Morphological imaging of thymic disorders

Luigi Camera, Arturo Brunetti, Maurizio Romano, Michele Larobina, Ines Marano, Marco Salvatore

Research output: Contribution to journalArticle

25 Citations (Scopus)

Abstract

The thymus is a bilobed lymphoid organ the morphology of which varies considerably with age as a result of a process of fatty infiltration occurring after puberty. Although several diseases can arise in the thymic parenchyma, including germ cell and neuroendocrine tumours, primitive epithelial neoplasms (thymomas) are the most common neoplasms and account for almost 10% of mediastinal masses. Thymomas are usually benign but can be locally invasive. Up to 30% of patients with a thymoma have myasthenia gravis, which is more commonly associated with thymic hyperplasia. The latter results in a symmetric diffuse enlargement of the thymus. However, thymic hyperplasia can be histologically found in up to 50% of normal-sized thymuses on computed tomography (CT). CT is much more accurate in detecting thymomas than it is in detecting thymic hyperplasia, although CT findings may be unspecific. C-T can be exhaustive in the case of an encapsulated thymoma (65% of all thymomas), which appear as a solid homogeneous mass with a slight contrast enhancement and a well-defined surrounding fat plane. These tumours rarely recur after surgery, CT can also accurately detect a spread through the capsule into the adjacent mediastinal fat, which characterizes invasive thymomas (35%). These, however, are best evaluated by magnetic resonance imaging (MRI). On T1-weighted MR scans the thymus is well delineated against the mediastinal fat, whereas marked inhomogeneity of the signal may appear on T2-weighted images as a result of areas of cystic degeneration in the tumour mass. The superior contrast resolution of MRI and the multiplanar images that can be produced with it are well suited for documenting the mediastinal spread of invasive thymomas. MRI depicts accurately pleural and/or pericardial implants as well as the involvement of great vessels, offering considerable aid in the planning of surgery.

Original languageEnglish
Pages (from-to)57-62
Number of pages6
JournalAnnals of Medicine
Volume31
Issue numberSUPPL. 2
Publication statusPublished - Oct 1999

Fingerprint

Thymoma
Thymus Hyperplasia
Thymus Gland
Tomography
Fats
Magnetic Resonance Imaging
Neoplasms
Glandular and Epithelial Neoplasms
Neuroendocrine Tumors
Germ Cell and Embryonal Neoplasms
Myasthenia Gravis
Puberty
Capsules

Keywords

  • Computed tomography
  • Magnetic resonance imaging
  • Neoplasm
  • Thymus

ASJC Scopus subject areas

  • Medicine(all)

Cite this

Camera, L., Brunetti, A., Romano, M., Larobina, M., Marano, I., & Salvatore, M. (1999). Morphological imaging of thymic disorders. Annals of Medicine, 31(SUPPL. 2), 57-62.

Morphological imaging of thymic disorders. / Camera, Luigi; Brunetti, Arturo; Romano, Maurizio; Larobina, Michele; Marano, Ines; Salvatore, Marco.

In: Annals of Medicine, Vol. 31, No. SUPPL. 2, 10.1999, p. 57-62.

Research output: Contribution to journalArticle

Camera, L, Brunetti, A, Romano, M, Larobina, M, Marano, I & Salvatore, M 1999, 'Morphological imaging of thymic disorders', Annals of Medicine, vol. 31, no. SUPPL. 2, pp. 57-62.
Camera L, Brunetti A, Romano M, Larobina M, Marano I, Salvatore M. Morphological imaging of thymic disorders. Annals of Medicine. 1999 Oct;31(SUPPL. 2):57-62.
Camera, Luigi ; Brunetti, Arturo ; Romano, Maurizio ; Larobina, Michele ; Marano, Ines ; Salvatore, Marco. / Morphological imaging of thymic disorders. In: Annals of Medicine. 1999 ; Vol. 31, No. SUPPL. 2. pp. 57-62.
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