3D Printing Medical Devices Market Share
A synopsis of healthcare 3D printing market outlining some of most path-breaking innovations indicative of the expansive industry growth
U.S. Healthcare 3D Printing Market Share, By Technology 2013-2024 (USD Million)
3D printing first came to the fore in 1986, known by the name of ‘stereolithography’. The technology had not garnered popularity back then, however, it has become prevalent since the onset of the 21st century, marking the genesis of healthcare 3D printing industry commercialization. Today, 3D printers are being deployed heavily across the medical space, to create medical device prototypes, dental applications, medicine models, surgical prototypes, and more, thereby creating lucrative growth avenues for healthcare 3D printing market investors. The medical fraternity, in particular, has been the recipient of numerous innovations in 3D printing, subject to the widespread advantages that the technology offers. For instance, a 3D-printed prototype can be specifically customized and used by surgeons to try out a specific procedure on patients, in a risk-free environment, it helps reduce surgery cost, enables medical simulation, helps determine the best tools for surgery, and to identify possible complications. The medical space, already reeling under immense pressure with regards to optimal performance and reduced costs, will stand to gain unprecedented benefits from this good-as-gold technology, as per experts. In the event that it witnesses the predicted propulsion, 3D printing in healthcare market will observe a meteoric rise over the coming seven years.
As per estimates, healthcare 3D printing industry has been projected to cross a valuation of USD 2 billion by 2024. This is indeed an appreciable growth prediction, considering that the market was valued at USD 450 million in 2016. The application of 3D printing in healthcare industry is thus, certain to depict an upward growth trend, as is evident from the robust 3D printing innovations being conducted across the medical and pharma sectors, such as 3D-printed skin for burns, 3D splints for babies, and 3D dental implants. It comes as no surprise therefore, that healthcare 3D printing market may record a CAGR of 20% over 2017-2024.
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A comprehensive detailing of the ground-breaking innovations and organizational efforts that may revolutionize healthcare 3D printing industry:
The application of 3D printing in healthcare market heavily leans toward prosthetics, customized implants, & bioprinting. In 2015, a team of doctors at the Bengaluru-based Sakra World Hospital performed India’s supposedly first endoscopic surgery on a 5-month old girl with fused skull bones, with a 3D-printed helmet that exerts pressure on the required parts of the skull. The party behind this marvel had been Osteo3D, a phenomenal upstart in healthcare 3D printing industry, that had designed a personalized helmet for the surgery. Today, this tenderfoot in healthcare 3D printing market designs 3D-printed prototypes for surgeries, dental implants, maxillofacial surgeries, and neurosurgeries, and has contributed its models for more than 350 surgeries so far.
Recognizing the need for high-grade 3D printing in healthcare industry, the National University of Singapore Centre for Additive Manufacturing plans to develop, enhance, and deploy 3D printing technology in the medical sector, with reference to which the institute has launched a new knowledge center worth USD 18 million. The highlighting factor in this agreement is that four major conglomerates – Osteopore International, Creatz3D, Forefront Additive Manufacturing, and Dou Yee Enterprises have signed MoUs with the center. This is indicative of the robust penetration of 3D printing in healthcare market across various geographies.
As recently reported by the Dubai Health Authority, a 60-year old woman from Oman suffering from cerebral aneurysm underwent a complicated surgery that was met with unexpected success, which can be solely credited to the creation of the 3D model of the patient’s brain. The complexity of the patient’s condition prompted the doctors to create a state-of-the-art 3D prototype of her brain dilated arteries that allowed them to understand how to plan the surgery using the safest, low-risk approach. Touted as one of most brilliantly articulated approaches for complex surgeries, 3D printing will transform the perspective of doctors toward operations, which will tantamount to an upswing in healthcare 3D printing market share.
Aspect Biosystems, a Canada-based biotech firm has recently declared a partnership with DePuy Synthes Products Inc., with an aim to reinvent the growth curve of 3D bioprinting and by extension, effectuate developments in healthcare 3D printing industry. Facilitated by Johnson & Johnson, this agreement states that Aspect’s massive 3D bioprinting platform will be used to develop a 3D-printed knee meniscus for surgical therapy, that will act as a cushion between the shinbone and the thighbone. Considering the ever-growing pool of elderly patients suffering from osteoporosis, surgical treatment of a torn meniscus via 3D printing will garner positive acclaim worldwide, leading to the widespread commercialization of 3D printing in healthcare market.
Shrewdly leveraging on the profitability quotient of 3D printing in healthcare industry, Italy-based OXYDO has collaborated with Materialise NV and the Safilo Group to manufacture 3D printed eclectic eyewear brands. Marking the preface of a revolutionary trend in both, healthcare 3D printing industry and eyewear market, OXYDO proudly showcased its eyewear collection recently, depicting frames using less material. OXYDO’s eyewear range combines the classic frame styles with modern silhouettes by means of 3D printing, setting a precedent for other healthcare 3D printing market giants to follow.
How the future looks like for healthcare 3D printing industry:
Numerous other innovations prevalent across healthcare 3D orienting market include the creation of 3D-printed skin, 3D-printed ears, as recently developed in Scotland for Microtia-affected kids, and even 3D-printed hearts, liver, and other vital organs. While the scenario looks very promising, it does have its share of flaws, given that every patient has a distinguished genetic system.
Several questions regarding the credibility and conformity of this technique have been raised by consumers and experts alike. The deployment of 3D printing in healthcare market, for most parts, is still in the experimental stages, while for many other sub-verticals, the technology has already been implemented, and has met with transcendent success. Some of the essential factors that may have a profound consequence on healthcare 3D printing market are the type of materials used for 3D printing, the cost of printers, and the convenience factor of the methodology used for implementing the software. Despite having depicted a commendable success rate in many vital application arenas, healthcare 3D printing market has not yet gone mainstream. However, analysts have forecast global 3D expenditure to surpass USD 28 billion by 2020, a major chunk of which will be procured by the medical sector. All in all, the potential for 3D printing continues to remain colossal, and expert consensus specifically gestures toward the notion that healthcare 3D printing market will bring about conspicuous revolution across the medical fraternity in the many years to come.
Author Name : Saipriya Iyer