Difference between revisions of "Publications/morel.16.embc"

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(Created page with "{{Publication | published = true | date = 2016-05-20 | authors = Baptiste Morel, Yongchao XU, Alessio Virzi, Thierry Géraud, Catherine Adamsbaum, Isabelle Bloch | title = A C...")
 
 
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| published = true
  
| published = true
 
| date = 2016-05-20
  
| date = 2016-05-20
| authors = Baptiste Morel, Yongchao XU, Alessio Virzi, Thierry Géraud, Catherine Adamsbaum, Isabelle Bloch
 +
| authors = Baptiste Morel, Yongchao Xu, Alessio Virzi, Thierry Géraud, Catherine Adamsbaum, Isabelle Bloch
 
| title = A Challenging Issue: Detection of White Matter Hyperintensities in Neonatal Brain MRI
  
| title = A Challenging Issue: Detection of White Matter Hyperintensities in Neonatal Brain MRI
| booktitle = 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society
 +
| booktitle = Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society
  +
| pages = 93 to 96
 
| address = Orlando, Florida, USA
  
| address = Orlando, Florida, USA
| abstract = The progress of magnetic resonance imaging (MRI) allows for a precise exploration of the brain of premature infants at term equivalent age. The so-called DEHSI (diffuse excessive high signal intensity) of the white matter of premature brains remains a challenging issue in terms of definition, and thus of interpretation. We propose a semi-automatic detection and quantification method of white matter hyperintensities in MRI relying on morphological operators and max-tree representationswhich constitutes a powerful tool to help radiologists to improve their interpretation. Results show better reproducibility and robustness than interactive segmentation.
 +
| abstract = The progress of magnetic resonance imaging (MRI) allows for a precise exploration of the brain of premature infants at term equivalent age. The so-called DEHSI (diffuse excessive high signal intensity) of the white matter of premature brains remains a challenging issue in terms of definition, and thus of interpretation. We propose a semi-automatic detection and quantification method of white matter hyperintensities in MRI relying on morphological operators and max-tree representations, which constitutes a powerful tool to help radiologists to improve their interpretation. Results show better reproducibility and robustness than interactive segmentation.
| note = To appear
  
 
| lrdekeywords = Image
  
| lrdekeywords = Image
 
| lrdepaper = https://www.lrde.epita.fr/dload/papers/morel.16.embc.pdf
  
| lrdepaper = https://www.lrde.epita.fr/dload/papers/morel.16.embc.pdf
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| type = inproceedings
  
| type = inproceedings
 
| id = morel.16.embc
  
| id = morel.16.embc
  +
| identifier = doi:10.1109/EMBC.2016.7590648
 
| bibtex =
 
| bibtex =
 
@InProceedings<nowiki>{</nowiki> morel.16.embc,
  
@InProceedings<nowiki>{</nowiki> morel.16.embc,
author = <nowiki>{</nowiki>Baptiste Morel and Yongchao XU and Alessio Virzi and
 +
author = <nowiki>{</nowiki>Baptiste Morel and Yongchao Xu and Alessio Virzi and
 
Thierry G\'eraud and Catherine Adamsbaum and Isabelle
  
Thierry G\'eraud and Catherine Adamsbaum and Isabelle
 
Bloch<nowiki>}</nowiki>,
  
Bloch<nowiki>}</nowiki>,
title = <nowiki>{</nowiki>A Challenging Issue: Detection of White Matter
 +
title = <nowiki>{</nowiki>A Challenging Issue: <nowiki>{</nowiki>D<nowiki>}</nowiki>etection of White Matter
 
Hyperintensities in Neonatal Brain <nowiki>{</nowiki>MRI<nowiki>}</nowiki><nowiki>}</nowiki>,
  
Hyperintensities in Neonatal Brain <nowiki>{</nowiki>MRI<nowiki>}</nowiki><nowiki>}</nowiki>,
booktitle = <nowiki>{</nowiki>38th Annual International Conference of the IEEE
 +
booktitle = <nowiki>{</nowiki>Proceedings of the Annual International Conference of the
Engineering in Medicine and Biology Society<nowiki>}</nowiki>,
 +
IEEE Engineering in Medicine and Biology Society<nowiki>}</nowiki>,
 
year = <nowiki>{</nowiki>2016<nowiki>}</nowiki>,
  
year = <nowiki>{</nowiki>2016<nowiki>}</nowiki>,
 
month = aug,
  
month = aug,
  +
pages = <nowiki>{</nowiki>93--96<nowiki>}</nowiki>,
 
address = <nowiki>{</nowiki>Orlando, Florida, USA<nowiki>}</nowiki>,
  
address = <nowiki>{</nowiki>Orlando, Florida, USA<nowiki>}</nowiki>,
 
abstract = <nowiki>{</nowiki>The progress of magnetic resonance imaging (MRI) allows
  
abstract = <nowiki>{</nowiki>The progress of magnetic resonance imaging (MRI) allows
Line 37: Line 39:
 
interpretation. Results show better reproducibility and
  
interpretation. Results show better reproducibility and
 
robustness than interactive segmentation.<nowiki>}</nowiki>,
  
robustness than interactive segmentation.<nowiki>}</nowiki>,
note = <nowiki>{</nowiki>To appear<nowiki>}</nowiki>
 +
doi = <nowiki>{</nowiki>10.1109/EMBC.2016.7590648<nowiki>}</nowiki>
 
<nowiki>}</nowiki>
  
<nowiki>}</nowiki>
   

Latest revision as of 17:01, 27 May 2021

Authors
Baptiste Morel, Yongchao Xu, Alessio Virzi, Thierry Géraud, Catherine Adamsbaum, Isabelle Bloch
Where
Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society
Place
Orlando, Florida, USA
Type
inproceedings
Keywords
Image
Date
2016-05-20

Abstract

The progress of magnetic resonance imaging (MRI) allows for a precise exploration of the brain of premature infants at term equivalent age. The so-called DEHSI (diffuse excessive high signal intensity) of the white matter of premature brains remains a challenging issue in terms of definition, and thus of interpretation. We propose a semi-automatic detection and quantification method of white matter hyperintensities in MRI relying on morphological operators and max-tree representations, which constitutes a powerful tool to help radiologists to improve their interpretation. Results show better reproducibility and robustness than interactive segmentation.

Documents

Bibtex (lrde.bib)

@InProceedings{	  morel.16.embc,
  author	= {Baptiste Morel and Yongchao Xu and Alessio Virzi and
		  Thierry G\'eraud and Catherine Adamsbaum and Isabelle
		  Bloch},
  title		= {A Challenging Issue: {D}etection of White Matter
		  Hyperintensities in Neonatal Brain {MRI}},
  booktitle	= {Proceedings of the Annual International Conference of the
		  IEEE Engineering in Medicine and Biology Society},
  year		= {2016},
  month		= aug,
  pages		= {93--96},
  address	= {Orlando, Florida, USA},
  abstract	= {The progress of magnetic resonance imaging (MRI) allows
		  for a precise exploration of the brain of premature infants
		  at term equivalent age. The so-called DEHSI (diffuse
		  excessive high signal intensity) of the white matter of
		  premature brains remains a challenging issue in terms of
		  definition, and thus of interpretation. We propose a
		  semi-automatic detection and quantification method of white
		  matter hyperintensities in MRI relying on morphological
		  operators and max-tree representations, which constitutes a
		  powerful tool to help radiologists to improve their
		  interpretation. Results show better reproducibility and
		  robustness than interactive segmentation.},
  doi		= {10.1109/EMBC.2016.7590648}
}





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