Advancements in Micro-CT Image Analysis Framework for the MI-CT Repository

Bone is a metabolically active, rigid connective tissue that provides structural support, facilitates movement, and protects vital organs. To gain deeper insights into bone structure and function, micro-computed tomography (micro-CT) is a widely employed imaging technology. We have recently introduced the mi-CT image data repository, an open-access platform dedicated to biomedical images obtained from micro-CT scans within our research group (https://www.mi-ct.ethz.ch/). This repository aims to facilitate research by developing an efficient online image management system, making the data easily accessible. Achieving open access to these tools necessitates the creation of interfaces between the online platform and existing Python-based preprocessing software. This student project's primary objective is to improve the framework for the mi-CT repository, encompassing image processing and analysis pipelines. The development will leverage state-of-the-art tools and techniques to create interfaces connecting the mi-CT repository with implementing existing preprocessing and analysis pipelines, ensuring maximum efficiency and scalability.

Bone is a metabolically active, rigid connective tissue that provides structural support, facilitates movement, and protects vital organs. To gain deeper insights into bone structure and function, micro-computed tomography (micro-CT) is a widely employed imaging technology. We have recently introduced the mi-CT image data repository, an open-access platform dedicated to biomedical images obtained from micro-CT scans within our research group (https://www.mi-ct.ethz.ch/). This repository aims to facilitate research by developing an efficient online image management system, making the data easily accessible. Achieving open access to these tools necessitates the creation of interfaces between the online platform and existing Python-based preprocessing software.
This student project's primary objective is to improve the framework for the mi-CT repository, encompassing image processing and analysis pipelines. The development will leverage state-of-the-art tools and techniques to create interfaces connecting the mi-CT repository with implementing existing preprocessing and analysis pipelines, ensuring maximum efficiency and scalability.

This student project's primary objective is to improve the framework for the mi-CT repository, encompassing image processing and analysis pipelines. The development will leverage state-of-the-art tools and techniques to create interfaces connecting the mi-CT repository with implementing existing preprocessing and analysis pipelines, ensuring maximum efficiency and scalability. **What we expect:** • You have a Bachelor's or Master's degree in Bioinformatics, Data Science, Systems Biology, Physics, Mathematics, or any other relevant discipline • Strong knowledge and interest in image analysis, machine learning, data mining, statistics, and quantitative data analysis • Working knowledge in Python, Shell scripting, Javascript and Parallel computing) • Strong communication and writing skills, and ability to work in interdisciplinary group

This student project's primary objective is to improve the framework for the mi-CT repository, encompassing image processing and analysis pipelines. The development will leverage state-of-the-art tools and techniques to create interfaces connecting the mi-CT repository with implementing existing preprocessing and analysis pipelines, ensuring maximum efficiency and scalability.

**What we expect:**

• You have a Bachelor's or Master's degree in Bioinformatics, Data Science, Systems Biology, Physics, Mathematics, or any other relevant discipline

• Strong knowledge and interest in image analysis, machine learning, data mining, statistics, and quantitative data analysis

• Working knowledge in Python, Shell scripting, Javascript and Parallel computing)

• Strong communication and writing skills, and ability to work in interdisciplinary group

Contact details: Please email me for more detailed information about the project or reach out in person at Gloriastrasse-37/39, GLC-H 20.1, 8092 Zürich, Switzerland. Email: amit.singh@hest.ethz.ch LinkedIn: https://www.linkedin.com/in/amit-singh-63373417/ Published: Earliest start: 2023-9-25 , Latest end: 2024-03-31 Organization: Müller Group/Laboratory for Bone Biomechanics, Institute for Biomechanics, ETH, Zürich Hosts: Dr. Amit Singh

Contact details: Please email me for more detailed information about the project or reach out in person at Gloriastrasse-37/39, GLC-H 20.1, 8092 Zürich, Switzerland.

Email: amit.singh@hest.ethz.ch
LinkedIn: https://www.linkedin.com/in/amit-singh-63373417/

Published: Earliest start: 2023-9-25 , Latest end: 2024-03-31

Organization: Müller Group/Laboratory for Bone Biomechanics, Institute for Biomechanics, ETH, Zürich

Hosts: Dr. Amit Singh