Watch Blair Kauzlarich, Clarkson College’s 3D Printing and training center administrator, speak about teaching a novel 3D printing program in the college and hear her vision for the future of the medical 3D printing industry.
In the interview, Blair presents her inspiration for Clarkson College's unique program for teaching students and professionals how to use 3D printers for pre-surgical planning, powered by the Stratasys Digital Anatomy Printer. She speaks about the importance of 3D printed models for patient education and shares her vision for the future of this technology as a standard of care technology in medical facilities.
마이애미의 니클라우스 어린이 병원(Nicklaus Children's Hospital)에 있는 심혈관 수술 고급 프로젝트 연구소(APL)는 Stratasys 3D 프린터를 비롯한 다양한 디지털 3D 기술을 사용하여 소아 환자의 해부학적 구조를 시각화하고 수술 절차를 계획합니다.
더보기What started for RICOH, a global leader in advanced manufacturing, as an engineering partnership with Stratasys in the early 2000s (to develop PolyJet technology using RICOH printer heads) has blossomed into RICOH 3D for Healthcare—an integrated HIPAA-enabled workflow to develop, design, and produce patient-specific 3D printed anatomic models—powered by Stratasys technology.
더보기Introducing RadioMatrix™, first of its kind Radiopaque 3D printing material available on the Digital Anatomy Printer. The new material enables 3D printed anatomical models with radiopacity characteristics in varying contrast that can appear in a CT or X-ray scan.
Watch video마이애미의 니클라우스 어린이 병원(Nicklaus Children's Hospital)에 있는 심혈관 수술 고급 프로젝트 연구소(APL)는 Stratasys 3D 프린터를 비롯한 다양한 디지털 3D 기술을 사용하여 소아 환자의 해부학적 구조를 시각화하고 수술 절차를 계획합니다.
What started for RICOH, a global leader in advanced manufacturing, as an engineering partnership with Stratasys in the early 2000s (to develop PolyJet technology using RICOH printer heads) has blossomed into RICOH 3D for Healthcare—an integrated HIPAA-enabled workflow to develop, design, and produce patient-specific 3D printed anatomic models—powered by Stratasys technology.
Introducing RadioMatrix™, first of its kind Radiopaque 3D printing material available on the Digital Anatomy Printer. The new material enables 3D printed anatomical models with radiopacity characteristics in varying contrast that can appear in a CT or X-ray scan.