IDTechEx Forecasts $6.1B Market for 3D Printed Medical Devices

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IDTechEx reports that the market for 3D printed medical devices and pharmaceuticals will be worth $6.1 billion by the year 2029. IDTechEx finds this to be a rapidly growing market with compound annual growth rates of up to 18% in certain sub-segments.

As IDTechEx have previously reported, 3D printing is disrupting the way we provide personalized medicine. IDTechEx described the hearing aid industry as one that has been transformed by 3D printing technology—the digital precision afforded by 3D printing has improved patient comfort while simultaneously decreasing manufacturing times. In this article, we discuss additional examples of how 3D printing can disrupt the medical device industry. 

3D Printing Creates Invisible Braces

3D printing in dentistry is one such high growth market, and one of the most high-profile dental products to be manufactured by 3D printing is the Invisalign transparent orthodontic aligners. These devices are produced by Align Technology, on 3D Systems' ProX SLA printers. The Invisalign product is designed to be aesthetically appealing, particularly to adult patients who wish to minimize the appearance of orthodontic appliances. Moreover, as a removeable device, the patient has no difficulty with eating, and oral hygiene is simplified. Though these devices may not be suitable to treat every patient, they have been used to treat almost 6 million patients around the world. Many competitors are now seeking to profit from this large and growing market.

3D Printing Enables Affordable Prosthetics for Growing Children

An inspiring movement to emerge is the use of 3D printing to create affordable prosthetics for children. Traditional prosthetics can cost between $5000 and $50,000 and provide an insurmountable financial challenge for parents, as children require a new prosthetic every few months. Charitable organizations such as e-NABLE are using 3D printing to create hands and arms from open source designs to relieve this burden from parents around the world. Not only are the prosthetics affordable, but the lead times are decreased relative to the lengthy customization process of traditional prosthetics. While this application has limited contribution to the overall market value, there are significant unmet needs in the field of prosthetics that are going to be met by 3D printing technology.

07/15/2019 | NASA

Robots can drive on the plains and craters of Mars, but what if we could explore cliffs, polar caps and other hard-to-reach places on the Red Planet and beyond? Designed by engineers at NASA's Jet Propulsion Laboratory in Pasadena, California, a four-limbed robot named LEMUR (Limbed Excursion Mechanical Utility Robot) can scale rock walls, gripping with hundreds of tiny fishhooks in each of its 16 fingers and using artificial intelligence (AI) to find its way around obstacles.

06/17/2019 | DARPA

X-rays and gamma rays have a wide range of applications including scanning suspicious maritime shipping containers for illicit materials, industrial inspection of materials and processes, and medical diagnostic and therapeutic procedures.

06/11/2019 | NASA

NASA has selected three commercial Moon landing service providers that will deliver science and technology payloads under Commercial Lunar Payload Services (CLPS) as part of the Artemis program. Each commercial lander will carry NASA-provided payloads that will conduct science investigations and demonstrate advanced technologies on the lunar surface, paving the way for NASA astronauts to land on the lunar surface by 2024.