Synopsys are running a webinar this month on using AI medical image segmentation in Simpleware software to scale-up patient-specific workflows, save time, and free up staff resources. Highly recommended if you haven't yet had a chance to review the tools in Simpleware software.
Register here: https://register.gotowebinar.com/register/4951806069167092496?source=iM…
Join us for this interactive web workshop where we will demonstrate 3D image processing and analysis using Simpleware software. We walk also you through the workflow of building high-quality models for advanced analysis of anatomies, implants, medical devices, and surgical techniques.
Tue, Feb 27, 2018 2:00 PM - 3:00 PM GMT
Join this webinar to learn how to build patient-specific models in Simpleware for the interdisciplinary area of medical science, simulation and product development.
Join us for this interactive web workshop where we will demonstrate the ease of obtaining high fidelity models from medical image data using Simpleware. We will walk you through the workflow of how to build simulation-ready models for advanced analysis of anatomies, implants, medical devices, and surgical techniques.
Date / Time: Thursday, November 16, 2017 / 1:30 - 6:30 PM
Location: Excelen Auditorium, 700 10th Avenue South, Minneapolis, MN 55415
Organizers: Adaptive Corporation - Mike Zilmer (sales [at] adaptivecorp.net; (440) 257-7460)
Fee: Free-to-attend. Pre-registration is required as places are limited
Date / Time: Tuesday, September 26, 2017 / 1:30 PM to 5:30 PM CDT
Venue: Texas Medical Center Innovation Institute, John P. McGovern Campus, Houston, TX
Organisers: Virtual Integrated Analytics Solutions (VIAS) - Ali Can Solak (asolak [at] viascorp.com; (832) 766-9086)
VIAS cordially invites you to participate in a half day Advanced Biomedical Simulation Seminar at the Texas Medical Center in Houston.
Failure of pharmaceutical packaging incurs the risk of negative health outcomes and expensive product recalls. Pre-filled syringes represent a growing portion of the drug packaging market. During its working life, a syringe ex-periences stresses that may result in material damage. Specifically, the syringe barrel may develop microcracks that coalesce and propagate, causing the syringe to frac-ture and its contents to lose sterility. Abaqus/Standard offers the technologies necessary to include fracture and failure in the syringe design process.
In the design of hearing instruments it is important to achieve the highest possible gain without introducing feedback between the microphone and loudspeaker. With more gain, a larger hearing loss can be accommodated and a greater number of users benefit.
Maximizing gain while minimizing the possibility of feed-back requires an optimal choice of design parameters. In this Technology Brief, we outline how Abaqus/Standard and Isight can be combined in a process to optimize the vibro-acoustic characteristics of hearing instruments.
Biodegradable polymeric stents must provide mechanical support of the stenotic artery wall for up to several months while being subjected to cyclic loading that af-fects the degradation process. To understand the appli-cability and efficacy of biodegradable polymers, a hypere-lastic constitutive model is developed for materials under-going deformation-induced degradation. The model was implemented in Abaqus/Standard and applied to a com-monly used biodegradable polymer system, poly (L-lactic acid) (PLLA).
In the adaptive bone remodeling process, the density of bone tissue changes over time according to the load it sustains. Elevated loads produce increases in bone den-sity while reduced loads cause reduction of bone density. The long term success of an orthopedic implant can be better predicted by including this process in the design workflow. In this Technology Brief, we demonstrate the Abaqus/Standard implementation of one of the leading bone re-modeling algorithms.
