BACKGROUND AND PURPOSE: Surgical resection of cerebral cavernous malformations close to eloquent regions frequently uses fMRI and DTI for surgical planning to best preserve neurologic function. This study investigates the reliability of fMRI and DTI near cerebral cavernous malformations.MATERIALS AND METHODS: Consecutive patients with cerebral cavernous malformations undergoing presurgical fMRI and DTI mapping were identified. Each cerebral cavernous malformation was hand-contoured; 2 sequential 4-mm expansion shells (S1 and S2) were cre-ated, generating 2 ROIs and 2 contralateral controls. Fractional anisotropy and regional homogeneity measurements were then extracted from each ROI and compared with the contralateral controls. Reliability, accuracy, and precision were compared as appropriate.RESULTS: Fifty-four patients were identified and included. Errors of fractional anisotropy were significantly lower than those of re-gional homogeneity in S1 and S2 (P <.001), suggesting that fractional anisotropy is more reliable than regional homogeneity near cerebral cavernous malformations. Proximity to cerebral cavernous malformations worsened the reliability of regional homogeneity (S1 versus S2, P <.001), but not fractional anisotropy (P = .24). While fractional anisotropy was not significantly biased in any ROI (P >.05), regional homogeneity was biased toward lower signals in S1 and S2 (P <.05), an effect that was attenuated with distance from cerebral cavernous malformations (P <.05). Fractional anisotropy measurements were also more precise than regional homo-geneity in S1 and S2 (P <.001 for both). CONCLUSIONS: Our findings suggest that hemosiderin-rich lesions such as cerebral cavernous malformations may lead to artifac-tual depression of fMRI signals and that clinicians and surgeons should interpret fMRI studies near cerebral cavernous malforma-tions with caution. While fMRI is considerably affected by cerebral cavernous malformation-related artifacts, DTI appears to be relatively unaffected and remains a reliable imaging technique near cerebral cavernous malformations.
Reliability of Functional and Diffusion MR Imaging Near Cerebral Cavernous Malformations
Colasurdo, M
Primo
;Navarra, R;Piccirilli, E;Delli Pizzi, A;Caulo, MUltimo
2023-01-01
Abstract
BACKGROUND AND PURPOSE: Surgical resection of cerebral cavernous malformations close to eloquent regions frequently uses fMRI and DTI for surgical planning to best preserve neurologic function. This study investigates the reliability of fMRI and DTI near cerebral cavernous malformations.MATERIALS AND METHODS: Consecutive patients with cerebral cavernous malformations undergoing presurgical fMRI and DTI mapping were identified. Each cerebral cavernous malformation was hand-contoured; 2 sequential 4-mm expansion shells (S1 and S2) were cre-ated, generating 2 ROIs and 2 contralateral controls. Fractional anisotropy and regional homogeneity measurements were then extracted from each ROI and compared with the contralateral controls. Reliability, accuracy, and precision were compared as appropriate.RESULTS: Fifty-four patients were identified and included. Errors of fractional anisotropy were significantly lower than those of re-gional homogeneity in S1 and S2 (P <.001), suggesting that fractional anisotropy is more reliable than regional homogeneity near cerebral cavernous malformations. Proximity to cerebral cavernous malformations worsened the reliability of regional homogeneity (S1 versus S2, P <.001), but not fractional anisotropy (P = .24). While fractional anisotropy was not significantly biased in any ROI (P >.05), regional homogeneity was biased toward lower signals in S1 and S2 (P <.05), an effect that was attenuated with distance from cerebral cavernous malformations (P <.05). Fractional anisotropy measurements were also more precise than regional homo-geneity in S1 and S2 (P <.001 for both). CONCLUSIONS: Our findings suggest that hemosiderin-rich lesions such as cerebral cavernous malformations may lead to artifac-tual depression of fMRI signals and that clinicians and surgeons should interpret fMRI studies near cerebral cavernous malforma-tions with caution. While fMRI is considerably affected by cerebral cavernous malformation-related artifacts, DTI appears to be relatively unaffected and remains a reliable imaging technique near cerebral cavernous malformations.File | Dimensione | Formato | |
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