Anna Romaniuk-Doroszewska scite author profile

Purpose. To check whether primary involvement of brain/spinal cord by bone/soft tissue sarcomas' metastases in children is as rare as described and to present various morphological forms of bone/soft tissue sarcomas' CNS metastases. Methods. Patients with first diagnosis in 1999–2014 treated at single center were included with whole course of disease evaluation. Brain/spinal canal magnetic resonance imaging (MRI)/computed tomography were performed in cases suspicious for CNS metastases. Extension from skull/vertebral column metastases was excluded. Results. 550 patients were included. MRI revealed CNS metastases in 19 patients (incidence 3.45%), 14 boys, aged 5–22 years. There were 12/250 osteosarcoma cases, 2/200 Ewing's sarcoma, 1/50 chondrosarcoma, 3/49 rhabdomyosarcoma (RMS), and 1/1 malignant mesenchymoma. There were 10 single metastases and 7 cases of multiple ones; in 2 RMS cases only leptomeningeal spread in brain and spinal cord was found. Calcified metastases were found in 3 patients and hemorrhagic in 4. In one RMS patient there were numerous solid, cystic, hemorrhagic lesions and leptomeningeal spread. Conclusions. CNS metastases are rare and late in children with bone/soft tissue sarcomas, although in our material more frequent (3.45%) than in other reports (0.7%). Hematogenous spread to brain and hemorrhagic and calcified lesions dominated in osteosarcoma. Ewing sarcoma tended to metastasize to skull bones. Soft tissue sarcomas presented various morphological forms.

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Neurocutaneous melanosis in children with giant congenital melanocytic nevi

Bekiesińska‐Figatowska¹,

Szczygielski²,

Boczar³

et al. 2014

Clinical Imaging

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Congenital CNS Tumors Diagnosed on Prenatal MRI

Bekiesińska‐Figatowska

Jurkiewicz

Duczkowski

et al. 2011

Neuroradiol J

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Congenital tumors form a unique group among pediatric neoplasms. They are different from other tumor groups in this population not only due to the onset time but also to their histopathology, anatomic location, biologic behavior and prognosis. The development of fetal MRI allowed early diagnosis of these tumors. Three fetuses with congenital central nervous system (CNS) tumors were diagnosed prenatally and confirmed with histopathology. Prenatal ultrasonography (US) and magnetic resonance imaging (MRI) were performed. After birth MRI or computed tomography (CT) were carried out. In one case a large intra-axial brain tumor was diagnosed with solid, cystic and hemorrhagic elements. After surgery the tumor turned out to be choroid plexus carcinoma. In the second case craniopharyngioma arising from the suprasellar region was diagnosed on the basis of prenatal MRI and confirmed. In the third case extra-axial meningioma-like tumor was visualized on fetal MRI. After surgery it turned out to be desmoplastic infantile astrocytoma. Intracranial teratoma, the most typical CNS congenital tumor, was not diagnosed in our material. Our cases were rarely encountered neoplasms: choroid plexus carcinoma, craniopharyngioma and desmoplastic infantile astrocytoma. The examinations were repeated after birth and did not add significant information. In utero diagnostics is easier and safer than postnatal imaging of the sick baby that may require life-support equipment, and provides information of equal value.

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Fetal MRI versus postnatal imaging in the MR-compatible incubator

Bekiesińska‐Figatowska¹,

Romaniuk-Doroszewska²,

Duczkowska³

et al. 2016

Radiol med

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IntroductionOne of the aims of fetal magnetic resonance imaging (MRI) is to avoid postnatal scanning. However, clinicians sometimes wish to have postnatal confirmation of prenatal findings. This study’s purpose was to check whether there was indeed the added value of neonatal MRI performed in the MR-compatible incubator (INC) after fetal examination.Materials and methodsMaterial consists of 25 neonates (14 girls) who underwent prenatal and postnatal MRI in a 1.5 T scanner, the latter in INC. Mean time of prenatal MRI was 30th gestational week, of postnatal MRI—16th day of life.ResultsIn 14 cases (56 %) postnatal findings were the same as prenatal ones. In 11 (44 %) postnatal MRI showed some different/new/more precise results, in two the differences were attributed to other factors than the advantage of postnatal MRI over prenatal one. Altogether then postnatal results were partly discordant with prenatal ones in 9/25 cases (36 %).ConclusionsIn most cases there was no added value of postnatal MRI as compared to prenatal one. This value lied in small details that could not have been noticed on prenatal MRI or required contrast medium administration to be noticed. On the other hand, MR examination performed with use of the dedicated neonatal coils in the MR-compatible incubator is a safe and reliable method of visualization of these small details with better spatial resolution thus helping to establish final diagnosis, treatment plan and prognosis.

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