Keyword: Cost analysis

Stories

Features: Medical

Forensic cost analysis methods have already gained traction in the automotive industry, which has long recognized the value of determining an accurate cost of components and...

Features: Manufacturing & Prototyping

Modern science has allowed surgeons to fix the human body amazingly fast yet leave behind only small traces where repairs were performed. One of the more commonly used methods to...

Features: Medical

A design engineer at a dental equipment company is handed a challenging assignment. The firm’s development team must devise a suite of products that includes a...

Technology Leaders: Medical

Handheld medical devices must perform across a wide range of device specifications and end-user environmental conditions. Mechanical and signal...

Technology Leaders: Medical

Imagine patients with chronic conditions being monitored without having to be in a doctor’s office, or patients with more serious issues being monitored and treated outside...

Technology Leaders: Medical

Portable and wearable healthcare devices represent growing, high volume markets for the medtech industry. Patient monitors are evolving from stationary...

Features: Medical

From image-guided surgery to vision-equipped service robots, real-time video is enabling new levels of precision and treatment while driving fundamental changes in how healthcare services are...

Features: Medical

By now, you have probably already heard that the U.S. Environmental Protection Agency (EPA) is phasing out the AK-225 solvent at the end of this year. This means that if you are currently using...

Features: Medical

The phrase, "May you live in interesting times" certainly applies to today's medical device design engineers, as they face unprecedented opportunities and challenges...

Global Innovations: Medical
University of Southampton, Southampton, UK
http://www.southampton.ac.uk

Osteoporosis causes bones to lose mass and become weak. However, for many sufferers, the first indication that they...

Features: Medical

Over the years, medtech companies have become quite adept at working with clinicians to identify unmet clinical needs, and developing products to address those needs. In both start-ups and established...

Features: Manufacturing & Prototyping

Today’s medical device OEMs live in an age of abundance: both abundant options and abundant regulatory requirements. With so many options and so many restrictions, it can be very...

Features: Robotics, Automation & Control

The ever-increasing functional capabilities of emerging medical de vices have precipitated new requirements for the multi-function foot controls used to operate the equipment. These foot...

Features: Manufacturing & Prototyping

Still a relatively young technology, abrasive waterjet has evolved to the point where it offers substantial benefit to some manufacturers of surgical instruments and a broad...

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.

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.

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Technology Leaders: Regulations/Standards

First, Do No Harm: Changing Strategies to Prove Your Medical Device Is Safe