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Bright spot analysis for photodynamic diagnosis of brain tumours using confocal microscopy

12 Apr 2019
Bright spot analysis for photodynamic diagnosis of brain tumours using confocal microscopy

Photodynamic diagnosis using 5-aminolevulinic acid (5-ALA) is now widely used for neurosurgical resection of brain tumours.

Distinguishing a tumour from healthy tissue is based on greater 5-ALA-derived protoporphyrin IX accumulation in glioma cells than in non-cancerous cells, resulting in much greater red fluorescence (peak at 635 nm) when excited at 405 nm.

However, it is still difficult to precisely distinguish the tumour margin and infiltrating regions from non-tumour tissue because the fluorescent boundary is usually vague.

The bright spots identified in the confocal microscopy images may be able to distinguish tumours from normal tissue. 

The findings have been published in the journal Photodiagnosis and Photodynamic Therapy.

Brain tumour tissues resected from 5-ALA-treated patients was sectioned to evaluate bright spots captured by a 544.5-619.5 nm wavelength band-pass filter that eliminated the fluorescence induced by 5-ALA under a confocal microscope.

Boarder regions and adjacent normal tissues were observed.

Pathological inspection was performed to confirm the locations of tumours, infiltrating tumour cells, and normal tissue regions by hematoxylin and eosin (H&E) staining of serial sections of the same samples.

Bright spot areas were measured in the same region used for pathological inspection.

This method was applied to brain tumours with and without red fluorescence as well as glioblastoma (GBM) and non-GBM brain tumours.

The bright spot area was substantially smaller in the GBM tumour than in normal brain tissues.

It was also smaller in infiltrating tumours than in normal tissue at the margin.

The same bright spot pattern was observed in tumours tissues without red fluorescence and in non-GBM tumours.

Bright spot fluorescence has been suggested to be derived from lipofuscin based on emission spectra (mainly within 544.5?619.5 nm) and an optimal excitation wavelength (about 405 nm).

Bright spot analysis is useful to facilitate discrimination of an infiltrating tumour from bordering normal tissue in photodynamic diagnosis using 5-ALA.

This method is also potentially useful for tumours without 5-ALA-derived red fluorescence and non-GBM tumours.

The mechanism of bright spot fluorescence reduction in tumours and its application for precise discrimination of brain tumours should be investigated further.

Source: Kanazawa University

Image credit: Kanazawa University