Introduction
Slicer 3D is a free, open source software for visualization, processing, segmentation, registration, and analysis of medical, biomedical, and other 3D images and meshes; and planning and navigating image-guided procedures. It is developed by an international community of researchers, developers, contributors, and users under the National Alliance for Medical Image Computing (NA-MIC) project. Slicer 3D can be used for a variety of applications, such as education, research, clinical care, and commercial product development.
download slicer 3d
To download and install slicer 3D, you can visit the official website and choose the version that suits your operating system (Windows, macOS, or Linux). You can also access older releases or preview releases that are updated daily. Slicer 3D runs on modern computers that have at least 4GB of memory, a minimum resolution of 1024 by 768 pixels, and graphics that support OpenGL 3.2 or higher.
Features of slicer 3D
Slicer 3D has many features that make it a powerful and versatile software for medical image computing. Here are some examples of what slicer 3D can do:
Image segmentation
Image segmentation is the process of dividing an image into meaningful regions or objects. Slicer 3D has a Segment Editor module that allows you to create surgical plans, create high-quality atlases, or training data sets for deep learning using various tools such as thresholding, region growing, painting, erasing, smoothing, etc. You can also import or export segmentations from other formats such as DICOM RT or STL.
Lung CT analysis for COVID-19
LungCTAnalyzer is an extension for slicer 3D that offers automated lung segmentation and quantitative analysis for COVID-19 cases. It can measure the lung volume, the percentage of affected lung tissue (ground-glass opacity and consolidation), and the lung severity score. It can also generate a report with the results and a 3D visualization of the lungs.
Surgical navigation
Slicer 3D can be used for real-time navigation of surgical procedures using various imaging modalities such as ultrasound, MRI, CT, etc. For example, slicer 3D was used for breast cancer surgery to guide the resection of tumors using tracked ultrasound images. Slicer 3D can also integrate with external devices such as trackers, robots, cameras, etc., using extensions such as SlicerIGT or SlicerIGSIO.
AI-assisted segmentation using NVidia Clara
NVidia Clara is a platform that provides AI tools and models for medical imaging. Slicer 3D can use NVidia AI-assisted annotation tool in Segment Editor to automatically segment , or modify the data using tools such as Segment Editor or Model Maker. Slicer 3D can also help smooth, sharpen, fill, or close the data using tools such as Smoothing or Closing.
Inexpensive equipment, simple operation, easy learning, accurate positioning, and minimally invasive surgery
Slicer 3D can help enable inexpensive equipment, simple operation, easy learning, accurate positioning, and minimally invasive surgery by providing solutions that are accessible, user-friendly, intuitive, precise, and safe. For example, slicer 3D can help use low-cost devices such as webcams or smartphones to acquire or stream images or videos. Slicer 3D can also help use simple devices such as keyboards or mice to control or interact with the software. Slicer 3D can also help use easy-to-learn interfaces such as menus, buttons, sliders, or icons to navigate or operate the software. Slicer 3D can also help use accurate methods such as registration, calibration, or tracking to align or locate the data. Slicer 3D can also help use minimally invasive techniques such as ultrasound, MRI, or CT to guide or perform the procedures.
Alternatives to slicer 3D
Slicer 3D is not the only software that can be used for medical image computing. There are other alternatives that have different features, advantages, and disadvantages. Here are some examples of other software that can be used for similar purposes:
How to download slicer 3d for free
Download slicer 3d for medical image analysis
Best settings for slicer 3d software
Slicer 3d download for windows 10
Slicer 3d download for mac os
Slicer 3d download for linux
Slicer 3d vs ultimaker cura comparison
Slicer 3d tutorial pdf download
Slicer 3d segmentation tutorial download
Slicer 3d registration tutorial download
Slicer 3d visualization tutorial download
Slicer 3d image-guided procedures tutorial download
Download slicer 3d extensions from marketplace
Download slicer 3d enterprise version
Download slicer 3d stable release
Download slicer 3d preview release
Download slicer 3d beta version
Download slicer 3d source code
Download slicer 3d documentation
Download slicer 3d training materials
Download slicer 3d sample data sets
Download slicer 3d mesh models
Download slicer 3d python scripts
Download slicer 3d plugins and modules
Download slicer 3d cad plugin integration
Download slicer 3d compatible file types
Download slicer 3d checksums and package naming convention
Download slicer 3d for multi-material printing
Download slicer 3d for biomedical research
Download slicer 3d for clinical applications
Download slicer 3d for radiology and imaging
Download slicer 3d for surgery and intervention
Download slicer 3d for anatomy and physiology
Download slicer 3d for neuroscience and neurology
Download slicer 3d for cardiology and vascular
Download slicer 3d for oncology and tumor
Download slicer 3d for dentistry and orthodontics
Download slicer 3d for ophthalmology and vision
Download slicer 3d for pathology and histology
Download slicer 3d for genetics and genomics
Download slicer 3d for microbiology and infection
Download slicer 3d for pharmacology and drug discovery
Download slicer 3d for bioengineering and biomechanics
Download slicer 3d for robotics and automation
Download slicer 3d for education and teaching
Download slicer 3d for art and design
Download slicer 3d for gaming and entertainment
Download slicer 3d for hobby and personal use
UltiMaker Cura
UltiMaker Cura is a free and open source software that can be used for 3D printing. It can slice 3D models into layers and generate G-code instructions for the printer. It can also optimize the print quality and speed by adjusting various settings such as layer height, infill density, support structure, etc. UltiMaker Cura is compatible with most of the UltiMaker printers and many other printers from different brands.
Simpleware
Simpleware is a commercial software that can be used for 3D image processing and analysis. It can segment, measure, quantify, and visualize 3D images from various sources such as MRI, CT, micro-CT, etc. It can also generate high-quality meshes for finite element analysis (FEA) or computational fluid dynamics (CFD) simulations. Simpleware is suitable for applications such as biomedical engineering, materials science, geology, etc.
Invivo5
Invivo5 is a commercial software that can be used for dental imaging and diagnosis. It can acquire and display 3D images from cone beam computed tomography (CBCT) scanners. It can also perform tasks such as implant planning, orthodontic analysis, airway analysis , or TMJ analysis. Invivo5 is compatible with most of the CBCT scanners and can export the images to various formats such as DICOM, STL, etc.
OsiriX MD
OsiriX MD is a commercial software that can be used for radiology imaging and diagnosis. It can display and manipulate 2D, 3D, and 4D images from various modalities such as MRI, CT, PET, etc. It can also perform tasks such as segmentation, registration, fusion, measurement, or annotation. OsiriX MD is compliant with the DICOM standard and can communicate with PACS servers or workstations.
Materialise Mimics Care Suite
Materialise Mimics Care Suite is a commercial software that can be used for medical 3D printing and planning. It can segment, edit, and export 3D models from medical images for various applications such as orthopedics, cardiovascular, cranio-maxillofacial, etc. It can also design and print patient-specific implants, guides, or models using various materials and technologies. Materialise Mimics Care Suite is certified for clinical use in the US, Europe, Japan, etc.
Conclusion
Slicer 3D is a free and open source software that can be used for medical image computing. It has many features and benefits that make it a powerful and versatile software for various applications such as education, research, clinical care, or commercial product development. Slicer 3D can also be customized and extended by users and developers to suit their specific needs and preferences. However, slicer 3D is not the only software that can be used for medical image computing. There are other alternatives that have different features, advantages, and disadvantages that may be more suitable for certain purposes or users. Therefore, it is important to compare and evaluate different software before choosing the best one for your project.
FAQs
What are the system requirements for slicer 3D?
Slicer 3D runs on modern computers that have at least 4GB of memory, a minimum resolution of 1024 by 768 pixels, and graphics that support OpenGL 3.2 or higher. Slicer 3D also requires an internet connection to download extensions or access online resources.
How to update slicer 3D?
To update slicer 3D, you can either download the latest stable release from the official website or use the built-in updater in slicer 3D. To use the updater, you can go to Help > Check for Updates and follow the instructions to download and install the update. You can also choose to update your extensions or settings along with slicer 3D.
How to get help or support for slicer 3D?
To get help or support for slicer 3D, you can use various resources such as the documentation , the forum , the mailing list , the chat , or the bug tracker . You can also contact the developers or contributors directly through their email addresses or social media accounts.
How to cite slicer 3D?
To cite slicer 3D in your publications or presentations, you can use the following reference: Fedorov A., Beichel R., Kalpathy-Cramer J., Finet J., Fillion-Robin J-C., Pujol S., Bauer C., Jennings D., Fennessy F., Sonka M., Buatti J., Aylward S., Miller J.V., Pieper S., Kikinis R. (2012) 3D Slicer as an Image Computing Platform for the Quantitative Imaging Network. Magnetic Resonance Imaging; Volume 30; Number 9; pp.1323-1341; doi:10.1016/j.mri.2012.05.001.
How to contribute to slicer 3D?
To contribute to slicer 3D, you can join the slicer community and participate in various activities such as testing, reporting bugs , developing new features, creating new extensions, writing documentation, or providing feedback. You can also donate to the slicer project to support its development and maintenance. You can find more information on how to contribute to slicer 3D on the official website . 44f88ac181
Comments