3D Printing Awakens Renewed Interest in Polymeric Heart Valves for Patient-Specific Treatment7/30/2019 3D Printing Awakens Renewed Interest in Polymeric Heart Valves for Patient-Specific Treatment https://ift.tt/30WtDpU Authors Charles D. Resor and Deepak L Batte review the recent work of André R. Studart and his co-researchers in creating artificial heart valves via 3D printing. Their findings are outlined in their recently published article, ‘Polymeric Heart Valves: Back to the Future?’ Along with this is the work previously performed by Studart, et al. predominantly referred to in ‘Bioinspired Heart Valve Prosthesis Made by Silicone Additive Manufacturing.’ While the authors discuss the continued progression of heart valves and replacements, they highlight the work of Studart and his co-researchers, in their creation of a silicone-based polymeric heart valve—harkening back to medical trends beginning in the 1960s. Employing some of the classic benefits of 3D printing, the medical scientists fabricated a prototype with a patient-specific crimpable polymer stent using decidedly more modern methods. Today, most heart valves as prosthetics are either mechanical or ‘biprosthetic,’ which is the more preferred type (making up 80 to 90 percent of the aortic valve replacements in the US), usually consisting of xenograft tissue valves.
Historically, earlier valves have been created with a variety of materials to include silicone, polyurethane, and other polymers—only to meet with failure structurally, or in causing calcification or thrombosis. Even with the tremendous amount of progress made recently in creating prosthetic heart valves, there have been continued challenges in manufacturing a ‘durable, thrombus-resistant valve,’ which the scientists state would be best from a catheter-based approach. As polymer synthesis has been refined over time, to include a realistic promise for crimpable valves—polymers have become more interesting overall in the manufacturing of valves—whether stand-alone or as scaffolds. The prototype is an ‘impressive’ valve prototype which has the added advantage of allowing for patient-specific treatment—a wave of the future in medicine, and one which is certainly more than a trend as it eliminates so many problems which emanate from the previous necessity of the one-size-fits-all culture. With the ability to create models directly from 3D scans, or in other cases create implants laden with stem cells from a patient, complications are substantially reduced—meaning much better outcomes overall. While the ‘in vitro’ assessments are promising, they require more testing, and especially due to so much previous research of limitations regarding polymer valves.
3D printed implants and medical models and prototypes have lent enormous value to the medical field—and on so many levels—from advantages to patients with more options for specific treatment and better diagnoses, for medical students to practice, and for surgeons to speak with patients and their families and to describe procedures in pre-operative education, along with being able to use the models as surgical planning tools. What do you think of this news? Let us know your thoughts! Join the discussion of this and other 3D printing topics at 3DPrintBoard.com. [Source / Images: ‘ Polymeric Heart Valves: Back to the Future?’] Please enable JavaScript to view the comments powered by Disqus.Printing via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com July 30, 2019 at 02:06AM
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