Volumetric Parameterization of the Placenta to a Flattened Template
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 h...
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| Main Authors | , , , , , |
|---|---|
| Format | Journal Article |
| Language | English |
| Published |
15.11.2021
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.48550/arxiv.2111.07900 |
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| Abstract | 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 . |
|---|---|
| AbstractList | 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 . |
| Author | Grant, P. Ellen Solomon, Justin Turk, Esra Abaci Bessmeltsev, Mikhail Abulnaga, S. Mazdak Golland, Polina |
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| BackLink | https://doi.org/10.48550/arXiv.2111.07900$$DView paper in arXiv |
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| Snippet | We present a volumetric mesh-based algorithm for parameterizing the placenta
to a flattened template to enable effective visualization of local anatomy and... |
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| Title | Volumetric Parameterization of the Placenta to a Flattened Template |
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