Watch this cohosted webinar organized by Synopsys and learn how Synopsys and Enhatch are leveraging different facets of AI-powered automation to deliver solutions designed to streamline the entire process of patient-specific image-based surgical planning. Discover how our workflow enables medical device professionals to achieve unprecedented efficiency, precision, and quality in personalized devices.

The Intelligent Surgery Ecosystem gives small and medium device companies opportunities to compete with industry giants while simultaneously giving surgeons access to enabling technologies that will help improve their surgeries and collaboration with the industry. The Intelligent Surgery Ecosystem provides the tools necessary for surgeons to streamline their clinical workflow and continue to provide top-quality care while safely increasing the number of procedures they perform.

While orthopedics may be slower to adopt AI, there is no dearth of potential for its application. There are tremendous opportunities to streamline the entire process from pre-op to post-op. This ebook will explore how AI can improve patient care and reduce the considerable cost and resource burden on orthopedic surgeons and hospitals.

At AAOS 2021's Innovation Theater, Enhatch presented Whiteside's Line 2.0: Harnessing Proven Surgical Principles in the Digital Era. This presentation demonstrates how proven surgical principles can now be captured in technology and used as real time guidance while performing orthopedic surgery.

3D printing, also known as additive manufacturing, is transforming medical devices and healthcare. It's making everything from PSIs to entire organs.

Read the ultimate guide for 3D-printed implants for orthopedic surgeries. Learn all the benefits, processes, and hurdles involved with patient-specific solutions.

AI and machine learning algorithms can make 3D segmentation for patient-specific solutions faster, more accurate, and cost-effective, benefiting surgeons, patients, and medical device companies.

Virtual surgical planning, also known as preoperative planning, uses X-rays or CT scans to generate digital 3D anatomic models, as well as patient-specific implants and instruments.

Patient-specific surgical instruments have marked a significant advancement in the approach to personalized treatment in Orthopedics bringing significant benefits to all involved in the OR.