Talk about anything and everything relating to 3D printing for the medical field.
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How does 3D printing work?

3D printing is part of the innovative process called additive manufacturing, which means the production of three dimensional solid objects from a digital file. The printer uses a kind of layering process, by which one layer is added after the other until you have a fully formed object. It allows designers and engineers to create complex parts for cars, machines or airplanes much cheaper and in much less time than any other production method. Currently, rapid technological development enables start-ups and other companies to bring 3D printers out of factories into smaller businesses and even people’s homes. 3d printing in Madhya Pradesh and Chhattisgarh,maharashtra,mumbai,pune,telangana india

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Medical equipment quickly and in a cheap way

3D printing splints, medical models used before surgeries or other necessary means for healing could result in saving huge amounts of money. And there are already brilliant examples on the market how to do it!

3d printed organs transplant

Researchers have also used scans of animal hearts to create printed models, and then added stretchy electronics on top of those models. The material can be peeled off the printed model and wrapped around the real heart for a perfect fit. The next step is to enhance the electronics with multiple sensors.

Plastic 3D printed implants

Not only prosthetics, but also implants could be 3D printed in a personalized way. This is especially important in complex and rare cases, such as the following. Dutch surgeons replaced the entire top of a 22 year–old woman’s skull with a customized printed implant made from plastic

Low-Cost 3d printed prosthetics

Globally, over 30 million people need mobility devices such as prosthetics, while 80 percent of the world’s amputees do not have access to modern prosthetics. However, creating traditional prosthetics is very time–consuming and destructive, which means that any modifications would destroy the original molds. Researchers at the University of Toronto, in collaboration with Autodesk Research and CBM Canada, used 3D printing to quickly produce cheap and easily customizable prosthetic sockets for patients in the developing world.


3D Printing biomaterials

3D printing is emerging as a powerful tool for tissue engineering. No matter, whether it is about blood, bones, heart or skin. It is the technology that lets your jaw drop and scares the hell out of you at the same time, when you first encounter it.

Bones

Professor Susmita Bose of Washington State University modified a 3D printer to bind chemicals to a ceramic powder creating intricate ceramic scaffolds that promote the growth of the bone in any shape. It helps hip and knee replacements last longer through developing a body-friendly calcium phosphate-based coating for the implant materials 3d printed surgical models

3d printing in healthcare industry

Heart valve

Jonathan Butcher of Cornell University has 3D printed a heart valve possessing the same anatomical architecture as the original valve. It will soon be tested in sheep. He used a combination of cells and biomaterials to control the valve’s stiffness.

The future of pharma: 3D printed drugs

Last year, the FDA just approved an epilepsy drug called Spritam that is made by 3D printers. It prints out the powdered drug layer by layer to make it dissolve faster than average pills. Imagine how fast the distribution of medication could be with a 3D printer in every second or third pharmacy!

3D printing is one of the most disruptive technologies that truly have the potential to change medicine and healthcare by making care affordable, accessible and personalized.