PubMedCrossRef

23.

Mindelzun, R.E., et al., The misty mesentery on CT: differential diagnosis. AJR. American journal of roentgenology, 1996. 167(1): p. 61-65.PubMedCrossRef

24.

Que, Y. and X. Wang, Sonography of peritoneal lymphomatosis: some new and different findings. Ultrasound quarterly, 2015. 31(1): p. 55-58.PubMedCrossRef

25.

Jung, G., et al., Abdominal lymphoma staging: is MR imaging with T2-weighted turbo-spin-echo sequence a diagnostic alternative to contrast-enhanced spiral CT? Journal of computer assisted tomography, 2000. 24(5): p. 783-787.PubMedCrossRef

26.

Puranik, A.D., et al., Segmental” misty mesentery” on FDG PET/CT: an uncommon manifestation of mesenteric lymphoma. Clinical nuclear medicine, 2014. 39(1): p. 84-86.PubMedCrossRef

27.

Yoder, A.K., et al., Hitting a Moving Target: Successful Management of Diffuse Large B-cell Lymphoma Involving the Mesentery With Volumetric Image-guided Intensity Modulated Radiation Therapy. Clinical Lymphoma Myeloma and Leukemia, 2019. 19(1): p. e51-e61.CrossRef

28.

Yasuda, A., et al., Primary mesenteric neuroendocrine tumor that changed its internal composition from cystic to solid: a case report. Clinical Journal of Gastroenterology, 2017. 10(1): p. 18-22.PubMedCrossRef

29.

Gonzalez, R.S., J.M.M. Cates, and C. Shi, Number, not size, of mesenteric tumor deposits affects prognosis of small intestinal well-differentiated neuroendocrine tumors. Modern Pathology, 2018. 31(10): p. 1560-1566.PubMedCrossRef

30.

Hellman, P., et al., Effect of surgery on the outcome of midgut carcinoid disease with lymph node and liver metastases. World journal of surgery, 2002. 26(8): p. 991-997.PubMedCrossRef

31.

Farley, H.A. and R.F. Pommier, Surgical Treatment of Small Bowel Neuroendocrine Tumors. Hematol Oncol Clin North Am, 2016. 30(1): p. 49-61.PubMedCrossRef

32.

Karahan, O.I., et al., Gastrointestinal carcinoid tumors in rare locations: imaging findings. Clinical imaging, 2006. 30(4): p. 278-282.PubMedCrossRef

33.

Mocellin, S. and D. Nitti, Gastrointestinal carcinoid: epidemiological and survival evidence from a large population-based study (n = 25 531). Ann Oncol, 2013. 24(12): p. 3040-4.PubMedCrossRef

34.

Blažević, A., et al., Small intestinal neuroendocrine tumours and fibrosis: an entangled conundrum. Endocrine-related cancer, 2018. 25(3): p. R115-R130.PubMedCrossRef

35.

Rodriguez Laval, V., et al., Mesenteric Fibrosis in Midgut Neuroendocrine Tumors: Functionality and Radiological Features. Neuroendocrinology, 2018. 106(2): p. 139-147.PubMedCrossRef

36.

Toumpanakis, C. and M.E. Caplin. Update on the role of somatostatin analogs for the treatment of patients with gastroenteropancreatic neuroendocrine tumors. in Seminars in oncology. 2013. Elsevier.

37.

Egger, M.E., et al., Transarterial Chemoembolization vs Radioembolization for Neuroendocrine Liver Metastases: A Multi-Institutional Analysis. Journal of the American College of Surgeons, 2020. 230(4): p. 363-370.PubMedCrossRef

38.

Ilhan, H., et al., Giant mesenteric lipoma. Journal of pediatric surgery, 1999. 34(4): p. 639-640.PubMedCrossRef

39.

Sato, M., et al., Mesenteric lipoma: report of a case with emphasis on US findings. European radiology, 2002. 12(4): p. 793-795.PubMedCrossRef

40.

Hamidi, H., et al., Childhood giant omental and mesenteric lipoma. Radiology case reports, 2016. 11(1): p. 41-44.PubMedPubMedCentralCrossRef

41.

Pereira, J.M., et al., CT and MR imaging of extrahepatic fatty masses of the abdomen and pelvis: techniques, diagnosis, differential diagnosis, and pitfalls. Radiographics, 2005. 25(1): p. 69-85.PubMedCrossRef

42.

Nagano, S., et al., Differentiation of lipoma and atypical lipomatous tumor by a scoring system: implication of increased vascularity on pathogenesis of liposarcoma. BMC musculoskeletal disorders, 2015. 16: p. 36-36.PubMedPubMedCentralCrossRef

43.

Knebel, C., et al., Differentiating atypical lipomatous tumors from lipomas with magnetic resonance imaging: a comparison with MDM2 gene amplification status. BMC Cancer, 2019. 19(1): p. 309.PubMedPubMedCentralCrossRef

44.

Setsu, N., et al., Primary retroperitoneal myxoid liposarcomas. The American journal of surgical pathology, 2016. 40(9): p. 1286.PubMedPubMedCentralCrossRef

45.

Weiss, S.W., J.R. Goldblum, and A.L. Folpe, Enzinger and Weiss’s soft tissue tumors. 2007: Elsevier Health Sciences.

46.

Baheti, A.D., et al., Myxoid soft-tissue neoplasms: comprehensive update of the taxonomy and MRI features. American Journal of Roentgenology, 2015. 204(2): p. 374-385.PubMedCrossRef

47.

Löwenthal, D., et al., Differentiation of myxoid liposarcoma by magnetic resonance imaging: a histopathologic correlation. Acta Radiologica, 2014. 55(8): p. 952-960.PubMedCrossRef

48.

Meloni, F., et al., Omental well-differentiated liposarcoma: US, CT and MR findings. International journal of biomedical science: IJBS, 2009. 5(3): p. 302.PubMedPubMedCentral

49.

Lunn, B.W., et al., 18 F-FDG PET/CT and MRI features of myxoid liposarcomas and intramuscular myxomas. Skeletal radiology, 2018. 47(12): p. 1641-1650.PubMedCrossRef

50.

National Cancer Institute. The Surveillance, Epidemiology, and End Results (SEER) Program of the National Cancer Institute. Cancer Stat Facts: Ovarian Cancer. Available from: https://seer.cancer.gov/statfacts/html/ovary.html.

51.

Heitz, F., et al., Pattern of and reason for postoperative residual disease in patients with advanced ovarian cancer following upfront radical debulking surgery. Gynecologic Oncology, 2016. 141(2): p. 264-270.PubMedCrossRef

52.

Kawamoto, S., B.A. Urban, and E.K. Fishman, CT of epithelial ovarian tumors. Radiographics, 1999. 19 Spec No: p. S85-102; quiz S263-4.

53.

Testa, A.C., et al., Ultrasound evaluation of intra-abdominal sites of disease to predict likelihood of suboptimal cytoreduction in advanced ovarian cancer: a prospective study. Ultrasound in Obstetrics & Gynecology, 2012. 39(1): p. 99-105.CrossRef

54.

Forstner, R., et al., Ovarian cancer: staging with CT and MR imaging. Radiology, 1995. 197(3): p. 619-26.PubMedCrossRef

55.

Kemppainen, J., et al., PET/CT for Evaluation of Ovarian Cancer. Semin Nucl Med, 2019. 49(6): p. 484-492.PubMedCrossRef

56.

Lerman, H., et al., Normal and abnormal 18F-FDG endometrial and ovarian uptake in pre-and postmenopausal patients: assessment by PET/CT. Journal of Nuclear Medicine, 2004. 45(2): p. 266-271.PubMed

57.

Hall, W.A., et al., Comparing central nervous system (CNS) and extra-CNS hemangiopericytomas in the Surveillance, Epidemiology, and End Results program: analysis of 655 patients and review of current literature. Cancer, 2012. 118(21): p. 5331-8.PubMedCrossRef

58.

Morris-Stiff, G., et al., Primary omental haemangiopericytoma. Case Reports, 2011. 2011: p. bcr0320114041.

59.

Crusco, F., et al., Benign omental hemangiopericytoma presenting with hemoperitoneum: radiologic findings. American Journal of Roentgenology, 2005. 184(3_supplement): p. S67-S69.

60.

Shanbhogue, A.K., et al., Somatic and visceral solitary fibrous tumors in the abdomen and pelvis: cross-sectional imaging spectrum. Radiographics, 2011. 31(2): p. 393-408.PubMedCrossRef

61.

Bertolotto, M., et al., Hemangiopericytoma of the greater omentum: US and CT appearance. European radiology, 1996. 6(4): p. 454-456.PubMedCrossRef

62.

Yilmaz, E., et al., Radiography, Doppler sonography, and MR angiography of malignant pulmonary hemangiopericytoma. American Journal of Roentgenology, 2003. 181(4): p. 1079-1081.PubMedCrossRef

63.

Pang, H., et al., Morphologic patterns and imaging features of intracranial hemangiopericytomas: a retrospective analysis. Onco Targets Ther, 2015. 8: p. 2169-78.PubMedPubMedCentral

64.

Spitz, F.R., et al., Hemangiopericytoma: a 20-year single-institution experience. Ann Surg Oncol, 1998. 5(4): p. 350-5.PubMedCrossRef

65.

Koşucu, P., et al., Mesenteric involvement in neurofibromatosis type 1: CT and MRI findings in two cases. Abdominal Imaging, 2003. 28(6): p. 822-826.PubMedCrossRef

66.

Ozcan, H.N., et al., Radiological manifestations of abdominopelvic nerve tumours seen in neurofibromatosis type 1. Clin Radiol, 2014. 69(4): p. 431-5.PubMedCrossRef

67.

Fortman, B.J., et al., Neurofibromatosis type 1: a diagnostic mimicker at CT. Radiographics, 2001. 21(3): p. 601-12.PubMedCrossRef

68.

Fukuya, T., C.C. Lu, and F.A. Mitros, CT findings of plexiform neurofibromatosis involving the ileum and its mesentery. Clinical imaging, 1994. 18(2): p. 142-145.PubMedCrossRef

69.

Fujisawa, T., et al., Intra-abdominal plexiform neurofibromatosis including periportal, mesentery, and gastrointestinal tract involvement in neurofibromatosis type 1: case report and review of the literature. Clinical Journal of Gastroenterology, 2011. 4(5): p. 292-297.PubMedCrossRef

70.

Matsuki, K., et al., Mesenteric plexiform neurofibroma associated with Recklinghausen’s disease. Pediatric radiology, 1997. 27(3): p. 255-256.PubMedCrossRef

71.

Khandwala, K., et al., Hepatic, Periportal, Retroperitoneal, and Mesenteric Neurofibromatosis in von Recklinghausen’s Disease. Cureus, 2018. 10(2): p. e2248-e2248.PubMedPubMedCentral

72.

Korf, B., Neurofibromatosis type 1 (NF1): Management and prognosis, in UpToDate, T. Post, Editor.: UpToDate, Waltham, MA. (Accessed on November 13, 2019).

73.

Sharma, P., et al., Sclerosing mesenteritis: a systematic review of 192 cases. Clinical Journal of Gastroenterology, 2017. 10(2): p. 103-111.PubMedCrossRef

74.

Apostolakis, S., et al., A systematic investigation of sclerosing mesenteritis through CT and MRI. Radiology case reports, 2016. 11(4): p. 299-302.PubMedPubMedCentralCrossRef

75.

Nyberg, L., et al., Sclerosing mesenteritis and mesenteric panniculitis - clinical experience and radiological features. BMC gastroenterology, 2017. 17(1): p. 75-75.PubMedPubMedCentralCrossRef

76.

Gomes, D.C. and L. Quaresma, Sclerosing mesenteritis: a benign cause of mesenteric mass lesions. The Pan African medical journal, 2017. 27: p. 228-228.PubMedPubMedCentralCrossRef

77.

Roson, N., et al., Sonographic findings of mesenteric panniculitis: correlation with CT and literature review. J Clin Ultrasound, 2006. 34(4): p. 169-76.PubMedCrossRef

78.

van Breda Vriesman, A., et al., Mesenteric panniculitis: US and CT features. European radiology, 2004. 14(12): p. 2242-2248.PubMedCrossRef

79.

Mindelzun, R.E., et al., The misty mesentery on CT: differential diagnosis. AJR Am J Roentgenol, 1996. 167(1): p. 61-5.PubMedCrossRef

80.

Kobayashi, S., et al., Mesenteric panniculitis: MR findings. Journal of computer assisted tomography, 1993. 17(3): p. 500-501.PubMedCrossRef

81.

Fujiyoshi, F., et al., Retractile mesenteritis: small-bowel radiography, CT, and MR imaging. AJR. American journal of roentgenology, 1997. 169(3): p. 791-793.PubMedCrossRef

82.

Akram, S., et al., Sclerosing mesenteritis: clinical features, treatment, and outcome in ninety-two patients. Clinical Gastroenterology and Hepatology, 2007. 5(5): p. 589-596.PubMedCrossRef

83.

Kumar, P., et al., Demystifying the mesenteric root lesions. Abdom Radiol (NY), 2019. 44(8): p. 2708-2720.CrossRef

84.

Chaudhary, P., Mesenteric inflammatory myofibroblastic tumors. Annals of Gastroenterology: Quarterly Publication of the Hellenic Society of Gastroenterology, 2015. 28(1): p. 49.

85.

Levy, A.D., et al., Benign Fibrous Tumors and Tumorlike Lesions of the Mesentery: Radiologic-Pathologic Correlation. RadioGraphics, 2006. 26(1): p. 245-264.PubMedCrossRef

86.

Qian, J., K. Zhu, and J. Ye, Ultrasonic Manifestations of Mesenteric Inflammatory Myofibroblastic Tumors in Children. Frontiers in Pediatrics, 2019. 7(39).

87.

Chung, E.M., et al., Solid tumors of the peritoneum, omentum, and mesentery in children: radiologic-pathologic correlation: from the radiologic pathology archives. Radiographics, 2015. 35(2): p. 521-46.PubMedCrossRef

88.

Lv, A., et al., Castleman disease of the mesentery as the great mimic: incidental finding of one case and the literature review. Bioscience trends, 2015. 9(3): p. 198-202.PubMedCrossRef

89.

Pickhardt, P.J. and S. Bhalla, Unusual nonneoplastic peritoneal and subperitoneal conditions: CT findings. Radiographics, 2005. 25(3): p. 719-730.PubMedCrossRef

90.

Herrada, J., et al., The clinical behavior of localized and multicentric Castleman disease. Ann Intern Med, 1998. 128(8): p. 657-62.PubMedCrossRef

91.

Kwan, E., H. Lau, and W.-K. Yuen, Laparoscopic resection of a mesenteric cyst. Gastrointestinal Endoscopy, 2004. 59(1): p. 154-156.PubMedCrossRef

92.

Rattan, K.N., et al., Pediatric chylolymphatic mesenteric cyst-a separate entity from cystic lymphangioma: a case series. Journal of medical case reports, 2009. 3(1): p. 111.PubMedPubMedCentralCrossRef

93.

de Perrot, M., et al., Mesenteric cysts. Digestive surgery, 2000. 17(4): p. 323-328.PubMedCrossRef

94.

Levy, A.D., V. Cantisani, and M. Miettinen, Abdominal lymphangiomas: imaging features with pathologic correlation. American Journal of Roentgenology, 2004. 182(6): p. 1485-1491.PubMedCrossRef

95.

Paramythiotis, D., et al., Ideal treatment strategy for chylous mesenteric cyst: a case report. Journal of medical case reports, 2018. 12(1): p. 317.PubMedPubMedCentralCrossRef

96.

Falidas, E., et al., Traumatic mesenteric cyst after blunt abdominal trauma. International journal of surgery case reports, 2011. 2(6): p. 159-162.PubMedPubMedCentralCrossRef

97.

Wicks, J., T. Silver, and R. Bree, Giant cystic abdominal masses in children and adolescents: ultrasonic differential diagnosis. American Journal of Roentgenology, 1978. 130(5): p. 853-857.PubMedCrossRef

98.

Alemanno, G., et al., A multidisciplinary approach to desmoid tumors. When intra-abdominal fibromatosis degenerates into an abscess, which is the right treatment? International journal of surgery case reports, 2013. 4(9): p. 757-760.PubMedPubMedCentralCrossRef

99.

Mohar, S.M., et al., Small bowel obstruction due to mesenteric abscess caused by Mycobacterium avium complex in an HIV patient: a case report and literature review. Journal of Surgical Case Reports, 2017. 2017(7).

100.

Sakurai, Y., et al., Abdominal Wall Abscess Associated with Perforated Jejunal Diverticulitis: Report of a Case. Surgery Today, 2005. 35(8): p. 682-686.PubMedCrossRef

101.

Watanabe, K., et al., Mesenteric lymph node abscess due to Yersinia enterocolitica: case report and review of the literature. Clinical Journal of Gastroenterology, 2014. 7(1): p. 41-47.PubMedCrossRef

102.

Su, C.H., J.Y. Lee, and Y.T. Chang, Perforation of Meckel’s Diverticulum by a Peanut Presenting as a Mesentery Abscess. Iran J Pediatr, 2013. 23(2): p. 223-5.PubMedPubMedCentral

103.

Silverman, P.M., et al., Computed tomography of mesenteric disease. Radiographics, 1987. 7(2): p. 309-20.PubMedCrossRef

104.

Goldberg, H.I., et al., Computed tomography in the evaluation of Crohn disease. American Journal of Roentgenology, 1983. 140(2): p. 277-282.PubMedCrossRef

105.

Lebrec, D., Ectopic varices in portal hypertension. Clin Gastroenterol, 1985. 14: p. 105-121.PubMed

106.

Cho, K.C., et al., Varices in portal hypertension: evaluation with CT. RadioGraphics, 1995. 15(3): p. 609-622.PubMedCrossRef

107.

Hauenstein, K. and Y. Li, Radiological diagnosis of portal/mesenteric vein occlusion. Visceral Medicine, 2014. 30(6): p. 382-387.CrossRef

108.

Ikeda, O., et al., Successful treatment of mesenteric varices by retrograde transvenous obliteration by the delivery of N-butyl-2-cyanoacrylate via an abdominal wall vein. Cardiovascular and interventional radiology, 2014. 37(2): p. 533-536.PubMedCrossRef

109.

Bhosale, P., et al., Extramedullary hematopoiesis mimicking hepatocellular carcinoma. Applied Radiology, 2010. 39(11): p. 59.

110.

Tzankov, A., et al., Idiopathic myelofibrosis with nodal, serosal and parenchymatous infiltration. Acta haematologica, 2002. 107(3): p. 173-176.PubMedCrossRef

111.

Holden, C., O. Hennessy, and W.K. Lee, Diffuse mesenteric extramedullary hematopoiesis with ascites: sonography, CT, and MRI findings. AJR Am J Roentgenol, 2006. 186(2): p. 507-9.PubMedCrossRef

112.

Gupta, P., et al., Focal intrahepatic extramedullary hematopoiesis presenting as fatty lesions. American Journal of Roentgenology, 2004. 182(4): p. 1031-1032.PubMedCrossRef

113.

Chourmouzi, D., et al., MRI findings of extramedullary haemopoiesis. European radiology, 2001. 11(9): p. 1803-1806.PubMedCrossRef

114.

Lioté, F., et al., Ascites revealing peritoneal and hepatic extramedullary hematopoiesis with peliosis in agnogenic myeloid metaplasia: case report and review of the literature. The American journal of medicine, 1991. 90(1): p. 111-117.PubMedCrossRef

115.

Stahl, R.L., L. Hoppstein, and T.G. Davidson, Intraperitoneal chemotherapy with cytosine arabinoside in agnogenic myelofibrosis with myeloid metaplasia and ascites due to peritoneal extramedullary hematopoiesis. American journal of hematology, 1993. 43(2): p. 156-157.PubMedCrossRef

116.

Elliott, M.A., et al., Thalidomide treatment in myelofibrosis with myeloid metaplasia. British journal of haematology, 2002. 117(2): p. 288-296.PubMedCrossRef

117.

Carr, S.R., R.C. Dinsmore, and N.W. Wilkinson, Idiopathic spontaneous intraperitoneal hemorrhage: a clinical update on abdominal apoplexy in the year 2001. Am Surg, 2001. 67(4): p. 374-6.PubMed

118.

De, P.B., et al. Mesenteric hematoma: unusual complication of a long term oral anticoagulation therapy. in Annales de chirurgie. 2006.

119.

Skudder, P.A. and W.L. Craver, Mesenteric hematoma suggests rupture of visceral artery aneurysm. Archives of Surgery, 1984. 119(7): p. 863-863.PubMedCrossRef

120.

Chao, H.C. and M.S. Kong, Sonographic diagnosis of mesenteric hematoma. J Clin Ultrasound, 1999. 27(5): p. 284-6.PubMedCrossRef

Title: Imaging spectrum of mesenteric masses
Authors: Radwan Diab
Mayur Virarkar
Mohammed Saleh
Sherif Elsheif
Sanaz Javadi
Priya Bhosale
Silvana Faria
Publication date: 01-11-2020
Publisher: Springer US
Keywords: Magnetic Resonance Imaging
Magnetic Resonance Imaging
Carcinoid Tumor
Castleman Disease
Lipoma
Lipoma
Published in: Abdominal Radiology / Issue 11/2020
Print ISSN: 2366-004X
Electronic ISSN: 2366-0058
DOI: https://doi.org/10.1007/s00261-020-02535-1

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