6 In-Place 3D Printing Trends in 2021

   Since 2020, wide-ranging industries have suffered unprecedented disruptions due to the global coronavirus pandemic. Many show remarkable resilience. And look no further than the healthcare industry has been wildly successful. Despite tough challenges in capacity, sourcing and workforce. The article refers to the 3d printing trend of the future.
   The COVID-19 pandemic has clearly highlighted the need to re-imagine and reshape healthcare. At the same time, the crisis has revealed the potential of innovative technologies. Like 3D printing, to meet critical needs. It is not surprising that the adoption of 3D printing in hospitals (i.e. 3D Printing in place) continues to increase.
   Here are the most important 3D printing trends in In-Place 3D Printing to watch out for in 2021 and beyond:
1. Wider application of 3D printing in healthcare

   In 2020 and 2021, there will be shortages of essential healthcare materials. Mainly due to the prolonged supply chain that was continuously disrupted by the pandemic. Raise awareness of the value of being able to 3D print at Point of Care. Delivery speed and flexibility. Relocate resources as needed. For example, shifting focus from printing anatomical models for surgical planning to printing personal protective equipment.
   With the supply still unpredictable in 2022. 3D printing will be a reliable help in the context of the volatile supply chain. The necessity, the driving force behind the invention, the scalability of using 3D printing applications in healthcare. Is one of the 3d printing trends.
2. Digital communication and remote collaboration

   With social distancing firmly established in our daily lives. New ways to communicate and collaborate effectively are needed more than ever. On the medical front, this rapid increase in digitization will lead to increased demand and provision of telemedicine services. That is, diagnose and treat patients remotely. Digital technology for communication between: Patient and physician; Physicians and clinicians. At the same time, communication between the doctor and the 3D printed laboratory (Point-of-Care) will become necessary. And the barriers to widespread adoption will be much lower than in the past.
3. Complementing 3D printing with virtual and augmented reality

   Once just the realm of video players, advanced visual technologies such as virtual and augmented reality are now accelerating. And the availability of targeted software applications. Accessibility is also significantly increased by the device's more affordable price tag.
4. The growing importance of a Quality Management System

   Delayed by one year due to COVID-19, the new European Union medical device (MDR) regulation has come into full effect as of May 2021. Across the Member States of the European Union Europe. Manufacturers using in-place 3d printing will be able to operate under MDR Clause 5, which is exempt from certain conditions. These conditions include the requirement that printed medical devices be used only in the unit that manufactures them and that the hospital has an appropriate Quality Management System (QMS) in place.
5. Further integrating 3D printing in clinical workflow

   Updated the DICOM standard to include STL and OBJ files. Paving the way for more integration of 3D printing and planning in clinical workflows.STL-bound DICOMs are now supported in Mimics Innovation Suite (MIS) 23. And OBJ-bound DICOMs will be supported in MIS version 24, which will be released in Q3 2021.
6. Increase 3D Printer Accessibility

   3D printing technology is constantly improving. 3D printer manufacturers don't just focus their efforts on improving quality. They are trying to make their machines more affordable. As a result, high-quality medical 3D printers are becoming more and more accessible.
   Two great examples are the Model 3BL and J55, from Formlabs USA and Stratasys Israel respectively. The Form 3BL printer enables high-volume 3D printing with minimal intervention and at an affordable price.