Market research firm Gartner has laid out its thoughts on the future of 3D printed medical devices and bioprinting with the 2015 Hype Cycle on 3D Printing.
Sourced through Scoop.it from: 3dprintingindustry.com
Gartner is widely regarded for its ability to analyze technological trends, relying heavily on their now famous Hype Cycle. And the market research firm doesn’t just get into the technology, but the society surrounding it, even predicting that there would be widespread social upheaval in one report. More recently, the firm created a specialized model for outlining specific trends in 3D printing, with the 2015 Hype Cycle for 3D Printing outlining various applications within the industry and their point of maturity versus popular expectations. And, with this tool, they have determined that medical 3D printing has just hit the Peak of Inflated Expectations, meaning that, soon, we’ll no longer be wowed by 3D printing in the medical space, as the tech is legitimately incorporated regularly in specialist medical applications. Bioprinting for transplantable organs is listed as a separate category, that is also listed as 5-10 years from maturity, but is further from pure hype inflation. Michael Shanler, research director at Gartner, says of this specific application, “Some of these R&D systems are already capable of printing cells, proteins, DNA and drugs, however there are significant barriers to mainstream adoption.” He adds, “The sheer complexity of the items to be printed and the high maintenance requirements of these systems mean that initial deployments will be mostly limited to specialist service providers. We see mainstream adoption increasing as the systems become more diverse in their functions.” 3D Bioprinting Solutions may believe they can 3D print an organ in 1-2 years, but, even if they do, there won’t be a top 10 list of organ printers for another 5-10. Outside of medicine, however, Gartner believes that there are a number of spaces in which the technology is only two to five years from becoming mature that will, in turn, see 3D printing move from specialty uses to broader usage. These include 3D scanning, service bureaus, and 3D printing software, says Basiliere. With CAD software being made simpler for consumer use, coupled with repositories of 3D printables, consumers have greater access to 3D models. 3D scanners, too, give consumers a wider range of printable options, as they drop dramatically in price. And, because they can use service bureaus to have this objects printed, rather than on a home machine, they can experiment with the technology more and more. Basiliere explains, “Advancements outside of the actual printers themselves may prove to be the catalyst that brings about widespread adoption. Technologies such as 3D scanning, 3D print creation software and 3D printing service bureaus are all maturing quickly, and all — in their own way — have the potential to make high quality 3DP more accessible and affordable.”