Abulnaga, S. Mazdak scite author profile

Abulnaga, S. Mazdak

4Publications

0Citation Statements Received

117Citation Statements Given

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Automatic Segmentation of the Placenta in BOLD MRI Time Series

Mazdak¹,

Young²,

Hobgood³

et al. 2022

Preprint

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Blood oxygen level dependent (BOLD) MRI with maternal hyperoxia can assess oxygen transport within the placenta and has emerged as a promising tool to study placental function. Measuring signal changes over time requires segmenting the placenta in each volume of the time series. Due to the large number of volumes in the BOLD time series, existing studies rely on registration to map all volumes to a manually segmented template. As the placenta can undergo large deformation due to fetal motion, maternal motion, and contractions, this approach often results in a large number of discarded volumes, where the registration approach fails. In this work, we propose a machine learning model based on a U-Net neural network architecture to automatically segment the placenta in BOLD MRI and apply it to segmenting each volume in a time series. We use a boundary-weighted loss function to accurately capture the placental shape. Our model is trained and tested on a cohort of 91 subjects containing healthy fetuses, fetuses with fetal growth restriction, and mothers with high BMI. We achieve a Dice score of 0.83 ± 0.04 when matching with ground truth labels and our model performs reliably in segmenting volumes in both normoxic and hyperoxic points in the BOLD time series. Our code and trained model are available at https://github.com/mabulnaga/automatic-placenta-segmentation.

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Volumetric Parameterization of the Placenta to a Flattened Template

Mazdak¹,

Türk²,

Bessmeltsev³

et al. 2021

Preprint

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We present a volumetric mesh-based algorithm for parameterizing the placenta to a flattened template to enable effective visualization of local anatomy and function. MRI shows potential as a research tool as it provides signals directly related to placental function. However, due to the curved and highly variable in vivo shape of the placenta, interpreting and visualizing these images is difficult. We address interpretation challenges by mapping the placenta so that it resembles the familiar ex vivo shape. We formulate the parameterization as an optimization problem for mapping the placental shape represented by a volumetric mesh to a flattened template. We employ the symmetric Dirichlet energy to control local distortion throughout the volume. Local injectivity in the mapping is enforced by a constrained line search during the gradient descent optimization. We validate our method using a research study of 111 placental shapes extracted from BOLD MRI images. Our mapping achieves sub-voxel accuracy in matching the template while maintaining low distortion throughout the volume. We demonstrate how the resulting flattening of the placenta improves visualization of anatomy and function. Our code is freely available at https: //github.com/mabulnaga/placenta-flattening.

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Placental Flattening via Volumetric Parameterization

Mazdak¹,

Türk²,

Bessmeltsev³

et al. 2019

Preprint

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Automatic Segmentation of Twin Regions in Mo-Di Placentae Based on Geometric Analysis of Spatiotemporal BOLD MRI Signals

Shnitzer¹,

Mazdak²,

Bibbo³

et al.

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We propose an automatic segmentation method for delineating functional regions of the placenta responsible for each twin in Mo-Di placentae. The study of differences in MRI biomarkers between identical twins promises to elucidate placental function and fetal development. We combine temporal information from BOLD MRI time series and spatial information from the umbilical cord insertion in a flattened placenta representation. We demonstrate alignment of the automatic segmentation results with expert manual delineations and subsequent agreement of dynamic MRI signals in the identified regions with those derived from expert segmentations. Our method enables automatic localized analysis of the placenta.

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