Imaging of Bone Tumors and Tumor-Like Lesions: Techniques and ApplicationsA. Mark Davies, Murali Sundaram, Steven J. James Detection and characterization of bone tumors with imaging remains a big challenge for every radiologist notwithstanding the impressive progress achieved by the introduction of several new imaging modalities. Moreover, new concepts in surgical and oncological treatment of these lesions require from the radiologist appropriate and focused answers to the specifc questions asked by the referring physicians in order to choose the best therapeutic approach for the in- vidual patient. Tis comprehensive textbook describes in detail the possibilities and limits of all moda- ties, including MRI, CT, nuclear medicine and interventional radiological procedures, employed for the modern imaging of tumoral and tumor-like lesions of bone. Teir role in the diagnosis, surgical staging, biopsy and assessment of response to therapy is discussed in detail, covering all tumor subtypes as well as their specifc anatomical location.Well selected and technically imp- cable illustrations strongly enhance the didactic value of this work. I am very much indebted and grateful to the three editors: A. Mark Davies, Murali Sundaram and Steven L. J. James, world authorities in musculoskeletal radiology, for their superb scientifc achievement in preparing and editing this wonderful volume as well as for their individual ch- ters. I would also like to thank the large international group of collaborating authors, who are also widely acknowledged for their specifc expertise in the area of bone tumors, for their outstanding contributions. |
From inside the book
Results 1-5 of 82
Page 26
... lesions (Groves et al. 2006). In a patient with an appar- ently solitary bone tumour, this examination could con- firm or refute the presence of multiple skeletal lesions and may also demonstrate a previously occult primary tumour. This ...
... lesions (Groves et al. 2006). In a patient with an appar- ently solitary bone tumour, this examination could con- firm or refute the presence of multiple skeletal lesions and may also demonstrate a previously occult primary tumour. This ...
Page 34
... lesion evaluation at T2 - weighted fast SE imaging . a In coronal T2- weighted fast SE without fat suppression , the ... lesions ( Fig . 3.3 ) . A typical example is the inho- mogeneous fat suppression caused by the ferromagnetic effects ...
... lesion evaluation at T2 - weighted fast SE imaging . a In coronal T2- weighted fast SE without fat suppression , the ... lesions ( Fig . 3.3 ) . A typical example is the inho- mogeneous fat suppression caused by the ferromagnetic effects ...
Page 54
... lesion, one of the first steps is to determine if it is a solitary lesion or if there are multiple bone lesions. From this and the radiographic appear- ance, a decision as to whether the lesion represents a primary bone tumour or ...
... lesion, one of the first steps is to determine if it is a solitary lesion or if there are multiple bone lesions. From this and the radiographic appear- ance, a decision as to whether the lesion represents a primary bone tumour or ...
Page 62
... lesions in skull, ribs, limbs and spine (Fig. 4.3b) (Zhibin et al. 2004). Some lesions may show aneurismal change with a “doughnut sign”. However, as the skeleton matures or the lesion is shown to have ground glass density on a ...
... lesions in skull, ribs, limbs and spine (Fig. 4.3b) (Zhibin et al. 2004). Some lesions may show aneurismal change with a “doughnut sign”. However, as the skeleton matures or the lesion is shown to have ground glass density on a ...
Page 65
... lesions is helpful in demonstrating focal or multifocal nature of a condition, position and distribu- tion of lesions and the metabolic activity or change in metabolic activity of a lesion. In this way, confirming the diagnosis in ...
... lesions is helpful in demonstrating focal or multifocal nature of a condition, position and distribu- tion of lesions and the metabolic activity or change in metabolic activity of a lesion. In this way, confirming the diagnosis in ...
Contents
2 | |
3 | |
9 | |
53 | |
Primary bone tumors are rare nonneoplastic | 82 |
Ultrasonography | 85 |
Interventional Techniques | 94 |
8 | 138 |
Angiomatous Neoplasms of the Skeletal System | 364 |
20 | 375 |
Smooth Muscle Tumors | 393 |
Lipogenic Tumours of Bone | 400 |
Fibrous Dysplasia Osteofibrous Dysplasia and Adamantinoma | 423 |
Langerhans Cell Histiocytosis | 447 |
Spine | 461 |
27 | 480 |
9 | 148 |
10 | 172 |
Assessment of Response to Chemotherapy and Radiotherapy | 209 |
Cartilage Tumours | 225 |
Osseous Tumors | 251 |
Fibrogenic and Fibrohistiocytic Tumors | 307 |
Ewing SarcomaPNET Tumors | 337 |
18 | 351 |
Excluding myeloma and lymphoma malignant | 362 |
Reactive Metabolic and TumorLike Lesions of Bone | 549 |
33 | 585 |
Bony Pelvis | 603 |
36 | 637 |
37 | 647 |
Compartmental Anatomy | 665 |
Subject Index | 687 |
G KINDBLOM MD | 695 |
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Common terms and phrases
ablation aneurysmal bone cyst areas assessment Axial benign biopsy Bone Joint Surg bone lesions bone metastases bone sarcomas bone scan bone scintigraphy bone tumors calcification Cancer cartilage chemotherapy chondroblastoma chondrosarcoma chordoma clinical common computed tomography cortex cortical demonstrates detection diaphysis differential diagnosis enchondroma enhancement evaluation Ewing sarcoma Ewing’s sarcoma expansile extraosseous fat suppression femoral femur fibroma fibrous dysplasia giant cell tumor grade high signal histiocytosis histological image shows intramedullary intraosseous involvement long bones lymphoma lytic lesion malignant bone matrix metastatic disease Mirra multiple Murphey musculoskeletal myeloma needle neoplasms occur Oncol osseous osteoblastoma osteochondroma osteoid osteoma osteosarcoma Paget’s disease parosteal patients pelvis percutaneous periosteal reaction PET/CT posterior present proximal radiation radiograph Radiology rare recurrence reported resection Roentgenol scapula scintigraphy sclerosis sclerotic signal intensity sion Skeletal Radiol soft tissue mass spinal spine surgical T1-weighted images techniques therapy tibia tion treatment typically uptake vertebral body