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Porazdeljeni globoki modeli za izločanje intrakranialnega žilja iz angiogramov
ID BURNIK, IZA (Author), ID Špiclin, Žiga (Mentor) More about this mentor... This link opens in a new window, ID Bizjak, Žiga (Comentor)

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Abstract
Anomalije intrakranialnega žilja in z njimi povezane bolezni vsako leto prizadenejo več milijonov ljudi. Natančno in zanesljivo izločanje in vizualizacija intrakranialnega žilja sta zato nujno potrebna v kliničnem okolju, saj pripomoreta k diagnozi bolezni, pregledu statusa in spremljanju poteka bolezni, in pripravi ter načrtovanju kirurških posegov. Z napredovanjem avtomatskih metod na osnovi strojnega učenja je postopek izločanja žilja manj časovno potraten in bolj natančen ter zanesljiv. V magistrski nalogi smo s konvolucijsko nevronsko mrežo U-Net in s pomočjo javno dostopne baze IXI, ki vsebuje 570 3D magnetno resonančnih angiografskih (MRA) slik, načrtovali avtomatski postopek izločanja žilja. Za potrebe vrednotenja avtomatskih postopkov smo ročno pripravili razgradnje intrakranialnega žilja, dodatno smo v približno 80 MRA slikah označili del žilja, ki predstavlja Willisov žilni krog. V eksperimentih smo objektivno in kvantitativno vrednotili in medsebojno primerjali zmogljivosti najsodobnejših postopkov za izločanje žilja. Predlagali smo lokalizirano učenje U-net modelov, vezano na Willisov žilni krog. Na tem področju zanimanja je pojavnost intrakranialnih anevrizem največja. Novi pristop izločanja intrakranialnega žilja kaže signifikantno boljše rezultate stopnje prekrivanja z Dice-Sorensenovim koeficientom (DSC) med referenčnimi ročno izločenimi in avtomatsko izločenimi žilji v primerjavi s trenutno uveljavljenimi postopki v znanstveni literaturi. Povprečne vrednosti DSC smo določili z navzkrižnim vrednotenjem na IXI bazi MRA slik. Maksimalna povprečna vrednost DSC je dosegla 0.9478, kar je glede na najboljši primerljiv rezultat v znanstveni literaturi več kot 1 % izboljšanje. Za namene nadaljnjih raziskav in vrednotenja postopkov izločanja žilja smo oblikovali tudi bazo podatkov imenovano IXI-Angio, ki vsebuje 570 referenčnih razgradenj intrakranialnega žilja MRA slik v bazi IXI.

Language:Slovenian
Keywords:izločanje intrakranialnega žilja, globoko učenje, Willisov krog, ročna referenčna razgradnja, objektivno vrednotenje
Work type:Master's thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2021
PID:20.500.12556/RUL-134194 This link opens in a new window
COBISS.SI-ID:83851523 This link opens in a new window
Publication date in RUL:28.12.2021
Views:1332
Downloads:99
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Secondary language

Language:English
Title:Stratified deep models for intracranial vessel segmentation from angiograms
Abstract:
Intracranial vascular abnormalities and related diseases affect millions of people each year. Accurate and reliable extraction and visualization of intracranial vessels are therefore essential in the clinical setting. Vessel extraction of segmentation may enhance the diagnosis of the disease, its status assessment and longitudinal monitoring, and surgery planning and preparation. With the advancement of automatic methods based on machine learning models, the process of vessel segmentation is less time-consuming and, at the same time, more accurate and reliable. In this thesis, we explored the field of vascular extraction with deep learning methods, such as the U-Net convolutional neural network and a publicly accessible IXI database, which contains 570 3D magnetic resonance angiography (MRA) scans. For evaluation purposes, we have manually segmented the intracranial vessels in these scans. Additionally, in about 80 scans the circle of the Willis region was annotated. In the experiments, we performed an objective and quantitative evaluation and cross-comparison of state-of-the-art vessel segmentation methods. We proposed a novel approach based on localized U-net model learning anchored to the circle of Willis since there is the highest incidence of intracranial aneurysms. According to the overlap between the reference and obtained automatically segmentations quantified using the Dice-Sorensen coefficient (DSC), the proposed approach to intracranial vascular segmentation shows significantly higher values compared to the current state-of-the-art approaches. The average DSC values were computed using cross validation and obtained a DSC of 0.9478, which exceeds the values of the state-of-the-art result by more than 1 %. For research purposes and further validation of vessel segmentation methods, we also prepared a database called IXI-Angio, which contains the 570 manually created reference segmentations of the intracranial vessels in MRA images of the IXI dataset.

Keywords:intracranial vessel extraction, deep learning, circle of Willis, manual reference segmentation, objective evaluation

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