Stories
Technology Leaders: Motion Control
Features: Mechanical & Fluid Systems
When engineers develop orthopedic surgical devices, they must often think beyond the design of the device, and find a way to make its installation easier, safer, and more accurate....
R&D: Medical
Orthopedic device company OrthoMend Research Inc. (Philadelphia, PA) acquired the rights from Temple University (Philadelphia, PA) to commercialize an innovative bone-repairing...
Features: Medical
When a person suffers from degenerative disc disease, spine trauma, or cancer of the spine, the result is decreased stability that can produce pain — often severe — during...
Briefs: Medical
Polylactic acid, or PLA, is a biodegradable polymer commonly used to make a variety of products, from disposable cups to medical implants to drug-delivery systems. A team of Brown...
Technology Leaders: Medical
Outsourcing can save costs and provide other commercial benefits. With outsourcing efforts related to medical devices, it is important to understand some aspects of U.S....
Features: Medical
Pro-Dex Inc., Irvine, CA, is a developer and manufacturer of powered rotary drive surgical and dental instruments. The company’s newest design is a cutting-edge, powered screwdriver that features...
Briefs: Medical
The pipette is a basic fluid control tool for transferring tiny amounts of liquids. Electronic or motorized pipettes are an ergonomic alternative to manual pipettes and an efficient way to increase...
Features: Medical
Cervical spine fusions have been performed since the 1950s and have achieved good, reproducible clinical results. Anterior cervical fusion is a current standard of care...
Briefs: Medical
Tasked with the design and build of a fully automated in vitro diagnostics (IVD) bottling plant, an engineering firm specializing in the development of analytical medical equipment found...
Briefs: Medical
Advanced medical device designs are evolving rapidly and demand higher standards for medical equipment reliability. Applying linear motion components to these medical applications yields the...
Top Stories
Quiz: Sensors/Data Acquisition
Medical Devices in the Locker Room
INSIDER: Medical
AI Tool Predicts Onset of Parkinson’s Disease
INSIDER: Medical
ECG Patch Paves Way for Sustainable Wearables
INSIDER: Materials
Graphene ‘Tattoo’ Treats Cardiac Arrhythmia with Light
News: Medical
MMT Acquires Ward Automation Galway, Somex: Launches MMT Automation...
Features: Medical
Ask the Expert
Ralph Bright on the Power of Power Cords
Understanding power system components and how to connect them correctly is critical to meeting regulatory requirements and designing successful electrical products for worldwide markets. Interpower’s Ralph Bright defines these requirements and explains how to know which cord to select for your application.
Webcasts
Webinars: Medical
5 Ways to Test Wearable Devices
Webinars: Test & Measurement
Powering Medical Devices: How to Filter Noise Out While Keeping Safety In
Webinars: Materials
High-purity Silicone Adhesive Solutions for Medical Device Assembly
Podcasts: Wearables
Here's an Idea: Real-Time Remote Heart Monitoring
Tech Talks: Materials
A Look Into New Silicone Elastomers for Low-Temperature Biopharma Applications
On-Demand Webinars: Manufacturing & Prototyping
Inside Story
Rapid Precision Prototyping Program Speeds Medtech Product Development
Rapid prototyping technologies play an important role in supporting new product development (NPD) by companies that are working to bring novel and innovative products to market. But in advanced industries where products often make use of multiple technologies, and where meeting a part’s exacting tolerances is essential, speed without precision is rarely enough. In such advanced manufacturing—including the medical device and surgical robotics industries — the ability to produce high-precision prototypes early in the development cycle can be critical for meeting design expectations and bringing finished products to market efficiently.
Trending Stories
Features: Packaging & Sterilization
Sterilization, Packaging, and Materials: CRITICAL CONSIDERATIONS