This webinar was originally broadcast on Tuesday, November 1, 2016.
Click here to watch on demand now.
The Jacobs Institute is leading in vascular health thanks to its clinical expertise and advanced training techniques. By training with Stratasys 3D printed models that mimic patient anatomy, an ideal hands-on training environment is created for a range of applications. Experiential learning helps improve competencies for entry-level trainees and
What you will learn:
- Advance neurovascular understanding of anatomy and techniques
- Help residents and medical-device engineers understand how and why procedures are used
- Teach surgical techniques through hands-on experience
Michael Gaisford, Director of Marketing, Stratasys Medical Solutions
Michael Gaisford is the director of marketing for Stratasys Medical Solutions. He comes to Stratasys after 10 years in the medical device and pharmaceutical industry, working for Boston Scientific, Health Advances, and Genentech.
Michael E. Springer, Director, Operations & Entrepreneurship, Jacobs Institute
Michael Springer is the director of operations and entrepreneurship for the Jacobs Institute, focusing on innovation, business development, and operations. Springer is a biomedical engineer with extensive strategic planning and operations management experience in the medical device space.
Dr. Adnan H. Siddiqui, MD, PhD, FACS, FAHA, is chief medical officer at the Jacobs Institute. He is a neurosurgeon specializing in endovascular treatment of aneurysm, stroke, arteriovenous malformations, and other cerebrovascular diseases. He is widely published, serves as a reviewer for numerous highly-regarded neurosurgery journals, plays a leadership role in the American Association of Neurological Surgery (AANS), and has been invited to more than 200 national and international lectureships.
Leslie Langnau, Moderator, Medical Design & Outsourcing
Leslie has more than 20 years experience as a technical editor and trade journalist. She has reported, investigated, and written extensively on the following subjects: mechanical automation, industrial networking, additive manufacturing, and automation controls. She has a B.S. degree in Mechanical Engineering from Michigan State University.