Agata Mendys scite author profile

The aim of this study was to apply a new methodology using the combination of the hyperspectral imaging and the dry blood spot (DBS) collecting. Application of the hyperspectral imaging is fast and non-destructive. DBS method offers the advantage also on the micro-invasive blood collecting and low volume of required sample. During experimental step, the reflected light was recorded by two hyperspectral systems. The collection of 776 spectral bands in the VIS-NIR range (400-1000 nm) and 256 spectral bands in the SWIR range (970-2500 nm) was applied. Pixel has the size of 8 × 8 and 30 × 30 µm for VIS-NIR and SWIR camera, respectively. The obtained data in the form of hyperspectral cubes were treated with chemometric methods, i.e., minimum noise fraction and principal component analysis. It has been shown that the application of these methods on this type of data, by analyzing the scatter plots, allows a rapid analysis of the homogeneity of DBS, and the selection of representative areas for further analysis. It also gives the possibility of tracking the dynamics of changes occurring in biological traces applied on the surface. For the analyzed 28 blood samples, described method allowed to distinguish those blood stains because of time of apply.

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What can we learn about laser-induced plasmas from Thomson scattering experiments

̧ȩga¹,

Mendys²,

Pokrzywka³

2014

Spectrochimica Acta Part B: Atomic Spectroscopy

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Agata Mendys

Automatic pigment identification from hyperspectral data

Investigation of the local thermodynamic equilibrium of laser-induced aluminum plasma by Thomson scattering technique

Investigations of laser-induced plasma in argon by Thomson scattering

Hyperspectral imaging and multivariate analysis in the dried blood spots investigations

What can we learn about laser-induced plasmas from Thomson scattering experiments

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