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Allison JW, James CA, Arnold GL, Stine KC, Becton DL, Bell JM (1998) Reconversion of bone marrow in Gaucher disease treated with enzyme therapy documented by MR. Pediatr Radiol 28:237–240
Antoch G, Vogt FM, Freudenberg LS, Nazaradeh F, Goehde SC, Barkhausen J, Dahmen G, Bockisch A, Debatin JF, Ruehm SG (2003) Whole-body dual-modality PET/CT and whole-body MRI for tumor staging in oncology. JAMA 290:3199–3206
Avrahami E, Tadmor R, Dally O, Hadar H (1989) Early MR demonstration of spinal metastases in patients with normal radiographs and CT and radionuclide bone scans. J Comput Assist Tomogr 13:598–602
Baker LL, Goodman SB, Perkash I, Lane B, Enzmann DR (1990) Benign versus pathologic compression fractures of vertebral bodies: Assessment with conventional spin-echo, chemical shift, and STIR MR imaging. Radiology 174:495–502
Bartl R, Frisch B, Diem H et al (1991) Histologic, biochemical, and clinical parameters for monitoring multiple myeloma. Cancer 68:2241–2250
Baur A, Bartl R, Pellengahr C, Baltin V, Reiser M (2004) Neovascularization of bone marrow in patients with diffuse multiple myeloma: a correlative study of magnetic resonance imaging and histopathologic findings. Cancer 101:2599–2604
Baur A, Stabler A, Arbogast S, Duerr HR, Bartl R, Reiser M (2002) Acute osteoporotic and neoplastic vertebral compression fractures: fluid sign at MR imaging. Radiology 225:730–735
Baur A, Stäbler A, Brüning R, Bartl R, Krödel A, Reiser M, Deimling M (1998) Diffusion-weighted MR imaging of bone marrow: differentiation of benign versus pathologic compression fractures. Radiology 207:349–356
Caldemeyer KS, Smith RR, Harris A et al (1996) Hematopoietic bone marrow hyperplasia: correlation of spinal MR findings, hematologic parameters, and bone mineral density in endurance athletes. Radiology 198:503–508
Cuenod CA, Laredo JD, Chevret S, Hamze B, Naouri JF, Chapaux X, Bondeville JM, Tubiana JM (1996) Acute vertebral collapse due to osteoporosis or malignancy: appearance on unenhanced and gadolinium-enhanced MR images. Radiology 199:541–519
Daffner RH, Lupetin AR, Dash N, Deeb ZL, Sefczek RJ, Schapiro RL (1986) MRI in the detection of malignant infiltration of bone marrow. AJR Am J Roentgenol 146:353–358
Daldrup HE, Link TM, Blasius S et al (1999) Monitoring radiation-induced changes in bone marrow histopathology with ultrasmall superparamagnetic iron oxide (USPIO)-enhanced MRI. J Magn Reson Imaging 9:643–652
Daldrup-Link HE, Rummeny EJ, Ihssen B, Kienast J, Link TM (2002) Iron-oxide-enhanced MR imaging of bone marrow in patients with non-Hodgkin’s lymphoma: differentiation between tumor infiltration and hypercellular bone marrow. Eur Radiol 12:1557–1566
Deely DM, Schweitzer ME (1997) MR imaging of bone marrow disorders. Radiol Clin North Am 35:193–212
Dunnill MS, Anderson JA, Whitehead R (1967) Quantitative histological studies on age changes in bone. J Path Bact 94:275–291
Durie BGM, Salmon SE (1975) A clinical staging system for multiple myeloma. Correlation of measured myeloma cell mass with presenting clinical features, response to treatment, and survival. Cancer 36:842–854
Engelhard K, Hollenbach HP, Wohlfart K, von Imhoff E, Fellner FA (2004) Comparison of whole-body MRI with automatic moving table technique and bone scintigraphy for screening for bone metastases in patients with breast cancer. Eur Radiol 14:99–105
Frager D, Elkin C, Swerdlow M, Bloch S (1988) Subacute osteoporotic compression fracture: misleading magnetic resonance appearance. Skeletal Radiol 17:123–126
Fletcher BD, Wall JE, Hanna SL (1993) Effect of hematopoietic growth factors on MR images of bone marrow in children undergoing chemotherapy. Radiology 189:745–751
Ghanem N, Kelly T, Altehoefer C, Winterer J, Schafer O, Bley TA, Moser E, Langer M (2004) Ganzkö rper-MRT vs. Skelettszintigraphie bei der Detektion ossärer Metastasen solider Tumoren. Radiologe 44:864–873
Hundt W, Petsch R, Helmberger T, Reiser M (2000) Effect of superparamagnetic iron oxide on bone marrow. Eur Radiol 10:1495–1500
Kattapuram SV, Khurana JS, Scott JA, el-Khoury GY (1990) Negative scintigraphy with positive magnetic resonance imaging in bone metastases. Skeletal Radiol 19:113–116
Kyle RA (1983) Long-term survival in multiple myeloma. New Engl J Med 308:314–316
Kyle RA (1975) Multiple myeloma review of 869 cases. Mayo Clin Proc 50:29–39
Lauenstein TC, Freudenberg LS, Goehde SC, Ruehm SG, Goyen M, Bosk S, Debatin JF, Barkhausen J (2002) Whole-body MRI using a rolling table platform for the detection of bone metastases. Eur Radiol 12:2091–2099
Latour LL, Svoboda K, Mitra PP, Sotak CH (1994) Time-dependent diffusion of water in a biological model system. Proc Natl Acad Sci 91:1229–1233
Le Bihan D, Breton E, Lallemand D, Grenier P, Cabanis E, Laval-Jeantet M (1986) MR imaging of intravoxel incoherent motions: Application to diffusion and perfusion in neurologic disorders. Radiology 161:401–407
Mentzel HJ, Kentouche K, Sauner D, Fleischmann C, Vogt S, Gottschild D, Zintl F, Kaiser WA (2004) Comparison of wholebody STIR-MRI and (99m) Tc-methylene-diphosphonate scintigraphy in children with suspected multifocal bone lesions. Eur Radiol [Epub ahead of print]
Piney A (1922) The anatomy of the bone marrow. Br Med J 2:792–795
Rahmouni A, Divine M, Mathieu D et al (1993) Detection of multiple myeloma involving the spine: efficacy of fat-suppression and contrast-enhanced MR imaging. AJR Am J Roentgenol 160:1049–1052
Rahmouni A, Montazel JL, Divine M, Lepage E, Belhadj K, Gaulard P, Bouanane M, Golli M, Kobeiter H (2003) Bone marrow with diffuse tumor infiltration in patients with lymphoproliferative diseases: dynamic gadolinium-enhanced MR imaging. Radiology 229:710–717
Ryan SP, Weinberger E, White KS et al (1995) MR imaging of bone marrow in children with osteosarcoma: effect of granulocyte colony-stimulating factor. AJR Am J Roentgenol 165:915–920
Schmidt GP, Baur-Melnyk A, Tiling R, Hahn K, Reiser MF, Schoenberg SO (2004) Hochauflösendes Ganzkörpertumorstaging unter Verwendung paralleler Bildgebung im Vergleich zur PET-CT. Erste Erfahrungen auf einem 32-Kanal-MRTSystem. Radiologe 44:889–898
Seiderer M, Stäbler A, Wagner H (1999) MRI of bone marrow: opposed-phase gradient-echo sequences with long repetition time. Eur Radiol 9:652–661
Seneterre E, Weissleder R, Jaramillo D et al (1991) Bone marrow: ultrasmall superparamagnetic iron oxide for MR imaging. Radiology 179:529–533
Stäbler A, Baur A, Bartl R, Munker R, Lamerz R, Reiser MF (1996) Contrast enhancement and quantitative signal analysis in MR imaging of multiple myeloma: assessment of focal and diffuse growth patterns in marrow correlated with biopsies and survival rates. AJR Am J Roentgenol 167:1029–1036
Stäbler A, Doma AB, Baur A, Krüger A, Reiser MF (2000) Quantitative Assessment of Reactive Bone Marrow Changes in Infectious Spondylitis. Radiology, Radiology 217:863–868
Stäbler A, Krimmel K, Seiderer M, Gartner C, Fritsch S, Raum W. Stäbler A, Krimmel K, Seiderer M, Gärtner C, Fritsch S, Raum W (1992) Kernspintomographische Differenzierung osteoporotisch und tumorbedingter Wirbelkörperfrakturen: Wertigkeit von subtraktiven Gradientenechosequenzen mit verlängerter Repetitionszeit, STIR Sequenzen und Gd-DTPA. Fortschr Röntgenstr 157:215–221
Stäbler A, Schneider P, Link TM, Schöps P, Springer OS, Dürr HR, Reiser M (1999) Intravertebral vacuum phenomenon following fractures: CT study on frequency and etiology. J Comput Assist Tomogr 23:976–980
Steinborn MM, Heuck AF, Tiling R, Bruegel M, Gauger L, Reiser MF (1999) Whole-body bone marrow MRI in patients with metastatic disease to the skeletal system. J Comput Assist Tomogr 23:123–129
Steiner RM, Mitchell DG, Rao VM, Schweitzer ME (1993) Magnetic resonance imaging of diffuse bone marrow disease. Radiol Clin North Am 31:383–409
Tunaci M, Tunaci A, Engin G et al (1999) Imaging features of thalassemia. Eur Radiol 9:1804–1809
Vande Berg BE, Malghem JJ, Labaisse MA, Noel HM, Maldague BE (1993) MR imaging of avascular necrosis and transient marrow edema of the femoral head. Radiographics 13:501–520
Vande Berg BC, Malghem JJ, Lecouvet FE, Jamart J, Maldague BE (1999) Idiopathic bone marrow edema lesions of the femoral head: predictive value of MR imaging findings. Radiology 212:527–535
Vande Berg BC, Michaux L, Scheiff JM et al (1996) Sequential quantitative MR analysis of bone marrow: differences during treatment of lymphoid versus myeloid leukemia. Radiology 201:519–523
Vanel D, Missenard G, Le Cesne A, Guinebretiere JM (1997) Red marrow recolonization induced by growth factors mimicking an increase in tumor volume during preoperative chemotherapy: MR study. J Comput Assist Tomogr 21:529–531
Vogler JB, Murphy WA (1988) Bone marrow imaging. Radiology 168:679–693
Wilson AJ, Murphy WA, Hardy DC, Totty WG (1988) Transient osteoporosis: transient bone marrow edema? Radiology. 167(3):757–60
Wismer GL, Rosen BR, Buxton R, Stark DD, Brady TJ (1985) Chemical shift imaging of bone marrow: preliminary experience. AJR Am J Roentgenol 145:1031–1037
Yuh WTC, Zachar CK, Barloon TJ, Sato Y, Sickels WJ, Hawes DR (1989) Vertebral compression fractures: Distinction between benign and malignant causes with MR imaging. Radiology 172:215–218
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Stäbler, A. (2005). Bone Marrow Disorders. In: Hodler, J., Zollikofer, C.L., von Schulthess, G.K. (eds) Musculoskeletal Diseases. Springer, Milano. https://doi.org/10.1007/88-470-0339-3_12
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DOI: https://doi.org/10.1007/88-470-0339-3_12
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