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3DHEALS 2020 Virtual Medical Summit: Comprehensive Look at Craniomaxillofacial 3D Printing

There were a multitude of sessions and sub-sessions to follow at 3DHEALS 2020 (running from June 5-6, 2020), with over 70 speakers and four workshops, covering many topics on complex design and patient-specific treatment. Here at 3DPrint.com, we have covered many stories on craniomaxillofacial surgeries, including exploring patient-specific applications, research into simulation, and the use of advanced 3D printed visualization and surgical planning guides.

In attending the virtual summit, however, we were able to hear from Dr. Devid Zille (Director of Applied Innovations at OsteoMed), Dr. Rui Coelho (CEO at BoneEasy), Zsolt Pasztor, PhD (Managing Director at PREMET), and Dr. Albert Woo (Associate Professor of Surgery at Brown University)—professionals and innovators who put the wheels into motion for fabricating complex, 3D medical designs for intricate surgeries. As an interesting side note, Dr. Zille actually used to work in the automotive realm as a car designer and, yes, he actually designed wheels (see below).

Now, as an oral and maxillofacial surgeon, Zille states that he sees parallels between virtual surgical planning (VSP) and the spokes of the wheel that he designed below:

Zille also discusses the numerous evolutionary phases in 3D printing with training models, patient-specific models, cutting guides, and patient-specific implants.

Older style on left; newer 3D-printed guide on the right, patented by OsteoMed, that extends into the nasal cavity for better fit.

Mandibular reconstruction cutting guide

Initially, the surgeon also stated that surgical planning with conventional methods can be extremely time-consuming and is not always predictable. Models allow for better diagnostics and treatment, and excellent training for everyone from medical students to surgeons.

Surgeries now can be simulated ahead of time, offering much better visual presentation and a foundation for nearly “anything to be developed over the mesh.” Zille points out that that includes cutting tools, but also patient-specific implants.

Dr. Rui Coelho went on to explain what is involved in biological design, as it requires engineering and architecture, as well as a surgeon.

“We should design a process where the experience of all of the designs could benefit new designs,” explains Coelho in his presentation. “Our design should answer to every anatomical detail. Not only to the bone but also the surrounding structures.”

Engineers must have time to examine the face of the patient, decide on materials for proper attachment (such as metal, PEEK, ceramics), create a prototype, and ultimately, improve the quality of life for the recipient.

Zsolt Pasztor, PhD, introduced himself from Hungary, explaining that Budapest is the capital of “dental tourism.” In using dental implants, placement is critical; however, 50 percent of patients do not have sufficient room for these medical devices, meaning that more ‘complex solutions’ like customized, patient-specific implants often offer success.

Bone loss is a challenge for treatment

Development of implants includes:

Design
Measurements
Simulation
Consultation
Continuous improvement

Sample implants

Fit for the patient, mechanical properties, and osseointegration are most important.

Measurements

As a surgeon, Dr. Albert Woo explains that procedures involving the eye sockets are usually the most delicate. Those are the cases that concern him the most, due to the extreme precision required in measuring. Insertion of implants in such surgeries requires state-of-the-art materials and technique.

Woo has also inserted implants in other severe cases; for instance, one patient was missing half of his nose due to cancer. With digital imaging, Woo was able to use a scan from the other side of his face to create an appropriate prosthetic. His team has also used 3D printing to sidestep the need for making molds. With 3D imaging, they are able to create the orthotic and go from there.

Dr. Woo concluded his presentation by explaining that he and his team are also using 3D technology for computational flow dynamics, creating new designs for treating spinal tumors.

Giant orbital fracture

Mirroring of normal activity

Although originally set for ‘the heart of San Francisco’ as a venue, this year’s 3DHEALS Global Healthcare 3D printing conference became a virtual—and inspiring—event. Focusing on the continued impacts to the field of medicine, rather than cancel the annual event due to the COVID-19 restrictions, founder and CEO, Dr. Jenny Chen, committed to an online format, and along with seeing every speaker conform to the changes, she was even able to add 25 percent more in programming.

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: 3DHeals 2020 – ‘3D Printing in CMF’]

The post 3DHEALS 2020 Virtual Medical Summit: Comprehensive Look at Craniomaxillofacial 3D Printing appeared first on 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing.

3D Printing Webinar & Virtual Event Roundup, May 31, 2020

With so many events going virtual due to the ongoing COVID-19 pandemic, there’s also been an increase in the number of webinars that companies in the additive manufacturing industry are holding. To make things easier for our readers, since there’s so much online content to choose from these days, 3DPrint.com is compiling all of these available webinars, and the virtual events, into a weekly roundup for you, starting today.

Freeman Technology Webinar

Characterization Tools for Evaluating Polymer Powders for Laser Sintering Webinar

This Tuesday, June 2nd, UK-based Freeman Technology, a Micromeritics company that creates systems for measuring the flow properties of powder materials, will host a webinar at 9 am ET titled “Characterization Tools for Evaluating Polymer Powders for Laser Sintering.” Enrico Gallino, Senior Engineer – Material Specialist at Ricoh UK Products Ltd, will speak about evaluating an AM powder characterization methodology, and will also discuss the results of screening the relevant properties, such as flowability, shape, and thermal properties, of a variety of materials.

“As additive manufacturing (AM) technology transitions from the fabrication of prototypes to serial production of end-use parts, the understanding of the powder properties needed to reliably produce parts of acceptable quality becomes critical,” the webinar site states.

“Achieving the optimal quality for parts does not only depend on setting the right process parameters. Material feedstock also plays an important role when aiming for high performance products. In the case of selective laser sintering, polymer powders are used as a raw material. Therefore, controlling the quality and correctly characterizing the particles used in the process is a key step to successfully apply polymer AM techniques and also to expand the range of material that can be process with this technology.”

Click here to register.

Dassault Systèmes Webinar

Dassault Systèmes be will holding a live webinar on Thursday, June 4th at 10 am ET, titled “Intuitive 3D Designs with CATIA® and SOLIDWORKS® on Mobile Devices.” Participants will have the chance to learn how beneficial flexible design workflows can be when delivering products to market, faster, across many different industries. There will be a live demonstration, using tablets and PCs, on how combining CATIA and SOLIDWORKS on the 3DEXPERIENCE platform will allow your business to add engineering details with simple parametric modeling, create organic surfaces with subdivision (Sub-D) modeling, generate complex patterns and shapes quickly, optimize and evolve designs using an algorithmic approach, and more – all from your own device. The demonstration will be followed by a live Q&A session.

“Discover our portfolio of ready-to-go online Design and Engineering applications in action, which enable you to design from your laptop, your smartphone or tablet! Enjoy increased agility without compromising best-in-class design and engineering capabilities,” the webinar site states.

“With its growing app portfolio and secure cloud technology, the 3DEXPERIENCE platform enables you to manage all facets of your product development process while reducing infrastructure costs, IT overhead, software maintenance and complexity. All 3DEXPERIENCE solutions work together seamlessly making data management, sharing and collaboration easy.”

Click here to register.

3DHEALS 2020 Global Summit

The 3DHEALS conference is going virtual this year, as the 3DHEALS 2020 Global Summit runs from 11 am-9:30 pm ET June 5th and 6th. Offering powerful networking and effective programming on a global stage, this popular bioprinting conference – sponsored by Whova and Zoom – brings together influencers and audiences from over nine countries, offering opportunities and insights that can be beneficial to stakeholders. With over 70 speakers, more than four workshops, startup events, simulated in-conference experience, an interview series hosted by Dr. Jenny Chen, and more, this is one you won’t want to miss.

“3DHEALS2020 is designed to cater to a wide range of professionals, ranging from healthcare early adopter, manufacturers, engineers, legal professionals and policymakers, C-Level executives, entrepreneurs, investors, and more. We aim to create an effective program that maximizes the attendee’s experiences and decreases the barriers in communication among stakeholders,” the event site states.

Click here to register.

Will you attend these events and webinars, or have news to share about future ones? Let us know! Discuss this and other 3D printing topics at 3DPrintBoard.com or share your thoughts in the comments below.

The post 3D Printing Webinar & Virtual Event Roundup, May 31, 2020 appeared first on 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing.

3DHEALS2020: A Not So Lonely Planet

Only a few weeks away from 3DHEALS2020, and I just got off the phone with one of our speakers, Dr. Ho, from NAMIC Singapore. Our brief interview reminded me just how much I enjoyed Singapore—its start-up like government, incredible universities, and its beautiful modern architecture, chili crabs, and unpredictable rainstorms. Now, I’m on my way to some of the best meals in my life with another 3DHEALS community event in a foreign city. Looking back, there are many stories like that: in Detroit, Vigo, Paris, Shanghai, or Boston, my work with 3DHEALS communities has been a journey of adventures and friendships. 3DHEALS2020 is really a way to summarize my travels from the last two years. It is my version of Lonely Planet—the healthcare 3D printing version.

I really felt more alive when people have welcomed me into their cities; when they have showed off their latest innovations; when they have bantered enthusiastically with one another in a local pub till midnight after 3DHEALS events. And they felt the same way.

Sadly, however, this pandemic is putting old methods of human connection into question. Perhaps, a virtual summit is a stopgap solution for conferences, but, more likely, it is time for us to explore alternative and better ways to stay connected and informed.

The virtual 3DHEALS2020 summit will be a good start.

While we can’t serve you delicious San Francisco Blue Bottle coffee, there are three things we aim to do right with this conference:

1. Awesome live content

One upside about the virtual summit is that people who could not be available due to logistic barriers are now more available. We added 20+ speakers since the pandemic began and are still adding more parallel workshops to the existing program. Some of highlights include:

A. Biofabrication/Bioprinting Panels and Workshops:

Welcome to the holy grail of healthcare 3D printing applications!

These panels and workshops collect some of the brightest minds in the world of tissue engineering, biofabrication, and bioprinting. It includes the newest generation of startup founders. Names such as Stephanie Willerth, Adam Feinberg, Jordan Miller are already well-established and loved in the scientific communities and just founded their own startups within the last 12 months. More established startup founders whose companies are also critical to the eventual success of biofabrication, tissue engineering, and cell therapy at large will also join us live, including Melanie Mathieu from Prellis Biologics, Jon Rawley from Roosterbio, John O’Reily from Xylyx, Taciana Pereira from Allevi, and Kevin Caldwell from Ossium Health. Qrquidea Garcia (“Orchid”) from JNJ Innovation will also join us on this panel, discussing how an industry leader can work with innovators and startups in this exciting, burgeoning field.

B. Regulatory and Legal Landscape of Healthcare 3D Printing

For those who put their skin in the game, this is probably one of the most must-attend sessions. 3D printing in healthcare is a super new field, and legal experts in this field who have established track records and legitimacy are only a handful. This session will include the most comprehensive list of legal and regulatory concerns specifically for healthcare 3D printing, including intellectual property/patent issues, product liability, FDA pathways, manufacturing standards, and more. Steven Bauer, from FDA CBER, just joined the panel to directly address concerns related to cell therapy from the biofabrication and stem cell communities. The speakers are not just well-versed on how to interpret the law and policies, but also how to interact with scientists, policy makers, organizations, and standards bodies at this early stage of the industry, with practical, real-life examples.

C. Global Perspectives

One lesson from this pandemic is that globalization has consequences. Having a well-rounded worldview of the global healthcare 3D printing ecosystem is a requirement for future success. Our early morning sessions are reserved for international speakers all over the world to meet the audience and share their unique perspectives, needs, and hopes. Both America Makes director John Wilczynski and NAMIC director Dr. Chaw Sing Ho, along with experts from Turkey, India, and Taiwan, will share how healthcare innovations can thrive in both local and global environments. On day two (June 6^th), the audience will learn about how different countries are implementing the concept of 3D printing for Point of Care, which cannot be taken out of context of different healthcare systems and cultures. The audience will meet and learn from the leaders at UCSF, Stanford, Germany (Kumovis), India (Anatomiz3D), and developing countries.

2. Pre- and post-event networking opportunities

The attendees will have the opportunity to meet other attendees, speakers, and conference organizers as soon as they sign up the event using a dedicated conference app. They can send direct messages, post threads, share photos, host their own virtual events days before the conference. The app will be available to registered attendees for six months after the conference ends.

3. Entrepreneurship

One of the most exciting aspects of 3DHEALS2020 is its focus on entrepreneurship. Pitch3D has been a quarterly free and online pitch platform to selected early-stage startups in healthcare 3D printing and bioprinting spaces for the last two years, introducing 30+ startups from all over the world to institutional investors. 3DHEALS2020 also gathered some of the most experienced VCs and entrepreneurs in the space to share their stories, perspectives, and directly engage with the startups and the 3DHEALS2020 attendees directly during both pitch sessions and investor panels. There will be ten startups pitching each day at 5-6 PM PST. Interested startups can apply here.

This is the time of uncertainty and change.

Join us at 3DHEALS2020, connect with the world, and take control of your future. This is a Not So Lonely Planet.

The post 3DHEALS2020: A Not So Lonely Planet appeared first on 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing.

American Medical Association enacts reimbursement codes for 3D printing services in healthcare

The American Medical Association (AMA) has accepted a proposal from the American College of Radiology (ACR) which advances the use of 3D printing in healthcare. ACR’s Category III proposal for the Current Procedural Terminology (CPT) codes, published and maintained by AMA, are tailored towards reimbursement for the production of 3D printed anatomical models and personalized […]

Interview with Dr. Jenny Chen of 3DHEALS on Bioprinting and 3D Printing in Healthcare

A few years ago I started to notice a stream of interesting information coming from radiologist Jenny Chen. She was taking it upon herself to organize medical professionals the world over. She wanted to get Doctors and researchers in rooms together to learn, discuss and share information. 3DHEALS sprang from this enthusiasm. Now active the world over this organization brings together people in gatherings large and small. Professionals can now learn from each other directly and help innovate in bioprinting and 3D printing for healthcare. Isolated islands of information now can become shared torrents of understanding and knowledge. I really believe that 3DHEALS will do a lot to accelerate 3D printing in medicine. A lot of people are enthusiastic now but do not know where to start and where to learn. For bioprinting, 3DHEALS has become that central global hub. We interviewed Jenny Chen to find out more about 3DHEALS.

Who are the 3DHEALS members, and why did you start it?

As a radiologist, 3D printing blurs the line between the digital imaging world and the physical world. Three years ago, I wanted to make my models to help the surgeons I work with, but there was no clear pathway. In addition to cost, the software and hardware were both challenging to use. There was no instruction. That’s why I started 3DHEALS to meet people who could help me with achieving my own goal of making a model. Initially, this was a small meetup group in San Francisco, but very soon, the group attracted talented professions from many different disciplines: engineering, healthcare providers, entrepreneurs, investors, students/residents, scientists, and more. Everyone brings in unique expertise and perspectives, and our meetings soon become more organized educational events, first in San Francisco, then all over the world.

So, in short, 3DHEALS intends to break down barriers between people and welcome everyone interested in using 3D printing technology in healthcare to join the conversation.

What is its purpose?

3DHEALS’ goals are:

To connect innovators and early adopters on a single platform in healthcare 3D printing, bioprinting, and related technologies.
To educate communities worldwide in a single language that everyone understands.

To discover startups/innovators in every corner of the world and give them a stage to be visible.

What is holding back 3D printing in hospitals?

We have published multiple blogs from various experts all over the world in our “Expert Corner” section focusing on this particular topic, and these experts are in the trenches every day trying to tackle this very question. However, to sum up, these opinions are 1) Lack of knowledge. Hospitals that are at the forefront of using 3D printing often have in-house advocates. These are often surgeons or radiologists who first had the first-hand experience elsewhere. Their strong voices and persistence will bring administrative attention to this new area of development. 2) The large gap between “costs” and “benefits.” Costs include the cost of hardware and materials, staffing, opportunity cost (space + time), potential liability risk, etc. Benefits include improved workflow (i.e., decreased turn-around time), clinical outcome improvement, the pathway to more reimbursement, etc. This gap remains at a level unpalatable to many hospitals that don’t have enough R&D budget like the Mayo Clinic, for example. 3DHEALS had explored the financial aspect of implementing 3D printing for pre-surgical planning in-depth in one of our earlier publication (A Roadmap from Idea to Implementation: 3D Printing for Pre-Surgical Application: Operational Management for 3D Printing in Surgery), which still applies today.

What is holding back 3D printing in medicine?

Not enough education, not enough expert network, not enough innovation/startups is holding back 3D printing in medicine.

It is not just a problem of healthcare; it is a problem of an entire ecosystem. This ecosystem should include many different members, ranging from engineering schools having an additive manufacturing curriculum for biomedical students to 3D printing companies that can look beyond currently a limited number of healthcare products (e.g., braces, aligners, etc.), all requiring nonconformists.

Are you a big believer in personalized medicine?

If I am picking words here, I would argue that medicine has always “intended” to be personalized, and not a single patient I know wanted to be treated as an “average.” That’s human, we value individualism, and we have an ego. However, in reality, we know medicine often treats us as a part of an algorithm.

If I have to forecast, I think “decentralized medicine” AND “personalized medicine” will be the way our future healthcare will look like. 3D printing can enable both of these goals. I have written a few blogs recently talking about this vision of decentralized healthcare, where the hospitals will play a diminishing role as care provider, if not significantly different position.

What do you think of bioprinting?

Bioprinting is a fascinating field to me because it not only includes all the fantastic capabilities of 3D printing, but also combines stem cell technologies, material sciences, and biological sciences. I believe these elements will play a significant role in future medical innovations, whether or not bioprinting “survives.”

The subject became a hot topic because of its potential role in organ regeneration, but I would argue that if people want to solve that problem, then they should focus on that problem, regardless of the solution, bioprinting or not. They should open up their options to include any regenerative techniques available and not limited to just bioprinting.

On the other hand, from a different angle, if a bioprinting company wants to thrive for the long run, then it should think about what products it can produce are the most scalable and profitable with its technologies.

What are the best resources for doctors/hospitals to learn on implementing 3D printing?

I would recommend they check out 3DHEALS website. There are several main things they can take advantage of:
Read the “Expert Corner” blogs: Many of them address the issues they will encounter at any stage of the implementation.
Check out the “Influencer Interviews” section of the website: This is where they can figure out who is doing what so that they can directly connect with individuals that can be their mentors or collaborators directly.

Attend 3DHEALS events. We have had 70+ events all over the world, aiming to build local communities and connecting global hub without the high cost of attending conferences. That said, we are working on 3DHEALS2020, so stay tuned.
In terms of non-3DHEALS events/resources, I recommend SME and RSNA-SIG, both have dedicated individuals focusing on accelerating the adoption of 3D printing into healthcare, from different organizational angles.

I’ve always wondered why there isn’t more “non-critical” 3D printing going on, e.g., post-operative braces?

There are a lot of these activities. However, in the past, similar to a lack of adoption in hospitals, the same economic barriers apply. The gap between “costs” and “benefits” remains wide enough to not allow any such business into the profitable zone. Without profit, this type of practice will remain in the “nonprofit” world, which unfortunately often does not provide consistent products due to lack of funding, staffing, and other concurrent socioeconomic challenges unrelated to the technology (e.g., lack of electricity, transportation, etc.). That said, I do believe this gap is narrowing, and I have seen several startups in recent years that are showing promise to survive, both in the for-profit and nonprofit sectors (e.g., Mecuris, Xkelet, Victoria Hand Project, Protesis, etc.). So, there is light at the end of the tunnel.

Does someone need to develop the perfect 3D printer for hospitals?

I would expand “hospital” to “healthcare” because the hospital is only one type of potential buyer of 3D printing technology. Since based on my theory that hospital will eventually play a diminishing role in our healthcare, I would urge innovators to focus on the result of improving a specific aspect of healthcare, for example, on-demand personalized 3D printed splints, implants, surgical tools, etc., then focusing on a specific buyer. There are so many new players in healthcare these days, and it may very well be Amazon or Apple that will be the “buyer,” rather than a hospital.

What happens at a 3DHEALS event?

The format of having people from different backgrounds to have direct conversations with one another is inspiring to attendees and well received. At 3DHEALS events, ideas can become a reality, blueprints can be an actual product. Together, people share the vision that 3D Printing will be one of the major forces that will revolutionize healthcare in the next 10-20 years.

In the past two years, with the help of 30+ dedicated community managers, 3DHEALS has grown from a single city to now over 20+ cities all over the world and growing. Therefore, there is a definite interest in the subject, and the format is working. Today, we are actively building 3DHEALS both offline and online, and wish geography will no longer pose as a barrier for members in this group to connect, innovate, and succeed together.

Our mission will remain to: educate, connect, and discover in healthcare 3D printing and bioprinting space.