INTRODUCTION: Advanced magnetic resonance imaging (MRI) techniques is an umbrella term that includes diffusion (DWI) and diffusion tensor (DTI), perfusion (PWI), spectroscopy (MRS), and functional (fMRI) imaging. These advanced modalities have improved the imaging of brain tumors and provided valuable additional information for treatment planning. Despite abundant literature on advanced MRI techniques in adult brain tumors, few reports exist for pediatric brain ones, potentially because of technical challenges. REVIEW OF THE LITERATURE: The authors review techniques and clinical applications of DWI, PWI, MRS, and fMRI, in the setting of pediatric hemispheric low-grade gliomas. PERSONAL EXPERIENCE: The authors propose their personal experience to highlight benefits and limits of advanced MR imaging in diagnosis, grading, and presurgical planning of pediatric hemispheric low-grade gliomas. DISCUSSION: Advanced techniques should be used as complementary tools to conventional MRI, and in theory, the combined use of the three techniques should ensure achieving the best results in the diagnosis of hemispheric low-grade glioma and in presurgical planning to maximize tumor resection and preserve brain function. FUTURE PERSPECTIVES: In the setting of pediatric neurooncology, these techniques can be used to distinguish low-grade from high-grade tumor. However, these methods have to be applied on a large scale to understand their real potential and clinical relapse, and further technical development is required to reduce the excessive scan times and other technical limitations.

Gaudino, S., Russo, R., Verdolotti, T., Caulo, M., Colosimo, C., Advanced MR imaging in hemispheric low-grade gliomas before surgery; the indications and limits in the pediatric age., <<CHILDS NERVOUS SYSTEM>>, 2016; (32(10)): 1813-1822. [doi:10.1007/s00381-016-3142-y] [http://hdl.handle.net/10807/93366]

Advanced MR imaging in hemispheric low-grade gliomas before surgery; the indications and limits in the pediatric age.

Gaudino, Simona
Primo
;
Russo, Rosellina
Secondo
;
Verdolotti, Tommaso;Colosimo, Cesare
2016

Abstract

INTRODUCTION: Advanced magnetic resonance imaging (MRI) techniques is an umbrella term that includes diffusion (DWI) and diffusion tensor (DTI), perfusion (PWI), spectroscopy (MRS), and functional (fMRI) imaging. These advanced modalities have improved the imaging of brain tumors and provided valuable additional information for treatment planning. Despite abundant literature on advanced MRI techniques in adult brain tumors, few reports exist for pediatric brain ones, potentially because of technical challenges. REVIEW OF THE LITERATURE: The authors review techniques and clinical applications of DWI, PWI, MRS, and fMRI, in the setting of pediatric hemispheric low-grade gliomas. PERSONAL EXPERIENCE: The authors propose their personal experience to highlight benefits and limits of advanced MR imaging in diagnosis, grading, and presurgical planning of pediatric hemispheric low-grade gliomas. DISCUSSION: Advanced techniques should be used as complementary tools to conventional MRI, and in theory, the combined use of the three techniques should ensure achieving the best results in the diagnosis of hemispheric low-grade glioma and in presurgical planning to maximize tumor resection and preserve brain function. FUTURE PERSPECTIVES: In the setting of pediatric neurooncology, these techniques can be used to distinguish low-grade from high-grade tumor. However, these methods have to be applied on a large scale to understand their real potential and clinical relapse, and further technical development is required to reduce the excessive scan times and other technical limitations.
2016
Inglese
Gaudino, S., Russo, R., Verdolotti, T., Caulo, M., Colosimo, C., Advanced MR imaging in hemispheric low-grade gliomas before surgery; the indications and limits in the pediatric age., <<CHILDS NERVOUS SYSTEM>>, 2016; (32(10)): 1813-1822. [doi:10.1007/s00381-016-3142-y] [http://hdl.handle.net/10807/93366]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10807/93366
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