Medical Device Design & Development

INDUSTRY PERSPECTIVES

Reimagining HACCP And Other Process Flow Risk Analysis Methods Using Relational Risk Analysis

Combining relational risk analysis (ReRA) modeling strategies with hazard analysis and critical control point (HACCP) and other process flow risk analysis methods makes them more efficient.

Maximizing The Value Of An Internal Audit Program In Pharmaceutical Quality Operations

A shrinking FDA and rising supply pressures demand stronger risk management and smarter internal audits. Here’s how pharma can truly “see things as they really are.”

Building World-Class Global Quality Teams That Break Down Silos

Over 25 years leading global quality and regulatory organizations, I've learned that the most difficult challenges aren't regulatory or technical; they're organizational and cultural. 

Mastering Cultural Intelligence In Global Quality And Regulatory Leadership

The medical device industry has gone global, but most quality and regulatory leaders still operate with regional mindsets. Leaders who master cultural intelligence build quality systems that leverage diversity as competitive advantage.

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WHITE PAPERS & CASE STUDIES

Choosing The Right PCD Configuration For Reliable Sterility Assurance

Accurate PCD configuration ensures sterility assurance. Learn how to align validation strategies with ISO standards, optimize cycle efficiency, and select the right BI format for EO sterilization success.

Life Sciences Corporation Implements eLogbooks Across 15 Sites

New regulations challenged how surgical kits were tracked and processed across 15 U.S. sites. Discover how one team balanced compliance and efficiency to keep life-saving procedures on schedule.

Implementing A Next-Gen MES At A Fraction Of The Cost

Discover how a top medical device manufacturer accelerated product launch by digitizing assembly processes, streamlining training, and ensuring compliance.

Custom Orthodontic Aligner Manufacturer Ensures Compliance With Tulip

A pioneering orthodontic startup is transforming custom aligner production using 3D printing and software to cut time and costs in half while scaling rapidly to ensure quality and compliance.

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DESIGN COMPONENTS & SERVICES

High Performance TE Cooled Fiber Optic Spectrometer: SILVER-Nova

The SILVER-Nova high performance, TE cooled fiber optic spectrometer provides research grade high resolution and optical sensitivity for spectroscopic applications in the 190-1110nm wavelength range. The system is portable, packaged in a rugged metal enclosure for use with a single strand fiber optic cable.

Brushless DC Servomotor: 1218...B Series

With MICROMO’s brushless DC electric motor, the ironless, self-supporting, skew-wound copper coil is a component of the stator.

Deuterium Lamps for Blood Analyzers

Hamamatsu’s line of deuterium lamps feature excellent stability, a long lifetime, and high output brightness, making them an ideal light source in blood analyzers.

Solenoid Valves: LSP Series
Solenoid Valves: LSP Series

The LSP Series consists of 2-way, manifold mounted valves with a normally closed design. The valves are equipped with features that including a working pressure of 15 psig, zero dead (unswept) volume, 30ms response time, and a full bore flow path.

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NS4 ABS Series: Medical-Grade Couplings

Patented NS4 Series couplings feature non-spill valves in a compact size at a great price. These innovative couplings are lightweight, chemically resistant, and easy-to-use.

Precision Optics Brochure
The High Precision Optics brochure describes the firm’s manufacturing capabilities for sapphire windows, substrates, lenses and prisms; high-performance laser optics
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MEDICAL DEVICE DESIGN & DEVELOPMENT

Medical device design and development is the cyclical process of creating a device for a specific task or set of tasks, and then continuously reevaluating its effectiveness and improving upon it until the device reaches obsolescence. Design and development begins with ideation and the creation of a concept that, if found to be both fiscally and clinically viable, is then designed, engineered, and prototyped. This preclinical period includes bench testing — accomplished through simulated use of the product — and animal testing, along with any necessary redesign work.

Throughout the process, the proposed medical device, and the process by which it will be manufactured, is examined for flaws that may negatively impact the device’s safety, market viability, regulatory acceptance, customer satisfaction, usability, or profitability. Any shortcomings are corrected, and the improvements applied to the final design. Due to the wireless connectivity capabilities of many modern medical devices, cybersecurity and interoperability also must be incorporated into the design. Clinical testing is conducted, using human subjects, to further expose flaws and confirm product strengths. Once both the product design and the manufacturing process have been validated and approved by the U.S. Food and Drug Administration (FDA), production and commercialization of a device may begin.

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