Zusammenfassung
Die MRT hatte zu Beginn ihrer Entwicklung in der abdominellen Diagnostik durch die vielfältigen Bewegungsartefakte Probleme mit Bildqualität und diagnostischer Aussagekraft (Abb. 6.1). Zwischenzeitlich hat sich die MRT durch zahlreiche Verbesserungen zu einer robusten Methode für Untersuchungen des Abdomens entwickelt. Diese Entwicklungen betreffen zum einen technische Aspekte, wie z. B. dem Trend von 0,5 T Magnetfeldstärke zu Systemen mit 1,0 T oder 1,5 T, leistungsfähigere Gradientensysteme, oder die breitere Verfügbarkeit der „Körper-Phased-Array-Spule“. Hierdurch werden Schnellbildverfahren bei gleichzeitig guter bis exzellenter Bildqualität möglich.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Literatur
Arrive L, Flejou JF, Vilgrain V et al. (1994) Hepatic adenoma: MR findings in 51 pathologically proved lesions. Radiology 193: 507–512
Ba-Ssalamah A et al. (2000) Detection of focal hepatic lesions: comparison of unenhanced and SHU 555 A-enhanced MR imaging versus biphasic helical CTAP. J Magn Reson Imaging 11: 665–672
Bartolozzi C, Donati F, Cioni D, Crocetti L, Lencioni R (2000) MnDPDP-enhanced MRI vs dual-phase spiral CT in the detection of hepatocellular carcinoma in cirrhosis. Eur Radiol 10: 1697–1702
Bluemke DA, Paulson EK, Choti MA, DeSena S, Clavien PA (2000) Detection of hepatic lesions in candidates for surgery: comparison of ferumoxides-enhanced MR imaging and dual-phase helical CT. Am J Roentgenol 175: 1653–1658
Bundesärztekammer (2000) Leitlinien der Bundesärztekammer zur Qualitätssicherung der Magnet-Resonanz-Tomographie. Deutsch Ärztebl 97: 2557–2568
Catasca JV (1994) T2-weighted MR imaging of the abdomen: fast spin-echo vs conventional spin-echo sequences. Am J Roentgenol 162: 61–67
Coffin CM, Diche T, Mahfouz A et al. (1999) Benign and malignant hepatocellular tumors: evaluation of tumoral enhancement after mangafodipir trisodium injection on MR imaging. Eur Radiol 9: 444–449
Diehl SJ, Lehmann KJ, Gaa J, McGill S, Hoffmann V, Georgi M (1999) MR imaging of pancreatic lesions. Comparison of manganese-DPDP and gadolinium chelate. Invest Radiol 34: 589–595
Elizondo G et al. (1990) Hepatic cirrhosis and hepatitis: MR imaging enhanced with superparamagnetic iron oxide. Radiology 174: 797–801
Engelhardt R, Langkowski JH, Fischer R, Nielsen P, Kooijman H, Heinrich HC, Bucheler E (1994) Liver iron quantification: studies in aqueous iron solutions, iron overloaded rats, and patients with hereditary hemochromatosis. Magn Reson Imaging 12: 999–1007
Fink, Grenacher CL, Hansmann H J, Dux M, Leipold R, Spielhaupter E, Kauffmann GW, Richter GM (2001) Prospective study to compare high-resolution computed tomography and magnetic resonance imaging in the detection of pancreatic neoplasms: use of intravenous and oral MR contrast media. Röfo Fortschr Geb Röntgenstr Neuen Bild-geb Verfahr 173: 724–730
Gaa J, Hatabu H, Jenkins RL, Finn JP, Edelman RR (1996) Liver masses: replacement of conventional T2-weighted spin-echo MR imaging with breath-hold MR imaging. Radiology 200: 459–464
Gandon Y, Guyader D, Heautot JF et al. (1994) Hemochromatosis: diagnosis and quantification of liver iron with gradient-echo MR imaging. Radiology 193: 533–538
Grimm J, Müller-Hülsbeck S, Blume J, Biederer J, Heller M (2001) Comparison of biphasic spiral CT and MnDPDP-enhanced MRI in the detection and characterization of liver lesions. Röfo Fortschr Geb Röntgenstr Neuen Bildgeb Verfahr 173: 266–272
Guibaud L, Bret PM, Reinhold C, Atri M, Barkun AN (1994) Diagnosis of choledocholithiasis: value of MR cholangiography. Am J Roentgenol 163: 847–850
Hagspiel KD, Neidl KF, Eichenberger AC, Weder W, Marincek B (1995) Detection of liver metastases: comparison of superparamagnetic iron oxide-enhanced and unenhanced MR imaging at 1.5 T with dynamic CT, intraoperative US, and percutaneous US. Radiology 196: 471–478
Hamm B, Mahfouz AE, Taupitz M et al. (1997) Liver metastases: improved detection with dynamic gadolinium-enhanced MR imaging? Radiology 202: 677–682
Hamm B, Thoeni RF, Gould RG et al. (1994) Focal liver lesions: characterization with nonenhanced and dynamic contrast material-enhanced MR imaging. Radiology 190: 417–423
Hamm B, Vogl TJ, Branding G et al. (1992) Focal liver lesions: MR imaging with Mn-DPDP-initial clinical results in 40 patients [see comments]. Radiology 182: 167–174
Helmberger T, Holzknecht N, Lackerbauer CA et al. (1995) Phased-array superficial coil and breath holding technique in MRI of the liver. Comparison of conventional spin echo sequences with rapid fat suppressing gradient echo and turbo-spin sequences. Radiologe 35: 919–924
Hori M, Murakami T, Oi H et al. (1998) Sensitivity in detection of hypervascular hepatocellular carcinoma by helical CT with intra-arterial injection of contrast medium, and by helical CT and MR imaging with intravenous injection of contrast medium. Acta-Radiol 39: 144–151
Ichikawa T, Nitatori T, Hachiya J, Mizutani Y (1996) Breath-held MR cholangiopancreatography with half-averaged single shot hybrid rapid acquisition with relaxation enhancement sequence: comparison of fast GRE and SE sequences. J Comput Assist Tomogr 20: 798–802
Itoh H, Sakai T, Takahashi N et al. (1992) Periportal high intensity on T2-weighted MR images in acute viral hepatitis. J Comput Assist Tomogr 16: 564–567
Karhunen PJ (1986) Benign hepatic tumours and tumour like conditions in men. J Clin Pathol 39: 183–188
Kim T, Murakami T, Oi H et al. (1995) Detection of hypervascular hepatocellular carcinoma by dynamic MRI and dynamic spiral CT. J Comput Assist Tomogr 19: 948–954
Kim T, Murakami T, Takamura M et al. (2001) Pancreatic mass due to chronic pancreatitis: correlation of CT and MR imaging features with pathologic findings. Am J Roentgenol 177: 367–371
Kreitner KF, Thelen M, Schild H, Heintz A, Störkel S (1987) Epidemiologische und klinische Aspekte der fokal-nodulären Hyperplasie der Leber. Dtsch Med Wochenschr 112: 891–896
Kröncke TJ, Taupitz M, Kivelitz D et al. (2000) Multifocal nodular fatty infiltration of the liver mimicking metastatic disease on CT: imaging findings and diagnosis using MR imaging. Eur Radiol 10: 1095–1100
Laubenberger J, Buchert M, Schneider B, Blum U, Hennig J, Langer M (1995) Breath-hold projection magnetic resonance-cholangio-pancreaticography (MRCP): a new method for the examination of the bile and pancreatic ducts. Magn Reson Med 33: 18–23
Lencioni R, Donati F, Cioni D, Paolicchi A, Cicorelli A, Bartolozzi C (1998) Detection of colorectal liver metastases: prospective comparison of unenhanced and ferumoxides-enhanced magnetic resonance imaging at 1.5 T, dual-phase spiral CT, and spiral CT during arterial portography. Magma 7: 76–87
Leslie DF, Johnson CD, MacCarty RL, Ward EM, Ilstrup DM, Harmsen WS (1995) Single-pass CT of hepatic tumors: value of globular enhancement in distinguishing hemangiomas from hypervascular metastases. Am J Roentgenol 165: 1403–1406
Loflin TG, Simeone JF, Müller PR et al. (1985) Gallbladder bile in cholecystitis: in vitro MR evaluation. Radiology 157: 457–459
Low RN, Francis IR, Sigeti JS, Foo TK (1993) Abdominal MR imaging: comparison of T2-weighted fast and conventional spin-echo, and contrast-enhanced fast multiplanar spoiled gradient-recalled imaging. Radiology 186: 803–811
Luboldt W, Bauerfeind P, Steiner P, Fried M, Krestin GP, Debatin JF (1997) Preliminary assessment of three-dimensional magnetic resonance imaging for various colonic disorders. Lancet 349: 1288–1291
Mahfouz AE, Hamm B, Wolf KJ (1994) Peripheral washout: a sign of malignancy on dynamic gadolinium-enhanced MR images of focal liver lesions. Radiology 190: 49–52
Mathieu D, Coffin C, Kobeiter H et al. (1999) Unexpected MR-T1 enhancement of endocrine liver metastases with mangafodipir. J Magn Reson Imaging 10: 193–195
Matsui O, Kadoya M, Takashima T, Kameyama T, Yoshikawa J, Tamura S (1989) Intrahepatic periportal abnormal intensity on MR images: an indication of various hepatobiliary diseases. Radiology 171: 335–338
McFarland EG, Mayo Smith WW et al. (1994) Hepatic hemangiomas and malignant tumors: improved differentiation with heavily T2-weighted conventional spin-echo MR imaging. Radiology 193: 43–47
Minami M, Itai Y, Ohtomo K et al. (1989) Siderotic nodules in the spleen: MR imaging of portal hypertension. Radiology 172: 681–684
Misri H, Pöckler-Schöniger C, Gaa J, Georgi M, Sturm J, Ihle V (1998) Ultrafast contrast-enhanced 3D MR angiography in the preoperative diagnosis of liver tumors. Röfo Fortschr Geb Röntgenstr Neuen Bildgeb Verfahr 169: 278–283
Mitchell DG (1992) Chemical shift magnetic resonance imaging: applications in the abdomen and pelvis. Top Magn Reson Imaging 4: 46–63
Mitchell DG, Rubin R, Siegelman ES, Burk DL Jr, Rifkin MD (1991) Hepatocellular carcinoma within siderotic regenerative nodules: appearance as a nodule within a nodule on MR images. Radiology 178: 101–103
Miyazaki T, Yamashita Y et al. (1996) MR cholangiopancreatography using HASTE (half-Fourier acquisition single-shot turbo spin-echo) sequences. Am J Roentgenol 166: 1297–1303
Morimoto K, Shimoi M, Shirakawa T, Aoki Y, Choi S, Miyata Y, Hara K (1992) Biliary obstruction: evaluation with three-dimensional MR cholangiography. Radiology 183: 578–580
Müller M, Reimer P, Wiedermann D et al. (1998) Tl-weighted dynamic MRI with new superparamagnetic iron oxide particles (Resovist): results of a phantom study as well as 25 patients. Röfo Fortschr Geb Röntgenstr Neuen Bildgeb Verfahr 168: 228–236
Müller RD, Vogel K, Neumann K et al. (1999) SPIO-MR imaging versus double-phase spiral CT in detecting malignant lesions of the liver. Acta Radiol 40: 628–635
Murakami T, Kim T, Oi H et al. (1995) Detectability of hypervascular hepatocellular carcinoma by arterial phase images of MR and spiral CT. Acta Radiol 36: 372–376
Ni Y, Marchai G, Yu J, Rummeny E, Zhang X, Lodemann KP, Baert AL (1993) Experimental liver cancers: Mn-DPDP-enhanced rims in MR-microangio-graphic-histologic correlation study [see comments]. Radiology 188: 45–51
Outwater EK, Blasbalg R, Siegelman ES, Vala M (1998) Detection of lipid in abdominal tissues with opposed-phase gradient-echo images at 1.5 T: techniques and diagnostic importance. Radiographics 18: 1465–1480
Papanikolaou N, Karantanas AH, Heracleous E, Costa JC, Gourtsoyiannis N (1999) Magnetic resonance cholangiopancreatography: comparison between respiratory-triggered turbo spin echo and breath hold single-shot turbo spin echo sequences. Magn Reson Imaging 17: 1255–1260
Petersein J, Reisinger W, Mutze S, Hamm B (2000) Value of negative oral contrast media in MR cholangiopancreatography (MECP). Röfo Fortschr Geb Röntgenstr Neuen Bildgeb Verfahr 172: 55–60
Pirovano G, Vanzulli A, Marti-Bonmati L et al. (2000) Evaluation of the accuracy of gadobenate dimeglumine-enhanced MR imaging in the detection and characterization of focal liver lesions. Am J Roentgenol 175: 1111–1120
Rees M, Plant G, Bygrave S (1997) Late results justify resection for multiple hepatic metastases from colorectal cancer. Br J Surg 84: 1136–1140
Reimer P, Rummeny EJ, Shamsi K et al. (1996) Phase II clinical evaluation of Gd-EOB-DTPA: dose, safety aspects, and pulse sequence. Radiology 199: 177–183
Rode A, Bancel B, Douek P et al. (2001) Small nodule detection in cirrhotic livers: evaluation with US, spiral CT, and MRI and correlation with pathologic examination of explanted liver. J Comput Assist Tomogr 25: 327–336
Rofsky NM, Lee VS, Laub G et al. (1999) Abdominal MR imaging with a volumetric interpolated breath-hold examination. Radiology 212: 876–884
Rofsky NM, Weinreb JC, Ambrosino MM, Safir J, Krinsky G (1996) Comparison between in-phase and opposed-phase T1-weighted breath-hold FLASH sequences for hepatic imaging. J Comput Assist Tomogr 20: 230–235
Said B, McCart JA, Libutti SK, Choyke PL (2000) Ferumoxide-enhanced MRI in patients with colorectal cancer and rising CEA: surgical correlation in early recurrence. Magn Reson Imaging 18: 305–309
Saini S, Edelman RR, Li W, Petersein J, Hahn PF (1996) Clinical evaluation of ultrasmall superparamagnetic iron oxide particles for liver imaging. Acad Radiol 3: 409–412
Saini S, Edelman RR, Sharma P et al. (1995) Blood-pool MR contrast material for detection and characterization of focal hepatic lesions: initial clinical experience with ultrasmall superparamagnetic iron oxide (AMI-227). Am J Roentgenol 164: 1147–1152
Saini S, Stark DD, Hahn PF et al. (1987) Ferrite particles: a superparamagnetic MR contrast agent for enhanced detection of liver carcinoma. Radiology 162: 217–222
Semelka RC, Martin DR, Balci C, Lance T (2001) Focal liver lesions: comparison of dual-phase CT and multisequence multiplanar MR imaging including dynamic gadolinium enhancement. J Magn Reson Imaging 13: 397–401
Shellonk GF (1997) Pocket Guide to MR Procedures and Metallic Objects: Update 1997. Lippincott-Raven, Philadelphia
Stark DD, Weissleder R, Elizondo G et al. (1988) Superparamagnetic iron oxide: clinical application as a contrast agent for MR imaging of the liver. Radiology 168: 297–301
Tanimoto A, Kreft BP, Baba Y, Zhao L, Finn JP, Compton CC, Stark DD (1993) Evaluation of hepa-tocyte-specific paramagnetic contrast media for MR imaging of hepatitis. J Magn Reson Imaging 3: 786–793
Vogl TJ, Kummel S, Hammerstingl R et al. (1996) Liver tumors: comparison of MR imaging with Gd-EOB-DTPA and Gd-DTPA. Radiology 200: 59–67
Vogl TJ, Stupavsky A, Pegios W et al. (1997) Hepatocellular carcinoma: evaluation with dynamic and static gadobenate dimeglumine-enhanced MR imaging and histopathologic correlation. Radiology 205: 721–728
Wallner BK, Schumacher KA, Weidenmaier W, Friedrich JM (1991) Dilated biliary tract: evaluation with MR cholangiography with a T2-weighted contrast-enhanced fast sequence. Radiology 181: 805–808
Wang C, Ahlstrom H, Eriksson B, Lonnemark M, McGill S, Hemmingsson A (1998) Uptake of manga-fodipir trisodium in liver metastases from endocrine tumors. J Magn Reson Imaging 8: 682–686
Weiger M, Prüssmann KP, Kassner A et al. (2000) Contrast-enhanced 3D MRA using SENSE. J Magn Reson Imaging 12: 671–677
Weissleder R, Elizondo G, Stark DD et al. (1989) The diagnosis of splenic lymphoma by MR imaging: value of superparamagnetic iron oxide. Am J Roentgenol 152: 175–180
Whitney WS, Herfkens RJ, Jeffrey RB et al. (1993) Dynamic breath-hold multiplanar spoiled gradient-recalled MR imaging with gadolinium enhancement for differentiating hepatic hemangiomas from malignancies at 1.5 T. Radiology 189: 863–870
Yamashita Y, Hatanaka Y, Yamamoto H et al. (1994) Differential diagnosis of focal liver lesions: role of spin-echo and contrast-enhanced dynamic MR imaging. Radiology 193: 59–65
Yankelevitz DF, Knapp PH, Henschke CI, Nisce L, Yi Y, Cahill P (1992) MR appearance of radiation hepatitis. Clin Imag 16: 89–92
Baumgartner BR, Dickey KW, Ambrose SS, Walton KN, Nelson RC, Bernardino ME (1987) Kidney changes after extracorporal shock wave lithotripsy: appearance on MR imaging. Radiology 163: 531–534
Bosniak MA, Birnbaum BA, Krinsky GA, Waisman J (1995) Small renal parenchymal neoplasms: further observations on growth. Radiology 197: 589–597
Bosniak MA (1997) The use of the Bosniak classification system for renal cysts and cystic tumors. J Urol 157: 1852–1853
Chang A, Glazer HS, Lee JKT, Ling D, Heiken JP (1987) Adrenal gland: MR imaging. Radiology 163: 123–128
Claussen C, Kornmesser W, Laniado M, Kaminsky S, Hamm B, Felix R (1988) Orale Kontrastmittel für die magnetische Resonanztomographie des Abdomens. Teil III: Erste Patientenuntersuchungen mit Gadolinium-DTPA. RÖFO 148: 683–689
Demas BE, Fisher MR (1988) Renal masses. In: Eisenberg RL (ed) Diagnostic imaging. An algorthmic approach. Lippincott, Philadelphia, pp 330–336
Dietrich RB, Kangarloo H, Lenarsky C, Feig SA (1987) Neuroblastoma: the role of MR imaging. AJR 148: 937–942
Engelken JD, Ros PR (1997) Retroperitoneal MR imaging. Magn Reson Imaging Clin N Am 5: 165–178
Fein AB, Lee JKT, Balfe DM, Heiken JP, Ling D, Glazer HS, McClennan BLK (1987) Diagnosis and staging of renal cell carcinoma: a comparison of MR imaging and CT. AJR 148: 749–753
Fisher MR, Demas BE, Vogelzang RL (1988) Abdominal aortic aneurysma. In: Eisenberg RL (ed) Diagnostic imaging. An algorithmic approach. Lippincott, Philadelphia, pp 279–292
Glazer HS, Lee HKT, Levitt RG et al. (1985) Radiation fibrosis: differentiation from recurrent tumor by MR imaging. Radiology 156: 721–726
Greco A, Jelliffe AM, Maher EJ, Leung AWL (1988) MR imaging of lymphomas: impact on therapy. J Comput Assist Tomogr 12: 785–791
Hahn PF, Saini S, Stark DD, Papanicolou N, Ferrucci JT (1987) Intraabdominal hematoma: the concentric-ring sign in MR imaging. AJR 148: 115–119
Hennig J, Nauerth A, Friedburg H, Ratzel D (1984) Ein neues Schnellbildverfahren für die Kernspintomographie. Radiologe 24:579–580
Hilpert PJ, Friedman AC, Radecki PD et al. (1986) MRI of hemorrhagic cysts in polycystic kidney disease. AJR 146: 1167–1172
Hricak H, Terrier F, Demas BE (1986) Renal allografts: evaluation by MR imaging. Radiology 159: 435–444
Kier R, McCarthy S (1989) MR characterization of adrenal masses: field strength and pulse sequence considerations. Radiology 171: 671–674
Krebs TL, Wagner BJ (1998) MR imaging of the adrenal gland: radiologic-pathologic correlation. Radiographics 18: 1425–1440
Krestin G, Steinbrich W, Friedmann G (1989) Value of fast gradient echo MR imaging and contrast-enhanced dynamic studies for the differentiation of adrenal masses. Radiology 171: 675–680
Laniado M, Kornmesser W, Claussen C (1987) Gadolinium-DTPA in magnetic resonance imaging of renal tumors. In: Felix R, Fischer HW, Kormano M et al. (eds) Contrast media from the past to the future. Thieme, Stuttgart, pp 223–246
Lee JKT, Glazer HS (1986) Psoas muscle disorder: MR imaging. Radiology 160: 683–687
Liming M (1990) Dynamische MRT mit Gd-DTPA bei Nierentransplantaten. Kontrastmittel in der MRT, 1.–3.2.1990, Berlin
Lüning M, Felix R (1989) Komplexe bildgebende Diagnostik — Abdomen. Thieme, Leipzig
Lupetin AR (1986) Magnetic resonance appearance of the kidneys in paroxysmal nocturnal hemoglobinuria. Urol Radiol 8: 101–103
Marotti M, Hricak H, Fritzsche P, Crooks LE, Hedgcock MW, Tanagho EA (1986) Complex and simple renal cysts: comparative evaluation with MR imaging. Radiology 162: 679–684
McClennan BL, Rabin DN (1989) Kidney. In: Lee JKT, Sagel SS, Stanley RJ (eds) Computed body tomography with MRI correlation. Raven, New York, pp 755–826
Meyer JS (1996) Retroperitoneal MR imaging in children. Magn Reson Imaging Clin N Am 4: 657–678
Norten JA, Doppman JL, Jensen RT (1990) Cancer of the endocrine systems. In: DeVita VT, Hellman S, Rosenberg SA (eds) Cancer. Principles and particle of oncology. Lippincott, Grand Rapids, pp 1292
Prince MR (1998) Renal MR angiography: a comprehensive approach. J Magn Reson Imaging 8: 511–516
Reinig JW, Doppman JL, Dwyer AJ, Frank J (1986) MRI of indeterminate adrenal masses. AJR 147: 493–496
Rofsky NM, Bosniak MA (1997) MR imaging in the evaluation of small (<or = 3.0cm) renal masses. Magn Reson Imaging Clin N Am 5: 67–81
Taupitz M, Wagner S, Hamm B (1996) Contrast media for magnetic resonance tomographic lymph node diagnosis (MR lymphography). Radiologe 36: 134–140
Winsett MZ, Amparo EG, Fawcett HD, Kumar R, Johnson RF, Bedi DG, Winsett OE (1988) Renal transplant dysfunction. AJR 150: 319–323
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2002 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Taupitz, M., Hamm, B., Laniado, M., Müller-Schimpfle, M. (2002). Abdomen und Retroperitoneum. In: Reiser, M., Semmler, W. (eds) Magnetresonanztomographie. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-56044-6_6
Download citation
DOI: https://doi.org/10.1007/978-3-642-56044-6_6
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-63076-7
Online ISBN: 978-3-642-56044-6
eBook Packages: Springer Book Archive