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In vivo characterization of the human glioblastoma infiltrative edge with label-free intraoperative fluorescence lifetime imaging

Alba Alfonso‐García, Silvia Noble Anbunesan, Julien Bec, Han Sung Lee, Lee‐Way Jin, Orin Bloch, Laura Marcu

2023Biomedical Optics Express21 citationsDOIOpen Access PDF

Abstract

Challenges in identifying a glioblastoma’s infiltrative edge during neurosurgical procedures result in rapid recurrence. A label-free fluorescence lifetime imaging (FLIm) device was used to evaluate glioblastoma’s infiltrative edge in vivo in 15 patients (89 samples). FLIm data were analyzed according to tumor cell density, infiltrating tissue type (gray and white matter), and diagnosis history (new or recurrent). Infiltrations in white matter from new glioblastomas showed decreasing lifetimes and a spectral red shift with increasing tumor cell density. Areas of high versus low tumor cell density were separated through a linear discriminant analysis with a ROC-AUC=0.74. Current results support the feasibility of intraoperative FLIm for real-time in vivo brain measurements and encourage refinement to predict glioblastoma infiltrative edge, underscoring the ability of FLIm to optimize neurosurgical outcomes.

Topics & Concepts

GlioblastomaFluorescence-lifetime imaging microscopyPreclinical imagingIn vivoFluorescenceMedical imagingMedicineGliomaBiomedical engineeringOptical imagingPet imagingPathologyNuclear medicineRadiologyPositron emission tomographyCancer researchOpticsBiologyPhysicsBiotechnologyGlioma Diagnosis and TreatmentNanoplatforms for cancer theranosticsAdvanced Electron Microscopy Techniques and Applications
In vivo characterization of the human glioblastoma infiltrative edge with label-free intraoperative fluorescence lifetime imaging | Litcius