Background <p>White matter (WM) tract involvement represents a critical determinant of functional outcome in neuro-oncology. Although substantial advances in diffusion tensor imaging (DTI) and intraoperative mapping have improved characterization of WM organization, the relationship between microstructural integrity and morphometric alterations of associative fasciculi in different tumor histotypes remains incompletely understood. We investigated the association between fractional anisotropy (FA), volumetric and length parameters of the inferior fronto-occipital fasciculus (IFOF) and arcuate fasciculus (AF) across distinct intracranial tumor types.</p> Methods <p>In this multicenter retrospective study, 156 patients undergoing surgery for brain tumors were included. All lesions were located in proximity to the IFOF or AF and underwent preoperative deterministic tractography based on standardized DTI protocols. Linear mixed-effects models, adjusted for relevant covariates, assessed the association between FA and tract morphometry, including interaction terms for tumor type and hemisphere.</p> Results <p>Higher FA was strongly associated with both AF and IFOF tract volume (adjusted <i>p</i> &lt; 0.001), whereas associations with tract length were weaker and not consistently significant. The association between FA and IFOF volume appeared stronger in gliomas than in metastases or meningiomas, suggesting potential histotype-related difference in WM involvement. The healthy hemisphere showed higher FA and morphometric measures than the tumor-affected side.</p> Conclusions <p>FA was significantly associated with morphometric features of WM tract, particularly in infiltrative tumors. Integrating FA into preoperative assessment may enhance surgical planning and support strategies aimed at preserving functional connectivity.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Rethinking white matter–tumor interaction: a tractography based analysis of associations between fractional anisotropy and morphometry in the IFOF and arcuate fasciculus

  • Roberto Altieri,
  • Lorenzo Ugga,
  • Andrea Bianconi,
  • Stefano Caneva,
  • Ferdinando Caranci,
  • Giovanni Cirillo,
  • Fabio Cofano,
  • Sergio Corvino,
  • Oreste de Divitiis,
  • Giuseppe Maria Della Pepa,
  • Donatella Franco,
  • Ciro De Luca,
  • Pietro Fiaschi,
  • Gianluca Galieri,
  • Diego Garbossa,
  • Giuseppe La Rocca,
  • Salvatore Marino,
  • Edoardo Mazzucchi,
  • Grazia Menna,
  • Antonio Mezzogiorno,
  • Alberto Morello,
  • Alessandro Olivi,
  • Michele Papa,
  • Daniela Pacella,
  • Rosellina Russo,
  • Giovanni Sabatino,
  • Giovanna Sepe,
  • Assunta Virtuoso,
  • Giovanni Vitale,
  • Giuseppe Vitale,
  • Gianluigi Zona,
  • Manlio Barbarisi

摘要

Background

White matter (WM) tract involvement represents a critical determinant of functional outcome in neuro-oncology. Although substantial advances in diffusion tensor imaging (DTI) and intraoperative mapping have improved characterization of WM organization, the relationship between microstructural integrity and morphometric alterations of associative fasciculi in different tumor histotypes remains incompletely understood. We investigated the association between fractional anisotropy (FA), volumetric and length parameters of the inferior fronto-occipital fasciculus (IFOF) and arcuate fasciculus (AF) across distinct intracranial tumor types.

Methods

In this multicenter retrospective study, 156 patients undergoing surgery for brain tumors were included. All lesions were located in proximity to the IFOF or AF and underwent preoperative deterministic tractography based on standardized DTI protocols. Linear mixed-effects models, adjusted for relevant covariates, assessed the association between FA and tract morphometry, including interaction terms for tumor type and hemisphere.

Results

Higher FA was strongly associated with both AF and IFOF tract volume (adjusted p < 0.001), whereas associations with tract length were weaker and not consistently significant. The association between FA and IFOF volume appeared stronger in gliomas than in metastases or meningiomas, suggesting potential histotype-related difference in WM involvement. The healthy hemisphere showed higher FA and morphometric measures than the tumor-affected side.

Conclusions

FA was significantly associated with morphometric features of WM tract, particularly in infiltrative tumors. Integrating FA into preoperative assessment may enhance surgical planning and support strategies aimed at preserving functional connectivity.