Revisiting diaphragmatic hernia of Joseon period Korean mummy by three-dimensional liver and heart segmentation and model reconstruction

A three-dimensional (3D) segmentation and model reconstruction is a specialized tool to reveal spatial interrelationship between multiple internal organs by generating images without overlapping structures. This technique can also be applicable to mummy studies, but related reports have so far been...

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Published in:Anatomy & cell biology 2022-12, Vol.55 (4), p.507-511
Main Authors: Koh, Ensung, Lee, Da Yeong, Yoo, Dongsoo, Kim, Myeung Ju, Lee, In Sun, Hong, Jong Ha, Park, Sang Joon, Kim, Jieun, Cha, Soon Chul, Lee, Hyejin, Oh, Chang Seok, Shin, Dong Hoon
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container_issue 4
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container_title Anatomy & cell biology
container_volume 55
creator Koh, Ensung
Lee, Da Yeong
Yoo, Dongsoo
Kim, Myeung Ju
Lee, In Sun
Hong, Jong Ha
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Kim, Jieun
Cha, Soon Chul
Lee, Hyejin
Oh, Chang Seok
Shin, Dong Hoon
description A three-dimensional (3D) segmentation and model reconstruction is a specialized tool to reveal spatial interrelationship between multiple internal organs by generating images without overlapping structures. This technique can also be applicable to mummy studies, but related reports have so far been very rare. In this study, we applied 3D segmentation and model reconstruction to computed tomography images of a Korean mummy with congenital diaphragmatic hernia. As originally revealed by the autopsy in 2013, the current 3D reconstruction reveals that the mummy's heart is shifted to the left due to the liver pushing up to thoracic cavity thorough diaphragmatic hernial defect. We can generate 3D images by calling up the data exclusively from mummy's target organs, thus minimizing the confusion of diagnosis that could be caused by overlapping organs.
doi_str_mv 10.5115/acb.22.092
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title Revisiting diaphragmatic hernia of Joseon period Korean mummy by three-dimensional liver and heart segmentation and model reconstruction
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