Laura Broască scite author profile

Laura Broască

5Publications

8Citation Statements Received

89Citation Statements Given

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Polytechnic University of Timişoara

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A Novel Method for Lung Image Processing Using Complex Networks

Broască¹,

Trușculescu²,

Ancusa³

et al. 2022

Preprint

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The High-Resolution Computed Tomography (HRCT) detection and diagnosis of diffuse lung disease is primarily based on the recognition of a limited number of specific abnormal findings, pattern combinations or their distributions, as well as anamnesis and clinical information. Since texture recognition has a very high accuracy percentage if a complex network approach is used, this paper aims to implement such a technique customized for diffuse interstitial lung diseases (DILD). The proposed procedure translates HRCT lung imaging into complex networks by taking samples containing a secondary lobule, converting them into complex networks and analyzing them in 3 dimensions: emphysema, ground glass opacity and consolidation. This method was evaluated on a 60 patient lot and the results show a clear quantifiable difference between healthy and affected lungs. By deconstructing the image on three pathological axes, the method offers an objective way to quantify DILD details which, so far, have only been analyzed subjectively.

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A Novel Method for Lung Image Processing Using Complex Networks

et al. 2022

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The High-Resolution Computed Tomography (HRCT) detection and diagnosis of diffuse lung disease is primarily based on the recognition of a limited number of specific abnormal findings, pattern combinations or their distributions, as well as anamnesis and clinical information. Since texture recognition has a very high accuracy percentage if a complex network approach is used, this paper aims to implement such a technique customized for diffuse interstitial lung diseases (DILD). The proposed procedure translates HRCT lung imaging into complex networks by taking samples containing a secondary lobule, converting them into complex networks and analyzing them in three dimensions: emphysema, ground glass opacity, and consolidation. This method was evaluated on a 60-patient lot and the results showed a clear, quantifiable difference between healthy and affected lungs. By deconstructing the image on three pathological axes, the method offers an objective way to quantify DILD details which, so far, have only been analyzed subjectively.

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A Qualitative Analysis on Force Directed Network Visualization Tools in the Context of Large Complex Networks

Broască

Ancusa

Ciocârlie

2019

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Enhancing Imagistic Interstitial Lung Disease Diagnosis by Using Complex Networks

et al. 2022

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Background and Objectives: Diffuse interstitial lung diseases (DILD) are a heterogeneous group of over 200 entities, some with dramatical evolution and poor prognostic. Because of their overlapping clinical, physiopathological and imagistic nature, successful management requires early detection and proper progression evaluation. This paper tests a complex networks (CN) algorithm for imagistic aided diagnosis fitness for the possibility of achieving relevant and novel DILD management data. Materials and Methods: 65 DILD and 31 normal high resolution computer tomography (HRCT) scans were selected and analyzed with the CN model. Results: The algorithm is showcased in two case reports and then statistical analysis on the entire lot shows that a CN algorithm quantifies progression evaluation with a very fine accuracy, surpassing functional parameters’ variations. The CN algorithm can also be successfully used for early detection, mainly on the ground glass opacity Hounsfield Units band of the scan. Conclusions: A CN based computer aided diagnosis could provide the much-required data needed to successfully manage DILDs.

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Towards a Hybrid Layout for Complex Networks Visualization

Broască

Ancusa

Ciocârlie

2020

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Laura Broască

A Novel Method for Lung Image Processing Using Complex Networks

A Novel Method for Lung Image Processing Using Complex Networks

A Qualitative Analysis on Force Directed Network Visualization Tools in the Context of Large Complex Networks

Enhancing Imagistic Interstitial Lung Disease Diagnosis by Using Complex Networks

Towards a Hybrid Layout for Complex Networks Visualization

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