We are excited to announce that Himed's Bioceramics Center of Excellence™ (BCoE) was featured in the latest issue of BONEZONE magazine! In an insightful interview, Himed President Craig Rosenblum shared his vision for the future of bioceramic 3D printing and discussed Himed's new research initiatives.

SOURCE: https://bonezonepub.com/2024/11/26/new-materials-and-methods-in-additive-manufacturing/

In addition to the article, one of our custom BCoE graphics was chosen as the inspiration for the cover design of this issue!

We’re proud to be at the forefront of medical biomaterials innovation, and to contribute to the ongoing conversation around materials optimizations for additive manufacturing.

At The Johns Hopkins University, the biomedical engineering program’s Design Team offering lets undergraduates dive deep into clinical projects that can help them land industry jobs, get provisional patents or even start companies. Craig Rosenblum of Himed shares is one of three students/alum to share his thoughts in this article.

SOURCE: https://www.biospace.com/career-advice/student-resources/from-theory-to-practice-johns-hopkins-design-team-sets-undergrads-up-for-success?utm_content=315531887&utm_medium=social&utm_source=linkedin&hss_channel=lcp-424124 Last month, Himed was pleased to host a group of biomedical engineering students from JHU at our research and production facility for a day, where we discussed everything from large scale manufacture of biomaterials to the intricacies of prototyping calcium-phosphate forms via 3D printing.

As a strategic partner in developing new bioresorbable printer inks with Lithoz, Himed is proud to contribute insights in this video about the rapidly expanding frontier of bioceramic materials for hard tissue repair that we're exploring at our Bioceramics Center of Excellence™ (BCoE).

Himed President Craig Rosenblum's discussion highlights the advantages of using 3D-printed bioceramics, specially calcium phosphates, over traditional metal implants in medical applications. Bioceramics, such as tricalcium phosphate (TCP) and hydroxyapatite (HA), are osteoconductive and bioresorbable, meaning they can be absorbed by the body and replaced by natural bone, eliminating the need for additional surgeries.

Watch the full video to discover how 3D-printed bioresorbable materials might offer novel solutions for enhancing your next medical device design. SOURCE: https://www.youtube.com/watch?v=1QFSw0S00rY