@phdthesis{Alkonyi2014, author = {Alkonyi, Balint}, title = {Differential imaging characteristics and dissemination potential of pilomyxoid astrocytomas versus pilocytic astrocytomas}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-116062}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Background and Aims: PMA is a recently described rare tumor entity occuring most often in young children. Due the worse outcome of PMA-patients as compared to children with pilocytic astrocytoma (PA), it has received a grade II assignment in the latest WHO classification. Nevertheless, increasing evidence suggests that the two tumor types are indeed pathologically and genetically related. The radiological differentiation of PMAs from PAs is challenging and the limited available data could not yet provide unequivocal distinguishing imaging features. Furthermore, it is not completely clarified whether PMA cases are associated with a higher rate of CSF dissemination compared to similarly young patients with PA. The aim of our study was firstly to compare MR/CT imaging features of these tumors, and secondly, to evaluate the occurrence of CSF dissemination. Material and Methods: The study population included 15 children with PMA and 32 children with PA. A third group consisted of eight children with PAs with focal pilomyxoid features. All cases had been registered in the German multicenter SIOP/HIT-LGG trials. The initial MRIs (and CT scans, if available) at establishing the diagnosis were retrospectively analyzed according to standardized criteria and the findings compared between PMAs and PAs. Furthermore, we compared the occurrence of imaging evidences of CSF tumor dissemination between children with PMA and PA, respectively. Results: The imaging appearance of PMAs and PAs was very similar. However, PAs tended to show more frequently cystic components (p=0.03). As opposed to PAs, PMAs did not have large tumor cysts. We did not find differences with respect to tumor size and tumor margin. Gadolinium enhancement of PMAs was significantly more frequently homogeneous (p=0.006). PMAs appeared to show more often intratumoral hemorrhages (p=0.047). Furthermore, suprasellar PMAs tended to have a more homogeneus texture on T2-weighted MR images (p=0.026). Within the subgroup < 6 years of age the PMA histology tended to have a larger effect on the occurrence of CSF dissemination than the age (p=0.05 vs.0.12). Conclusions: Although the radiological appearance of PMAs and PAs is similar, some imaging features, like enhancement pattern or presence of cysts or hemorrhage may help differentiating these low-grade gliomas. Our results corroborate previous scarce data suggesting higher rate of CSF dissemination in PMAs, even in the youngest patient population. Thus, in young children with a chiasmatic-hypothalamic tumor suggestive of a PMA, an intensive search for CSF dissemination along the entire neuraxis should be performed.}, subject = {Astrozytom}, language = {en} }