Radiologia Brasileira - Publicação Científica Oficial do Colégio Brasileiro de Radiologia

AMB - Associação Médica Brasileira CNA - Comissão Nacional de Acreditação
Idioma/Language: Português Inglês

Vol. 49 nº 3 - May / June  of 2016

EDITORIALS
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Page(s) VII to VII

Imaging evaluation of bone tumors

Autho(rs): André Yui Aihara

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The radiographic approach to bone tumors consists in analyzing a certain lesion in an organized manner, paying attention to specific radiographic features such as location, margins and transition zones, periosteal reaction patterns, mineralization, lesion size, and whether or not soft tissue components are present(1,2).

Patient age and determining whether the lesion(s) is single or multiple are fundamental clinical data for diagnosis. Some types of tumors have a predilection for certain age groups(2). With the exception of multiple myeloma, primary malignant bone tumors are typically solitary lesions, whereas benign tumors tend to present as multiple lesions(1,2).

This type of semiological approach has neither the objective nor the capacity to arrive at a final histological diagnosis. However, it narrows the range of differential diagnoses and indicates the most appropriate course of action from that point onward(2,3).

With this semiological approach to conventional radiography, it is possible to reduce the number of differential diagnoses, often eliminating the need for more advanced imaging methods such as computed tomography (CT) or magnetic resonance imaging (MRI). Typical examples of such diagnoses are simple bone cyst, fibrous cortical defect, and non-ossifying fibroma(3), which normally preclude the need for evaluation methods other than conventional radiography.

If necessary, CT can be helpful in determining the pattern of calcification in the matrix of the lesion, in identifying occult bone destruction, or even in localizing the nidus of an osteoid osteoma(1,2). It can also serve to guide the collection of tissue for histological analysis(4) and less invasive treatments of certain tumors, such as osteoid osteoma(5).

MRI has become the standard imaging examination for determining the local extent of a tumor and is frequently capable of providing a better characterization of the components of the lesions, such as cystic areas and adipose, fibrous, or chondral tissue(2). However, it is a costly method that is not always necessary, as explained above. Advanced MRI techniques, such as diffusion, spectroscopy, dynamic tissue perfusion, and in-phase/out-of-phase imaging, show promise for the evaluation of tumors. Together with conventional MRI, these advanced techniques increase diagnostic accuracy and improve evaluation of treatment responses(6).

Positron emission tomography combined with multidetector computed tomography has proven to be a valuable imaging tool for staging, restaging and the evaluation of treatment response in patients with tumors, due to its capacity to provide additional physiological information(7).

In this issue of Radiologia Brasileira, Andrade Neto et al.(8) present a pictorial essay in which they review the conventional radiography aspects of the main knee bone tumors seen in clinical practice. In a quite didactic manner, the essay divides expansile knee lesions into pseudotumors, bone-forming tumors, cartilage-forming tumors, bone marrow tumors, and other connective tissue tumors. It also makes a concise review of each of the tumor types discussed, providing an excellent opportunity to learn or recall concepts.


REFERENCES

1. Miller TT. Bone tumors and tumorlike conditions: analysis with conventional radiography. Radiology. 2008;246:662-74.

2. Greenspan A, Jundt G, Remagen W. Differential diagnosis in orthopaedic oncology. 2nd ed. Philadelphia, PA: Lippincott Williams & Wilkins; 2007.

3. Aihara AY, Fernandes ARC, Natour J. Tumores e lesões tumorais do tipo "não toque". Rev Bras Reumatol. 2004;44:364-70.

4. Maciel MJS, Tyng CJ, Barbosa PNVP, et al. Computed tomography-guided percutaneous biopsy of bone lesions: rate of diagnostic success and complications. Radiol Bras. 2014;47:269-74.

5. Petrilli M, Senerchia AA, Petrilli AS, et al. Computed tomography-guided percutaneous trephine removal of the nidus in osteoid osteoma patients: experience of a single center in Brazil. Radiol Bras. 2015;48:211-5.

6. Costa FM, Canella C, Gasparetto E. Advanced magnetic resonance imaging techniques in the evaluation of musculoskeletal tumors. Radiol Clin North Am. 2011;49:1325-58.

7. Guimarães JB, Rigo L, Lewin F, et al. The importance of PET/CT in the evaluation of patients with Ewing tumors. Radiol Bras. 2015;48:175-80.

8. Andrade Neto F, Teixeira MJD, Araújo LHC, et al. Tumores ósseos do joelho: achados na radiologia convencional. Radiol Bras. 2016;49:182-9.










PhD, Collaborator in the Department of Diagnostic Imaging at the Escola Paulista de Medicina - Universidade Federal de São Paulo (EPM-Unifesp), Radiologist at DASA and AACD-SP, São Paulo, SP, Brazil. E-mail: andre.yui.aihara@gmail.com
 
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