Abstract
BACKGROUND: Diffuse infiltration of malignant glioma cells into surrounding brain tissue complicates maximal safe resection. Fluorescence-guided surgery (FGS) with 5-aminolevulinic acid (5-ALA) enhances tumor visualization via protoporphyrin IX (PpIX) fluorescence, but its relationship to cell density remains unclear. We investigate whether PpIX fluorescence correlates with histological cellularity in glioma tissues. MATERIAL AND METHODS: We analyzed 243 brain tumor biopsies from patients administered with 5-ALA. Ex vivo hyperspectral imaging captured fluorescence spectra, and a spectral unmixing algorithm quantified abundances of nine fluorophores, including PpIX. Cell density was measured from histopathological slides using an automated cell counting algorithm involving image segmentation and morphological filtering. We focused on glioblastoma samples (n=209) to control for tissue-type variability. For comparison, other tumor types included anaplastic astrocytoma (n=10), gliosarcoma (n=9), metastasis (n=5), and radiation necrosis (n=10). Using linear and quadratic models, we assessed correlations between fluorophore abundances and cell density. RESULTS: In glioblastoma samples, weak but statistically significant positive correlations were found between cell density and fluorescence from PpIX634 (R=0.387, p<0.001) and collagen (R=0.403, p<0.001), with collagen showing a slightly stronger correlation. No strong correlation was observed between PpIX fluorescence intensity and cell density across all tumor types (R²=0.17, p<0.001). Quadratic models marginally improved the correlation (R²=0.28) but risked overfitting. Tissue type significantly influenced cellularity and fluorophore abundance (p<0.05), suggesting that factors beyond cell density affect PpIX accumulation. Glioblastoma samples exhibited higher PpIX fluorescence despite lower cell densities than other tumor types, indicating PpIX accumulation in the extracellular matrix or higher intracellular accumulation per cell. CONCLUSION: PpIX fluorescence correlates weakly with tumor cell density, suggesting accumulation in the extracellular matrix rather than within tumor cells or higher intracellular accumulation per cell. Collagen fluorescence shows a stronger correlation and may serve as an additional intraoperative biomarker. While PpIX aids tumor visualization, it does not directly reflect cell density. Incorporating biomarkers like collagen fluorescence could enhance tumor delineation and improve surgical outcomes.