Fractal Dimension Analysis of High-Resolution X-Ray Phase Contrast Micro-Tomography Images at Different Threshold Levels in a Mouse Spinal Cord

Maugeri, Laura; DiNuzzo, Mauro; Moraschi, Marta; Nicaise, Charles; Bukreeva, Inna; Mangini, Fabio; Giove, Federico; Cedola, Alessia; Fratini, Michela

doi:10.3390/condmat3040048

Cited by 9 publications

(6 citation statements)

References 39 publications

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“…2C ), and then transforming it to an 8-bit image sequence (Fig. 2D ), as suggested in [ 21 ]. The obtained stack was then processed with a homemade ImageJ macro developed to calculate the fractal dimension (FD) after image thresholding (Fig.…”

Section: Methodsmentioning

confidence: 99%

Post mortem computed tomography meets radiomics: a case series on fractal analysis of post mortem changes in the brain

et al. 2022

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Estimating the post-mortem interval is a fundamental, albeit challenging task in forensic sciences. To this aim, forensic practitioners need to assess post-mortem changes through a plethora of different methods, most of which are inherently qualitative, thus providing broad time intervals rather than precise determinations. This challenging problem is further complicated by the influence of environmental factors, which modify the temporal dynamics of post-mortem changes, sometimes in a rather unpredictable fashion. In this context, the search for quantitative and objective descriptors of post-mortem changes is highly demanded. In this study, we used computed tomography (CT) to assess the post-mortem anatomical modifications occurring in the time interval 0–4 days after death in the brain of four corpses. Our results show that fractal analysis of CT brain slices provides a set of quantitative descriptors able to map post-mortem changes over time throughout the whole brain. Although incapable of producing a direct estimation of the PMI, these descriptors could be used in combination with other more established methods to improve the accuracy and reliability of PMI determination.

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Section: Methodsmentioning

confidence: 99%

Post mortem computed tomography meets radiomics: a case series on fractal analysis of post mortem changes in the brain

et al. 2022

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“…The FD can be calculated on tomographic slices segmented at various threshold levels using the box-counting method [33]. The box-counting method is a widely used method for conducting fractal analysis, which involves dividing an image into a grid of boxes and counting the number of boxes that contain some part of the object [34].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of the Mandibular Condyles Trabecular Structure in Patients with Severe Class III Pattern: A CT Fractal Analysis Study

Afzoon,

Hasani,

Ghorbani

2023

Preprint

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This study aimed to examine the morphological features of class III patients’ trabecular structure of the mandibular condyle in comparison with normal class I individuals. CT scans of 45 severe class III patients (age: 16–46) who were the candidates for orthogenetic surgery were selected and matched by age and sex with 45 normal class individuals. The trabecular bone structure of the left and right mandibular condyle in three CT planes (axial, sagittal, coronal) of the study group and control group were evaluated employing the fractal analysis. The result of the present study indicated that there were significant differences between the fractal dimensions (FD) values of class III patients and normal class I individuals in all three CT planes (axial, coronal, sagittal) (P < 0.001). There were no significant differences in FD values of males and females. The intra-group evaluation revealed that there was no correlation between age and FD values. No significant differences between the FD values of the left and right condyle were detected. The FD values of class III patients’ mandibular condyle were lower than those of typical class I individuals which indicated that these patients were more prone to DJD and TMD.

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“…Specifically, a 𝜇CT set-up may even use incoherent X-ray sources, by exploiting the absorption contrast between different materials. For this reason, 𝜇CT has conventionally found applications in fields where the absorption contrast is pretty high, such as biological images [32] material science [33], geophysics, geology [34,35], soil science [36], archaeology and cultural heritage [37,38]. When applied to fiber optics, absorption contrast 𝜇CT provides remarkable advantages when compared with optical tomography.…”

Section: Introductionmentioning

confidence: 99%

X-ray computed µ-tomography for the characterization of optical fibers

Ferraro

Crocco

Mangini

et al. 2022

Opt. Mater. Express

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In spite of their ubiquitous applications, the characterization of glass fibers by means of alloptical techniques is still facing some limitations. Recently, X-ray absorption has been proposed as a method for visualizing the inner structure of both standard and microstructure optical fibers. Here, we exploit X-ray absorption as nondestructive technique for the characterization of optical glass fibers. Starting from absorption contrast X-ray computed micro-tomography measurements, we obtain information about the spatial profile of the fiber refractive index at optical frequencies. We confirm the validity of our approach by comparing its results with complementary characterization techniques, based on electron spectroscopy or multiphoton microscopy.

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Fractal Dimension Analysis of High-Resolution X-Ray Phase Contrast Micro-Tomography Images at Different Threshold Levels in a Mouse Spinal Cord

Cited by 9 publications

References 39 publications

Post mortem computed tomography meets radiomics: a case series on fractal analysis of post mortem changes in the brain

Post mortem computed tomography meets radiomics: a case series on fractal analysis of post mortem changes in the brain

Evaluation of the Mandibular Condyles Trabecular Structure in Patients with Severe Class III Pattern: A CT Fractal Analysis Study

X-ray computed µ-tomography for the characterization of optical fibers

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