Translations:Proyecto Hipertensión Pulmonar/6/en

2018-06-07T15:39:16Z

Guillermo: Página creada con «=== <big>Hipertensión Pulmonar</big> === <div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000"...»

=== <big>Hipertensión Pulmonar</big> ===
<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Pulmonary hypertension is a pathology characterized by a significant increase in blood pressure in the pulmonary arteries. Although its incidence in the population is low, its prognosis is usually poor, especially at the stages in which it is diagnosed. In addition, it is not infrequent for young people to be affected, with a higher incidence in women, and this has aroused the interest of the scientific community in the development of strategies to speed up diagnosis and improve predictability in the evolution of patients.
</div>

Proyecto Hipertensión Pulmonar/en

2018-06-07T15:39:16Z

<languages/>
<div class="mw-translate-fuzzy">
=== <big>Hipertensión Pulmonar</big> ===
<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Pulmonary hypertension is a pathology characterized by a significant increase in blood pressure in the pulmonary arteries. Although its incidence in the population is low, its prognosis is usually poor, especially at the stages in which it is diagnosed. In addition, it is not infrequent for young people to be affected, with a higher incidence in women, and this has aroused the interest of the scientific community in the development of strategies to speed up diagnosis and improve predictability in the evolution of patients.
</div>
</div>

<div class="mw-translate-fuzzy">
<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The starting point of this project is the work carried out at the Harvard Medical School in Boston –partner institution of the MACbioIDi project– by the researchers Raúl San José Estepar, Ph.D., and Jorge Onieva Onieva, M.Sc. in the context of Chronic Obstructive Pulmonary Disease. Their team has developed and integrated in 3D Slicer the Chest Imaging Platform (http://chestimagingplatform.org) which provides a whole set of tools for computed tomography image analysis, including modules for lung segmentation and vessel and airway reconstruction. It also helps to extract characteristics of the pulmonary vasculature (phenotyping).
</div>
</div>

=== <big>Summary</big> ===
<big>In search of new imaging biomarkers for pulmonary hypertension.</big>

=== <big>Hipertensión Pulmonar</big> ===
<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Pulmonary hypertension is a pathology characterized by a significant increase in blood pressure in the pulmonary arteries. Although its incidence in the population is low, its prognosis is usually poor, especially at the stages in which it is diagnosed. In addition, it is not infrequent for young people to be affected, with a higher incidence in women, and this has aroused the interest of the scientific community in the development of strategies to speed up diagnosis and improve predictability in the evolution of patients.
</div>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
El punto de partida de este proyecto es el trabajo realizado en la Harvard Medical School de Boston –entidad socia del proyecto MACbioIDi– por los investigadores Dr. Raúl San José Estepar y M.C. Jorge Onieva Onieva, en el contexto de la Enfermedad Pulmonar Obstructiva Crónica. Su equipo ha desarrollado e integrado en 3D Slicer la pltaforma CIP (Chest Imaging Platform - http://chestimagingplatform.org) que proporciona numerosas herramientas para el análisis de imágenes tomográficas, incluyendo módulos para la segmentación de pulmones y la reconstrucción de vasos y vías aéreas. Facilita igualmente la extracción de características (fenotipado) de la vasculatura pulmonar.
</div>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This new project, which focuses on pulmonary hypertension, is aimed at analysing its specific radiological manifestations, especially in computed tomography, in order to identify new biomarkers based on images. These indicators will be obtained from the phenotyping functions available in the IPC or versions of them adapted to the singularities of pulmonary hypertension. The new biomarkers are expected to aid in the diagnosis and prognosis of this pathology.
</div>

Translations:Proyecto Hipertensión Pulmonar/3/en

2018-06-07T15:38:16Z

Guillermo:

=== <big>Summary</big> ===
<big>In search of new imaging biomarkers for pulmonary hypertension.</big>

Proyecto Hipertensión Pulmonar/en

2018-06-07T15:38:16Z

Guillermo:

<languages/>
<div class="mw-translate-fuzzy">
=== <big>Hipertensión Pulmonar</big> ===
<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Pulmonary hypertension is a pathology characterized by a significant increase in blood pressure in the pulmonary arteries. Although its incidence in the population is low, its prognosis is usually poor, especially at the stages in which it is diagnosed. In addition, it is not infrequent for young people to be affected, with a higher incidence in women, and this has aroused the interest of the scientific community in the development of strategies to speed up diagnosis and improve predictability in the evolution of patients.
</div>
</div>

<div class="mw-translate-fuzzy">
<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The starting point of this project is the work carried out at the Harvard Medical School in Boston –partner institution of the MACbioIDi project– by the researchers Raúl San José Estepar, Ph.D., and Jorge Onieva Onieva, M.Sc. in the context of Chronic Obstructive Pulmonary Disease. Their team has developed and integrated in 3D Slicer the Chest Imaging Platform (http://chestimagingplatform.org) which provides a whole set of tools for computed tomography image analysis, including modules for lung segmentation and vessel and airway reconstruction. It also helps to extract characteristics of the pulmonary vasculature (phenotyping).
</div>
</div>

=== <big>Summary</big> ===
<big>In search of new imaging biomarkers for pulmonary hypertension.</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
La hipertensión pulmonar es una patología caracterizada por un aumento significativo en la presión sanguínea en las arterias pulmonares. Aunque su incidencia en la población es baja, su pronóstico suele ser malo, especialmente en los estadios en los que es diagnosticada. Esto, unido a que no es infrecuente que afecte a personas jóvenes (con mayor incidencia en mujeres), ha despertado el interés de la comunidad científica en el desarrollo de estrategias que agilicen el diagnóstico y mejoren la previsión en la evolución de los pacientes.
</div>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
El punto de partida de este proyecto es el trabajo realizado en la Harvard Medical School de Boston –entidad socia del proyecto MACbioIDi– por los investigadores Dr. Raúl San José Estepar y M.C. Jorge Onieva Onieva, en el contexto de la Enfermedad Pulmonar Obstructiva Crónica. Su equipo ha desarrollado e integrado en 3D Slicer la pltaforma CIP (Chest Imaging Platform - http://chestimagingplatform.org) que proporciona numerosas herramientas para el análisis de imágenes tomográficas, incluyendo módulos para la segmentación de pulmones y la reconstrucción de vasos y vías aéreas. Facilita igualmente la extracción de características (fenotipado) de la vasculatura pulmonar.
</div>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This new project, which focuses on pulmonary hypertension, is aimed at analysing its specific radiological manifestations, especially in computed tomography, in order to identify new biomarkers based on images. These indicators will be obtained from the phenotyping functions available in the IPC or versions of them adapted to the singularities of pulmonary hypertension. The new biomarkers are expected to aid in the diagnosis and prognosis of this pathology.
</div>

Translations:Proyecto Hipertensión Pulmonar/5/en

2018-06-07T15:34:00Z

Guillermo: Página creada con «<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000"> This new project, which focuses on pulmo...»

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This new project, which focuses on pulmonary hypertension, is aimed at analysing its specific radiological manifestations, especially in computed tomography, in order to identify new biomarkers based on images. These indicators will be obtained from the phenotyping functions available in the IPC or versions of them adapted to the singularities of pulmonary hypertension. The new biomarkers are expected to aid in the diagnosis and prognosis of this pathology.
</div>

2018-06-07T15:04:28Z

Guillermo: Página creada con «<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000"> Held on 22 and 23 March in Prague, Czech...»

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held on 22 and 23 March in Prague, Czech Republic. The MACbioIDi project has contributed to this multidisciplinary congress, in the area of training, with a work on the use of methodologies in the development of teaching content. (Engineering of E-Learning Content Creation: Case Study for African Countries).
</div>

Congresos 2018/en

2018-06-07T15:04:28Z

<languages />
=== <big>The 27th NA-MIC Project Week Workshop</big> ===

[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/ Project Week 27]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held from January 8 to 12 at MIT Boston (USA), the groups made up of researchers from the MACbioIDi research groups presented their projects at the 27th edition of the NA-MIC (National Alliance for Medical Imaging Computing) workshop.
</div>



[[Archivo:27PW 0.jpg|borde|850x210px|27 PW NA-MIC]]

===<big>Projects:</big>===

<big>Medical Infrared Imaging with Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This project is a research collaboration between the public research institute IACTEC and the University of Las Palmas de Gran Canarias (ULPGC) in order to use infrared (IR) sensors and advanced image processing technics in 3D Slicer for medical diagnosis, mainly for foot ulcers detection in diabetic patients. Different infrared cameras shall be connected to 3D Slicer using the PLUS toolkit and a new medical thermal infrared extension shall be developed.
</div>

<big>Integration of Medical Imaging Simulators in Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective of this project is the development of an ultrasound (US) simulation prototype based on CT images. Since the project is aimed to obtain simulated data that allow testing algorithms or that could be used for educational purpose. Besides these data, simulated US images come from a CT dataset with better quality that will facilitate the diagnosis. Eventually, this project will be integrated in an extension for Medical Imaging Simulators. This extension is intended to contain multiple modules to simulate images for medical purpose.
</div>

<big>Open Anatomy Browser</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective of this project is to develop the open anatomy browser as a training platform for a wide audience, including developing countries. Firstly, we plan its adaptation to different languages and study its functionality to import/export data in order to facilitate the communication between this platform and the 3D Slicer. We also will develop new tools to view the atlas and add new annotations to its structures.
</div>

<big>Affordable IGT Simulators with Slicer IGT + PLUS</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
In this project we aim at creating and integrating an Image Guided Therapy (IGT) ultrasound training system in 3D Slicer. Specifically, the main objective is the implementation of an affordable navigated ultrasound simulator based on ArUco low cost optical trackers. The ultrasound simulator already implemented in the PLUS Toolkit is used as reference and new geometrical models will be included.
</div>

<big>Slicer Ecosystems Education for Newcomers & Developing Countries</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective is the creation of a training plan that could be adapted for 3D Slicer new users with both: medical and engineer profiles. This plan should consider the needs and particular characteristics in the developing countries of Cape Verde, Senegal, Mauritania and Mozambique. In any case the training material should be oriented to the creation of digital learning objects.
</div>

=== <big>ICERI 2018</big> ===

ICERI 2018 : 20th International Conference on Education, Research and Innovation

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held on 22 and 23 March in Prague, Czech Republic. The MACbioIDi project has contributed to this multidisciplinary congress, in the area of training, with a work on the use of methodologies in the development of teaching content. (Engineering of E-Learning Content Creation: Case Study for African Countries).
</div>

[[Archivo:ICERI2018.jpg|500x200px|borde|centro|ICERI 2018]]

Translations:Congresos 2018/17/en

2018-06-07T15:03:28Z

Guillermo: Página creada con «ICERI 2018 : 20th International Conference on Education, Research and Innovation»

ICERI 2018 : 20th International Conference on Education, Research and Innovation

Congresos 2018/en

2018-06-07T15:03:28Z

Guillermo: Página creada con «ICERI 2018 : 20th International Conference on Education, Research and Innovation»

<languages />
=== <big>The 27th NA-MIC Project Week Workshop</big> ===

[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/ Project Week 27]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held from January 8 to 12 at MIT Boston (USA), the groups made up of researchers from the MACbioIDi research groups presented their projects at the 27th edition of the NA-MIC (National Alliance for Medical Imaging Computing) workshop.
</div>



[[Archivo:27PW 0.jpg|borde|850x210px|27 PW NA-MIC]]

===<big>Projects:</big>===

<big>Medical Infrared Imaging with Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This project is a research collaboration between the public research institute IACTEC and the University of Las Palmas de Gran Canarias (ULPGC) in order to use infrared (IR) sensors and advanced image processing technics in 3D Slicer for medical diagnosis, mainly for foot ulcers detection in diabetic patients. Different infrared cameras shall be connected to 3D Slicer using the PLUS toolkit and a new medical thermal infrared extension shall be developed.
</div>

<big>Integration of Medical Imaging Simulators in Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective of this project is the development of an ultrasound (US) simulation prototype based on CT images. Since the project is aimed to obtain simulated data that allow testing algorithms or that could be used for educational purpose. Besides these data, simulated US images come from a CT dataset with better quality that will facilitate the diagnosis. Eventually, this project will be integrated in an extension for Medical Imaging Simulators. This extension is intended to contain multiple modules to simulate images for medical purpose.
</div>

<big>Open Anatomy Browser</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective of this project is to develop the open anatomy browser as a training platform for a wide audience, including developing countries. Firstly, we plan its adaptation to different languages and study its functionality to import/export data in order to facilitate the communication between this platform and the 3D Slicer. We also will develop new tools to view the atlas and add new annotations to its structures.
</div>

<big>Affordable IGT Simulators with Slicer IGT + PLUS</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
In this project we aim at creating and integrating an Image Guided Therapy (IGT) ultrasound training system in 3D Slicer. Specifically, the main objective is the implementation of an affordable navigated ultrasound simulator based on ArUco low cost optical trackers. The ultrasound simulator already implemented in the PLUS Toolkit is used as reference and new geometrical models will be included.
</div>

<big>Slicer Ecosystems Education for Newcomers & Developing Countries</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective is the creation of a training plan that could be adapted for 3D Slicer new users with both: medical and engineer profiles. This plan should consider the needs and particular characteristics in the developing countries of Cape Verde, Senegal, Mauritania and Mozambique. In any case the training material should be oriented to the creation of digital learning objects.
</div>

=== <big>ICERI 2018</big> ===

ICERI 2018 : 20th International Conference on Education, Research and Innovation

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">Celebrado los días 22 y 23 de Marzo en Praga, Chequia. El proyecto MACbioIDi ha contribuido a este congreso multidisciplinar, en el área de formación, con un trabajo sobre el uso de metodologías en el desarrollo de contenidos docentes. ([https://waset.org/abstracts/85282 Engineering of E-Learning Content Creation: Case Study for African Countries])</div>

[[Archivo:ICERI2018.jpg|500x200px|borde|centro|ICERI 2018]]

Translations:Congresos 2018/16/en

2018-06-07T15:02:57Z

Guillermo: Página creada con «=== <big>ICERI 2018</big> ===»

=== <big>ICERI 2018</big> ===

Translations:Congresos 2018/15/en

2018-06-07T15:02:43Z

Guillermo: Página creada con «<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000"> The main objective is the creation of a...»

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective is the creation of a training plan that could be adapted for 3D Slicer new users with both: medical and engineer profiles. This plan should consider the needs and particular characteristics in the developing countries of Cape Verde, Senegal, Mauritania and Mozambique. In any case the training material should be oriented to the creation of digital learning objects.
</div>

Congresos 2018/en

2018-06-07T15:02:43Z

<languages />
=== <big>The 27th NA-MIC Project Week Workshop</big> ===

[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/ Project Week 27]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held from January 8 to 12 at MIT Boston (USA), the groups made up of researchers from the MACbioIDi research groups presented their projects at the 27th edition of the NA-MIC (National Alliance for Medical Imaging Computing) workshop.
</div>



[[Archivo:27PW 0.jpg|borde|850x210px|27 PW NA-MIC]]

===<big>Projects:</big>===

<big>Medical Infrared Imaging with Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This project is a research collaboration between the public research institute IACTEC and the University of Las Palmas de Gran Canarias (ULPGC) in order to use infrared (IR) sensors and advanced image processing technics in 3D Slicer for medical diagnosis, mainly for foot ulcers detection in diabetic patients. Different infrared cameras shall be connected to 3D Slicer using the PLUS toolkit and a new medical thermal infrared extension shall be developed.
</div>

<big>Integration of Medical Imaging Simulators in Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective of this project is the development of an ultrasound (US) simulation prototype based on CT images. Since the project is aimed to obtain simulated data that allow testing algorithms or that could be used for educational purpose. Besides these data, simulated US images come from a CT dataset with better quality that will facilitate the diagnosis. Eventually, this project will be integrated in an extension for Medical Imaging Simulators. This extension is intended to contain multiple modules to simulate images for medical purpose.
</div>

<big>Open Anatomy Browser</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective of this project is to develop the open anatomy browser as a training platform for a wide audience, including developing countries. Firstly, we plan its adaptation to different languages and study its functionality to import/export data in order to facilitate the communication between this platform and the 3D Slicer. We also will develop new tools to view the atlas and add new annotations to its structures.
</div>

<big>Affordable IGT Simulators with Slicer IGT + PLUS</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
In this project we aim at creating and integrating an Image Guided Therapy (IGT) ultrasound training system in 3D Slicer. Specifically, the main objective is the implementation of an affordable navigated ultrasound simulator based on ArUco low cost optical trackers. The ultrasound simulator already implemented in the PLUS Toolkit is used as reference and new geometrical models will be included.
</div>

<big>Slicer Ecosystems Education for Newcomers & Developing Countries</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective is the creation of a training plan that could be adapted for 3D Slicer new users with both: medical and engineer profiles. This plan should consider the needs and particular characteristics in the developing countries of Cape Verde, Senegal, Mauritania and Mozambique. In any case the training material should be oriented to the creation of digital learning objects.
</div>

=== <big>ICERI 2018</big> ===

[https://waset.org/conference/2018/03/prague/ICERI/home ICERI 2018 : 20th International Conference on Education, Research and Innovation]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">Celebrado los días 22 y 23 de Marzo en Praga, Chequia. El proyecto MACbioIDi ha contribuido a este congreso multidisciplinar, en el área de formación, con un trabajo sobre el uso de metodologías en el desarrollo de contenidos docentes. ([https://waset.org/abstracts/85282 Engineering of E-Learning Content Creation: Case Study for African Countries])</div>

[[Archivo:ICERI2018.jpg|500x200px|borde|centro|ICERI 2018]]

Translations:Congresos 2018/14/en

2018-06-07T15:02:09Z

Guillermo: Página creada con «<big>Slicer Ecosystems Education for Newcomers & Developing Countries</big>»

<big>Slicer Ecosystems Education for Newcomers & Developing Countries</big>

Congresos 2018/en

2018-06-07T15:02:09Z

Guillermo: Página creada con «<big>Slicer Ecosystems Education for Newcomers & Developing Countries</big>»

<languages />
=== <big>The 27th NA-MIC Project Week Workshop</big> ===

[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/ Project Week 27]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held from January 8 to 12 at MIT Boston (USA), the groups made up of researchers from the MACbioIDi research groups presented their projects at the 27th edition of the NA-MIC (National Alliance for Medical Imaging Computing) workshop.
</div>



[[Archivo:27PW 0.jpg|borde|850x210px|27 PW NA-MIC]]

===<big>Projects:</big>===

<big>Medical Infrared Imaging with Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This project is a research collaboration between the public research institute IACTEC and the University of Las Palmas de Gran Canarias (ULPGC) in order to use infrared (IR) sensors and advanced image processing technics in 3D Slicer for medical diagnosis, mainly for foot ulcers detection in diabetic patients. Different infrared cameras shall be connected to 3D Slicer using the PLUS toolkit and a new medical thermal infrared extension shall be developed.
</div>

<big>Integration of Medical Imaging Simulators in Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective of this project is the development of an ultrasound (US) simulation prototype based on CT images. Since the project is aimed to obtain simulated data that allow testing algorithms or that could be used for educational purpose. Besides these data, simulated US images come from a CT dataset with better quality that will facilitate the diagnosis. Eventually, this project will be integrated in an extension for Medical Imaging Simulators. This extension is intended to contain multiple modules to simulate images for medical purpose.
</div>

<big>Open Anatomy Browser</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
The main objective of this project is to develop the open anatomy browser as a training platform for a wide audience, including developing countries. Firstly, we plan its adaptation to different languages and study its functionality to import/export data in order to facilitate the communication between this platform and the 3D Slicer. We also will develop new tools to view the atlas and add new annotations to its structures.
</div>

<big>Affordable IGT Simulators with Slicer IGT + PLUS</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
In this project we aim at creating and integrating an Image Guided Therapy (IGT) ultrasound training system in 3D Slicer. Specifically, the main objective is the implementation of an affordable navigated ultrasound simulator based on ArUco low cost optical trackers. The ultrasound simulator already implemented in the PLUS Toolkit is used as reference and new geometrical models will be included.
</div>

<big>Slicer Ecosystems Education for Newcomers & Developing Countries</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es la creación de un plan de formación que pueda adaptarse a nuevos usuarios de 3DSlicer. Enfocado a profesionales de las áreas de ciencias de la salud y la ingeniería, la planificación debe considerar las necesidades y características particulares en los países en desarrollo de Cabo Verde, Senegal y Mauritania y Mozambique.
El material utilizado en las acciones de formación estará orientado a la creación de objetos de aprendizaje digitales.</div>

=== <big>ICERI 2018</big> ===

[https://waset.org/conference/2018/03/prague/ICERI/home ICERI 2018 : 20th International Conference on Education, Research and Innovation]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">Celebrado los días 22 y 23 de Marzo en Praga, Chequia. El proyecto MACbioIDi ha contribuido a este congreso multidisciplinar, en el área de formación, con un trabajo sobre el uso de metodologías en el desarrollo de contenidos docentes. ([https://waset.org/abstracts/85282 Engineering of E-Learning Content Creation: Case Study for African Countries])</div>

[[Archivo:ICERI2018.jpg|500x200px|borde|centro|ICERI 2018]]

Translations:Congresos 2018/13/en

2018-06-07T15:01:54Z

Guillermo: Página creada con «<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000"> In this project we aim at creating and i...»

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
In this project we aim at creating and integrating an Image Guided Therapy (IGT) ultrasound training system in 3D Slicer. Specifically, the main objective is the implementation of an affordable navigated ultrasound simulator based on ArUco low cost optical trackers. The ultrasound simulator already implemented in the PLUS Toolkit is used as reference and new geometrical models will be included.
</div>

2018-06-07T14:50:51Z

<languages />
=== <big>The 27th NA-MIC Project Week Workshop</big> ===

[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/ Project Week 27]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held from January 8 to 12 at MIT Boston (USA), the groups made up of researchers from the MACbioIDi research groups presented their projects at the 27th edition of the NA-MIC (National Alliance for Medical Imaging Computing) workshop.
</div>



[[Archivo:27PW 0.jpg|borde|850x210px|27 PW NA-MIC]]

===<big>Projects:</big>===

<big>Medical Infrared Imaging with Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This project is a research collaboration between the public research institute IACTEC and the University of Las Palmas de Gran Canarias (ULPGC) in order to use infrared (IR) sensors and advanced image processing technics in 3D Slicer for medical diagnosis, mainly for foot ulcers detection in diabetic patients. Different infrared cameras shall be connected to 3D Slicer using the PLUS toolkit and a new medical thermal infrared extension shall be developed.
</div>

<big>Integration of Medical Imaging Simulators in Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
</div>
The main objective of this project is the development of an ultrasound (US) simulation prototype based on CT images. Since the project is aimed to obtain simulated data that allow testing algorithms or that could be used for educational purpose. Besides these data, simulated US images come from a CT dataset with better quality that will facilitate the diagnosis. Eventually, this project will be integrated in an extension for Medical Imaging Simulators. This extension is intended to contain multiple modules to simulate images for medical purpose.

<big>Open Anatomy Browser</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
</div>
The main objective of this project is to develop the open anatomy browser as a training platform for a wide audience, including developing countries. Firstly, we plan its adaptation to different languages and study its functionality to import/export data in order to facilitate the communication between this platform and the 3D Slicer. We also will develop new tools to view the atlas and add new annotations to its structures.

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/AffordableIGTSimulatorsWithSlicerIGTAndPLUS/ Affordable IGT Simulators with Slicer IGT + PLUS]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">En este proyecto, nuestro objetivo es crear e integrar un sistema de entrenamiento por ultrasonido con terapia guiada por imágenes (IGT) en 3D Slicer. Específicamente, el objetivo principal es la implementación de un simulador de ultrasonido de coste asequible, basado en los trackers ópticos de bajo costo de ArUco. El simulador de ultrasonido ya implementado en PLUS Toolkit se utiliza como referencia y se incluirán nuevos modelos geométricos.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/SlicerTraining/ Slicer Ecosystems Education for Newcomers & Developing Countries]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es la creación de un plan de formación que pueda adaptarse a nuevos usuarios de 3DSlicer. Enfocado a profesionales de las áreas de ciencias de la salud y la ingeniería, la planificación debe considerar las necesidades y características particulares en los países en desarrollo de Cabo Verde, Senegal y Mauritania y Mozambique.
El material utilizado en las acciones de formación estará orientado a la creación de objetos de aprendizaje digitales.</div>

=== <big>ICERI 2018</big> ===

[https://waset.org/conference/2018/03/prague/ICERI/home ICERI 2018 : 20th International Conference on Education, Research and Innovation]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">Celebrado los días 22 y 23 de Marzo en Praga, Chequia. El proyecto MACbioIDi ha contribuido a este congreso multidisciplinar, en el área de formación, con un trabajo sobre el uso de metodologías en el desarrollo de contenidos docentes. ([https://waset.org/abstracts/85282 Engineering of E-Learning Content Creation: Case Study for African Countries])</div>

[[Archivo:ICERI2018.jpg|500x200px|borde|centro|ICERI 2018]]

Translations:Congresos 2018/10/en

2018-06-07T14:50:17Z

Guillermo: Página creada con «<big>Open Anatomy Browser</big>»

<big>Open Anatomy Browser</big>

Congresos 2018/en

2018-06-07T14:50:17Z

Guillermo: Página creada con «<big>Open Anatomy Browser</big>»

<languages />
=== <big>The 27th NA-MIC Project Week Workshop</big> ===

[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/ Project Week 27]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held from January 8 to 12 at MIT Boston (USA), the groups made up of researchers from the MACbioIDi research groups presented their projects at the 27th edition of the NA-MIC (National Alliance for Medical Imaging Computing) workshop.
</div>



[[Archivo:27PW 0.jpg|borde|850x210px|27 PW NA-MIC]]

===<big>Projects:</big>===

<big>Medical Infrared Imaging with Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This project is a research collaboration between the public research institute IACTEC and the University of Las Palmas de Gran Canarias (ULPGC) in order to use infrared (IR) sensors and advanced image processing technics in 3D Slicer for medical diagnosis, mainly for foot ulcers detection in diabetic patients. Different infrared cameras shall be connected to 3D Slicer using the PLUS toolkit and a new medical thermal infrared extension shall be developed.
</div>

<big>Integration of Medical Imaging Simulators in Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
</div>
The main objective of this project is the development of an ultrasound (US) simulation prototype based on CT images. Since the project is aimed to obtain simulated data that allow testing algorithms or that could be used for educational purpose. Besides these data, simulated US images come from a CT dataset with better quality that will facilitate the diagnosis. Eventually, this project will be integrated in an extension for Medical Imaging Simulators. This extension is intended to contain multiple modules to simulate images for medical purpose.

<big>Open Anatomy Browser</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es desarrollar la aplicación OpenAnatomy Browser como una plataforma de capacitación para una amplio número de usuarios, incluyendo países en desarrollo. En primer lugar, se establecerá su adaptación a diferentes idiomas y se estudiará su funcionalidad para importar/exportar datos a fin de facilitar la comunicación entre esta plataforma y la aplicación 3DSlicer. También desarrollaremos nuevas herramientas para ver el atlas y agregar nuevas anotaciones a sus estructuras.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/AffordableIGTSimulatorsWithSlicerIGTAndPLUS/ Affordable IGT Simulators with Slicer IGT + PLUS]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">En este proyecto, nuestro objetivo es crear e integrar un sistema de entrenamiento por ultrasonido con terapia guiada por imágenes (IGT) en 3D Slicer. Específicamente, el objetivo principal es la implementación de un simulador de ultrasonido de coste asequible, basado en los trackers ópticos de bajo costo de ArUco. El simulador de ultrasonido ya implementado en PLUS Toolkit se utiliza como referencia y se incluirán nuevos modelos geométricos.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/SlicerTraining/ Slicer Ecosystems Education for Newcomers & Developing Countries]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es la creación de un plan de formación que pueda adaptarse a nuevos usuarios de 3DSlicer. Enfocado a profesionales de las áreas de ciencias de la salud y la ingeniería, la planificación debe considerar las necesidades y características particulares en los países en desarrollo de Cabo Verde, Senegal y Mauritania y Mozambique.
El material utilizado en las acciones de formación estará orientado a la creación de objetos de aprendizaje digitales.</div>

=== <big>ICERI 2018</big> ===

[https://waset.org/conference/2018/03/prague/ICERI/home ICERI 2018 : 20th International Conference on Education, Research and Innovation]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">Celebrado los días 22 y 23 de Marzo en Praga, Chequia. El proyecto MACbioIDi ha contribuido a este congreso multidisciplinar, en el área de formación, con un trabajo sobre el uso de metodologías en el desarrollo de contenidos docentes. ([https://waset.org/abstracts/85282 Engineering of E-Learning Content Creation: Case Study for African Countries])</div>

[[Archivo:ICERI2018.jpg|500x200px|borde|centro|ICERI 2018]]

Translations:Congresos 2018/9/en

2018-06-07T14:50:00Z

Congresos 2018/en

2018-06-07T14:50:00Z

<languages />
=== <big>The 27th NA-MIC Project Week Workshop</big> ===

[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/ Project Week 27]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held from January 8 to 12 at MIT Boston (USA), the groups made up of researchers from the MACbioIDi research groups presented their projects at the 27th edition of the NA-MIC (National Alliance for Medical Imaging Computing) workshop.
</div>



[[Archivo:27PW 0.jpg|borde|850x210px|27 PW NA-MIC]]

===<big>Projects:</big>===

<big>Medical Infrared Imaging with Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This project is a research collaboration between the public research institute IACTEC and the University of Las Palmas de Gran Canarias (ULPGC) in order to use infrared (IR) sensors and advanced image processing technics in 3D Slicer for medical diagnosis, mainly for foot ulcers detection in diabetic patients. Different infrared cameras shall be connected to 3D Slicer using the PLUS toolkit and a new medical thermal infrared extension shall be developed.
</div>

<big>Integration of Medical Imaging Simulators in Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
</div>
The main objective of this project is the development of an ultrasound (US) simulation prototype based on CT images. Since the project is aimed to obtain simulated data that allow testing algorithms or that could be used for educational purpose. Besides these data, simulated US images come from a CT dataset with better quality that will facilitate the diagnosis. Eventually, this project will be integrated in an extension for Medical Imaging Simulators. This extension is intended to contain multiple modules to simulate images for medical purpose.

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/OpenAnatomyBrowser/ Open Anatomy Browser]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es desarrollar la aplicación OpenAnatomy Browser como una plataforma de capacitación para una amplio número de usuarios, incluyendo países en desarrollo. En primer lugar, se establecerá su adaptación a diferentes idiomas y se estudiará su funcionalidad para importar/exportar datos a fin de facilitar la comunicación entre esta plataforma y la aplicación 3DSlicer. También desarrollaremos nuevas herramientas para ver el atlas y agregar nuevas anotaciones a sus estructuras.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/AffordableIGTSimulatorsWithSlicerIGTAndPLUS/ Affordable IGT Simulators with Slicer IGT + PLUS]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">En este proyecto, nuestro objetivo es crear e integrar un sistema de entrenamiento por ultrasonido con terapia guiada por imágenes (IGT) en 3D Slicer. Específicamente, el objetivo principal es la implementación de un simulador de ultrasonido de coste asequible, basado en los trackers ópticos de bajo costo de ArUco. El simulador de ultrasonido ya implementado en PLUS Toolkit se utiliza como referencia y se incluirán nuevos modelos geométricos.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/SlicerTraining/ Slicer Ecosystems Education for Newcomers & Developing Countries]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es la creación de un plan de formación que pueda adaptarse a nuevos usuarios de 3DSlicer. Enfocado a profesionales de las áreas de ciencias de la salud y la ingeniería, la planificación debe considerar las necesidades y características particulares en los países en desarrollo de Cabo Verde, Senegal y Mauritania y Mozambique.
El material utilizado en las acciones de formación estará orientado a la creación de objetos de aprendizaje digitales.</div>

=== <big>ICERI 2018</big> ===

[https://waset.org/conference/2018/03/prague/ICERI/home ICERI 2018 : 20th International Conference on Education, Research and Innovation]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">Celebrado los días 22 y 23 de Marzo en Praga, Chequia. El proyecto MACbioIDi ha contribuido a este congreso multidisciplinar, en el área de formación, con un trabajo sobre el uso de metodologías en el desarrollo de contenidos docentes. ([https://waset.org/abstracts/85282 Engineering of E-Learning Content Creation: Case Study for African Countries])</div>

[[Archivo:ICERI2018.jpg|500x200px|borde|centro|ICERI 2018]]

Translations:Congresos 2018/1/en

2018-06-07T14:48:05Z

Guillermo:

=== <big>The 27th NA-MIC Project Week Workshop</big> ===

Congresos 2018/en

2018-06-07T14:48:05Z

Guillermo:

<languages />
=== <big>The 27th NA-MIC Project Week Workshop</big> ===

[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/ Project Week 27]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held from January 8 to 12 at MIT Boston (USA), the groups made up of researchers from the MACbioIDi research groups presented their projects at the 27th edition of the NA-MIC (National Alliance for Medical Imaging Computing) workshop.
</div>



[[Archivo:27PW 0.jpg|borde|850x210px|27 PW NA-MIC]]

===<big>Projects:</big>===

<big>Medical Infrared Imaging with Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This project is a research collaboration between the public research institute IACTEC and the University of Las Palmas de Gran Canarias (ULPGC) in order to use infrared (IR) sensors and advanced image processing technics in 3D Slicer for medical diagnosis, mainly for foot ulcers detection in diabetic patients. Different infrared cameras shall be connected to 3D Slicer using the PLUS toolkit and a new medical thermal infrared extension shall be developed.
</div>

<big>Integration of Medical Imaging Simulators in Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es el desarrollo de un prototipo de simulación de ultrasonido (US) Basado en imágenes de CT. El proyecto está destinado a obtener datos objetivos simulados que permitan probar algoritmos o que puedan ser utilizados con fines educativos. Además de estos datos, las imágenes simuladas de US provienen de un conjunto de datos CT con una mejor calidad que facilitará el diagnóstico. Finalmente, este proyecto se integrará en una extensión para simuladores de imágenes médicas destinada a contener múltiples módulos para el tratamiento de imágenes con fines médicos.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/OpenAnatomyBrowser/ Open Anatomy Browser]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es desarrollar la aplicación OpenAnatomy Browser como una plataforma de capacitación para una amplio número de usuarios, incluyendo países en desarrollo. En primer lugar, se establecerá su adaptación a diferentes idiomas y se estudiará su funcionalidad para importar/exportar datos a fin de facilitar la comunicación entre esta plataforma y la aplicación 3DSlicer. También desarrollaremos nuevas herramientas para ver el atlas y agregar nuevas anotaciones a sus estructuras.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/AffordableIGTSimulatorsWithSlicerIGTAndPLUS/ Affordable IGT Simulators with Slicer IGT + PLUS]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">En este proyecto, nuestro objetivo es crear e integrar un sistema de entrenamiento por ultrasonido con terapia guiada por imágenes (IGT) en 3D Slicer. Específicamente, el objetivo principal es la implementación de un simulador de ultrasonido de coste asequible, basado en los trackers ópticos de bajo costo de ArUco. El simulador de ultrasonido ya implementado en PLUS Toolkit se utiliza como referencia y se incluirán nuevos modelos geométricos.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/SlicerTraining/ Slicer Ecosystems Education for Newcomers & Developing Countries]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es la creación de un plan de formación que pueda adaptarse a nuevos usuarios de 3DSlicer. Enfocado a profesionales de las áreas de ciencias de la salud y la ingeniería, la planificación debe considerar las necesidades y características particulares en los países en desarrollo de Cabo Verde, Senegal y Mauritania y Mozambique.
El material utilizado en las acciones de formación estará orientado a la creación de objetos de aprendizaje digitales.</div>

=== <big>ICERI 2018</big> ===

[https://waset.org/conference/2018/03/prague/ICERI/home ICERI 2018 : 20th International Conference on Education, Research and Innovation]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">Celebrado los días 22 y 23 de Marzo en Praga, Chequia. El proyecto MACbioIDi ha contribuido a este congreso multidisciplinar, en el área de formación, con un trabajo sobre el uso de metodologías en el desarrollo de contenidos docentes. ([https://waset.org/abstracts/85282 Engineering of E-Learning Content Creation: Case Study for African Countries])</div>

[[Archivo:ICERI2018.jpg|500x200px|borde|centro|ICERI 2018]]

Translations:Congresos 2018/8/en

2018-06-07T14:47:11Z

Guillermo: Página creada con «<big>Integration of Medical Imaging Simulators in Slicer</big>»

<big>Integration of Medical Imaging Simulators in Slicer</big>

Congresos 2018/en

2018-06-07T14:47:11Z

Guillermo: Página creada con «<big>Integration of Medical Imaging Simulators in Slicer</big>»

<languages />
The 27th NA-MIC Project Week Workshop

[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/ Project Week 27]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
Held from January 8 to 12 at MIT Boston (USA), the groups made up of researchers from the MACbioIDi research groups presented their projects at the 27th edition of the NA-MIC (National Alliance for Medical Imaging Computing) workshop.
</div>



[[Archivo:27PW 0.jpg|borde|850x210px|27 PW NA-MIC]]

===<big>Projects:</big>===

<big>Medical Infrared Imaging with Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">
This project is a research collaboration between the public research institute IACTEC and the University of Las Palmas de Gran Canarias (ULPGC) in order to use infrared (IR) sensors and advanced image processing technics in 3D Slicer for medical diagnosis, mainly for foot ulcers detection in diabetic patients. Different infrared cameras shall be connected to 3D Slicer using the PLUS toolkit and a new medical thermal infrared extension shall be developed.
</div>

<big>Integration of Medical Imaging Simulators in Slicer</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es el desarrollo de un prototipo de simulación de ultrasonido (US) Basado en imágenes de CT. El proyecto está destinado a obtener datos objetivos simulados que permitan probar algoritmos o que puedan ser utilizados con fines educativos. Además de estos datos, las imágenes simuladas de US provienen de un conjunto de datos CT con una mejor calidad que facilitará el diagnóstico. Finalmente, este proyecto se integrará en una extensión para simuladores de imágenes médicas destinada a contener múltiples módulos para el tratamiento de imágenes con fines médicos.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/OpenAnatomyBrowser/ Open Anatomy Browser]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es desarrollar la aplicación OpenAnatomy Browser como una plataforma de capacitación para una amplio número de usuarios, incluyendo países en desarrollo. En primer lugar, se establecerá su adaptación a diferentes idiomas y se estudiará su funcionalidad para importar/exportar datos a fin de facilitar la comunicación entre esta plataforma y la aplicación 3DSlicer. También desarrollaremos nuevas herramientas para ver el atlas y agregar nuevas anotaciones a sus estructuras.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/AffordableIGTSimulatorsWithSlicerIGTAndPLUS/ Affordable IGT Simulators with Slicer IGT + PLUS]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">En este proyecto, nuestro objetivo es crear e integrar un sistema de entrenamiento por ultrasonido con terapia guiada por imágenes (IGT) en 3D Slicer. Específicamente, el objetivo principal es la implementación de un simulador de ultrasonido de coste asequible, basado en los trackers ópticos de bajo costo de ArUco. El simulador de ultrasonido ya implementado en PLUS Toolkit se utiliza como referencia y se incluirán nuevos modelos geométricos.</div>

<big>[https://na-mic.github.io/ProjectWeek/PW27_2018_Boston/Projects/SlicerTraining/ Slicer Ecosystems Education for Newcomers & Developing Countries]</big>

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">El objetivo principal de este proyecto es la creación de un plan de formación que pueda adaptarse a nuevos usuarios de 3DSlicer. Enfocado a profesionales de las áreas de ciencias de la salud y la ingeniería, la planificación debe considerar las necesidades y características particulares en los países en desarrollo de Cabo Verde, Senegal y Mauritania y Mozambique.
El material utilizado en las acciones de formación estará orientado a la creación de objetos de aprendizaje digitales.</div>

=== <big>ICERI 2018</big> ===

[https://waset.org/conference/2018/03/prague/ICERI/home ICERI 2018 : 20th International Conference on Education, Research and Innovation]

<div style="border:none; margin-left: 2em; margin-right: 5em; text-align: justify; padding-left:5px; text-indent: 3%; color:#000">Celebrado los días 22 y 23 de Marzo en Praga, Chequia. El proyecto MACbioIDi ha contribuido a este congreso multidisciplinar, en el área de formación, con un trabajo sobre el uso de metodologías en el desarrollo de contenidos docentes. ([https://waset.org/abstracts/85282 Engineering of E-Learning Content Creation: Case Study for African Countries])</div>

[[Archivo:ICERI2018.jpg|500x200px|borde|centro|ICERI 2018]]