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Track axon structures with the help of this tool. AxonTracker 3D software tool was developed by the Center for Bioengineering and Informatics(CBI) at the Methodist Hospital Research Institute in collaboration with Lichtman Group at Department of Molecular and Cellular Biology, Harvard University. The software is useful to semi-automatically track and label axon structures from the motor axon connectome datasets. It is a parameter-free software, and hence can be used over a broad range of datasets.
The software is designed with ease of use in mind. The interface is simple and includes a 3D visualization of the dataset along with a real-time overlay of the tracking results. A 2D view of the dataset is also provided in order to interact with the software. Three orthogonal views are provided with a provision for back-tracking the results. Points can be added/deleted from the tracking results to provide guidance in case of an error.
The license of this software is Freeware, you can free download and free use this 3d graphic software.
This course explores the revolutionary field of CAR T-cell therapy, a rapidly evolving approach in cancer treatment. We will delve into the fundamental concepts of CAR T-cell engineering, its therapeutic potential, and the ongoing advancements in this exciting area.
Course Objectives:
- Gain a comprehensive understanding of the immune system's role in anti-tumor immunity.
- Explore the principles behind Chimeric Antigen Receptor (CAR) T-cell engineering.
- Analyze the manufacturing process and pre-clinical testing of CAR T-cell therapies.
- Discuss the clinical applications and efficacy of CAR T-cell therapy in various cancers.
- Evaluate the challenges and limitations associated with CAR T-cell therapy.
- Explore the future directions and ongoing research in CAR T-cell engineering.
This course explores the revolutionary field of CAR T-cell therapy, a rapidly evolving approach in cancer treatment. We will delve into the fundamental concepts of CAR T-cell engineering, its therapeutic potential, and the ongoing advancements in this exciting area.
Course Objectives:
- Gain a comprehensive understanding of the immune system's role in anti-tumor immunity.
- Explore the principles behind Chimeric Antigen Receptor (CAR) T-cell engineering.
- Analyze the manufacturing process and pre-clinical testing of CAR T-cell therapies.
- Discuss the clinical applications and efficacy of CAR T-cell therapy in various cancers.
- Evaluate the challenges and limitations associated with CAR T-cell therapy.
- Explore the future directions and ongoing research in CAR T-cell engineering.
Track axon structures with the help of this tool. AxonTracker 3D software tool was developed by the Center for Bioengineering and Informatics(CBI) at the Methodist Hospital Research Institute in collaboration with Lichtman Group at Department of Molecular and Cellular Biology, Harvard University. The software is useful to semi-automatically track and label axon structures from the motor axon connectome datasets. It is a parameter-free software, and hence can be used over a broad range of datasets.
The software is designed with ease of use in mind. The interface is simple and includes a 3D visualization of the dataset along with a real-time overlay of the tracking results. A 2D view of the dataset is also provided in order to interact with the software. Three orthogonal views are provided with a provision for back-tracking the results. Points can be added/deleted from the tracking results to provide guidance in case of an error.
The license of this software is Freeware, you can free download and free use this 3d graphic software.