![]() ![]() While consulting for medical projects over the years and working on some, I collected hundreds of domain-specific libraries and frameworks built to help developers make medical applications. It's a self-hosted application which means it can be installed and hosted at private hosting for teams.ġ8 Frameworks, Libraries, and Projects for Building Medical Applications It's completely free and open-source software that comes with no restrictions to use or to modify. MicroDraw is a lightweight web-based collaborative annotation application for displaying and viewing large-scale (DeepZoom) images. The Human Protein Atlas is a Swedish-based project that started 2003Ĭollaboratively Annotate large-scale DeepZoom images with MicroDraw Some of my relatives who are studying medicine. I recommended the project already to my colleagues who are teaching at medical schools. I planned to write about this amazing project months ago, soon after I wrote about OpenSeadragon library. The Human Protein Atlas is What every Medical, Human Biology Students and Scientist Need It is released and hosted by IBM, with full instructions, video tutorials The project is started by Yuksel Temiz, an engineer and a designer from Switzerland, who later released it as an open-source for educational purposes. MicroscoPy is an open-source MICROSCOPE built using LEGO bricks, 3D-printing, Arduino and Raspberry Pi. MicroscoPy: Build Your Own Low-cost Digital Microscope using Raspberry Pi The project has detailed instructions on how to setup your Raspberry Pi It is an ideal solution for taking still images using a 12 MP HQ camera attached to a gemmological microscope. ![]() Microscope-PiCam is a free open-source web-based solution that acts as the soul of a Raspberry Pi based microscope. Microscope-PiCam: An Open-source Raspberry Pi Microscope It achieves steps well below 100 nanometers when driven with miniature stepper motors, and is stable to within a few microns over several days. This design for a 3D printed microscope stage uses plastic flexures, meaning its motion is free from friction and vibration. Optomechanics is a crucial part of any microscope when working at high magnification, it is absolutely crucial to keep the sample steady and to be able to bring it into focus precisely.Īccurate motion control is extremely difficult using printed mechanical parts, as good linear motion typically requires tight tolerances and a smooth surface finish. It comes with a sophisticated guide that helps anyone print the microscope with any 3D printer, an open-source software to start using the microscope which works on Windows, Linux, and macOS, and rich tutorials to make its usage smooth and fun. There are many different options for the optics, ranging from a webcam lens to a 100x, oil immersion objective. The OpenFlexure Microscope is a 3D printable microscope, including a precise mechanical stage to move the sample and focus the optics. ![]()
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