The growth of our country’s aging population is perhaps the most powerful force shaping today’s economy and the outlook for medical device companies in particular. For instance, the bulk of baby boomers now are 70 or older, while the U.S. Census Bureau projects the 65-and-over U.S. population to double to nearly 84 million by 2050.
The ways that rapid manufacturing companies such as Proto Labs can help med tech companies serve this aging population is the focus of a column by Rob Bodor, Proto Labs’ VP and GM of the Americas, in Med Device Online. Bodor’s column is the first in a four-part series, “Building Better Prototypes,” for the med tech website.
Bodor’s current column covers factors that drive rapid manufacturing’s viability in the med tech space, and explores the various processes and materials that med-device companies should consider.
You can read the entire column here.
3D printing and other rapid manufacturing methods continue to transform the med tech industry, as illustrated recently by an Australian neurosurgeon who, in late 2015, removed cancerous vertebrae in a patient and implanted, in their place, printed vertebrae.
The 3D-printed part that would replace the patient’s cancer-ridden vertebrae. Photo: Dailymail.co.uk and ABC News.
Dr. Ralph Mobbs, a neurosurgeon at the Prince of Wales Hospital in Sydney, called the procedure a “world first.” The surgery was performed on a patient with chordoma, a rare form of cancer that occurs in the bone of the skull and spine. As Wired UK reports, the 60-year-old patient was affected in the two vertebrae responsible for turning the head — meaning that, if the 15-hour surgery had failed, he would have been left paralyzed.
Because of the position and function of these vertebrae, however, they’re extremely hard to replace — they must be an exact fit. Mobbs decided to 3D print the replacements instead, and worked with Anatomics, an Australian medical device manufacturer, to design and build the implants, which were made from titanium. The company also printed exact anatomical models of the patient’s head for Mobbs to practice on before the surgery. Continue reading