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Query: UMLS:C0019621 (
Langerhans cell histiocytosis
)
3,250
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nuclear medicine imaging techniques, whether applied in the initial diagnosis or in assessing the response to therapy, are indispensable in the evaluation of malignant diseases that afflict infants and children. The major role of these techniques (bone, 67Ga and 201Tl scintigraphy, imaging with labeled leucocytes, immunoscintigraphy) is that of complementing, in an essential manner, other first choice diagnostic investigations (radiological, bioptic, etc.) such as in evaluating malignant skeletal tumors, soft tissue sarcomas, lymphomas, leukemia and
histiocytosis X
. Nevertheless, due to their high tissue specificity and/or diagnostic reliability, 99mTc-MDP (or analogues) imaging in the screening of
bone metastases
, 123/131I-MIBG scintigraphy in the diagnosis and management of neuroblastoma and 131I whole body scan in staging postoperatively differentiated thyroid cancers are proposed as first choice modalities. Well established (131I therapy) or recently developed (131I-MIBG therapy and radioimmunotherapy) therapeutic modalities are available today to be either integrated with or to substitute the conventional treatment of differentiated thyroid carcinoma and neuroblastoma.
...
PMID:Nuclear medicine imaging in pediatric oncology. 807 80
Many extraocular masses involving the pediatric orbit have an osseous origin. The most common is the dermoid inclusion cyst; these cystic lesions may contain lipid and are most often found near the zygomaticofrontal suture, adjacent to an indolent-appearing erosion of bone. Some primary bone lesions may involve the orbit, producing a lytic or dense lesion with enlargement of the bone; these lesions include fibrous dysplasia, juvenile ossifying fibroma, and osteosarcoma. Fibrous dysplasia tends to produce a mass of ground-glass appearance with longitudinal osseous expansion, whereas juvenile ossifying fibroma is likely to produce a mixed lytic and sclerotic lesion and focal osseous enlargement. Osteosarcoma causes marked bone destruction and variable osteoid production.
Langerhans cell histiocytosis
, an idiopathic reticuloendothelial proliferative disorder, tends to involve the bones of the skull, especially the lateral orbital roof; it produces lytic destruction of bone with a sclerotic rim and a large intraorbital soft-tissue mass. Granulocytic sarcoma is a solid tumor that may occur in children with myelogenous leukemia. These tumors tend to arise in the subperiosteum of the lateral orbital wall, although they usually do not disrupt the bone. Finally, the orbit is a common site for
bone metastases
from neuroblastoma, which cause aggressive periosteal reaction in the orbital roof or lateral wall. The last three conditions are often bilateral. At imaging evaluation, osseous lesions may appear similar to each other and to nonosseous masses of the orbit. Knowledge of the pathologic features of these tumors and how these features are reflected in their imaging appearances may help radiologists differentiate them.
...
PMID:From the Archives of the AFIP. Pediatric orbit tumors and tumorlike lesions: osseous lesions of the orbit. 1863 37
For bone marrow screening, multimodality algorithms including conventional radiographs, bone scintigraphy, multislice computed tomography CT (MS-CT) scan, and dedicated magnetic resonance imaging (MRI) are widely established in clinical routine. Although radiographs are used as a basic imaging procedure for clarification of suspected focal bone pathologies, low sensitivity has been reported for the detection of limited osteolytic bone marrow destruction. Therefore, skeletal scintigraphy often is used as a more sensitive and integrated method in patients with suspected malignant bone marrow disease. MS-CT scan is the method of choice in the assessment of bone stability and allows for evaluation of fracture risk. Hybrid imaging concepts, such as positron emission tomography-computed tomography (PET-CT) scan, have been established as an effective tool for the detection of skeletal metastases, using the additional metabolic information of a PET scan for the assessment of tumor viability and therapy response. MRI is an imaging technique that allows direct visualization of bone marrow components with high spatial resolution. The unique soft-tissue contrast of MRI enables precise assessment of bone marrow infiltration before osteolytic changes become visible in MS-CT or metabolic changes occur in bone scintigraphy or a PET scan. Furthermore it can depict tumor expansion into adjacent paraosseous structures, such as the spinal canal. The development of multichannel whole-body MRI (WB-MRI) systems has enabled bone marrow screening without use of ionizing radiation at high diagnostic accuracy. Parallel imaging techniques in combination with global matrix coil concepts, as well as the introduction of high-field whole-body scanners, have substantially reduced acquisition times without compromises in spatial resolution. WB-MRI has successfully been applied for screening of
bone metastases
and hematologic bone marrow diseases, like multiple myeloma, lymphoma, and
histiocytosis X
. Furthermore, it has recently been proposed for the assessment of primarily benign bone diseases predisposing for malignancy (e.g., multiple cartilaginous exostoses). This article provides an overview of state-of-art whole-body imaging of the bone marrow and highlights present and potential future applications, especially in the field of WB-MRI.
...
PMID:Whole-body imaging of bone marrow. 1945 75
