Medical Device Design & Development
INDUSTRY PERSPECTIVES
-
![How-To-GettyImages-1315383657]( "Conducting A Medical Device Stability Study: A Practical Guide")
Conducting A Medical Device Stability Study: A Practical GuideStability studies measure how medical devices respond to environmental stresses such as temperature, humidity, light, and time. Let's take a closer look at designing and conducting a stability study.
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.
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.”
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.
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.
WHITE PAPERS & CASE STUDIES
-
![GettyImages-2086161977-blister-packaging-liquid-medical-medicine]( "Deterministic Nondestructive Seal Integrity Testing")
Deterministic Nondestructive Seal Integrity TestingDeterministic, non-destructive seal integrity testing delivers validated, quantitative results. Learn why this method outperforms traditional approaches in ensuring patient safety and product quality.
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.
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.
Discover how a top medical device manufacturer accelerated product launch by digitizing assembly processes, streamlining training, and ensuring compliance.
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.
DESIGN COMPONENTS & SERVICES
Automated cells can improve quality, reduce labor, lower cycle times and increase production. At SMC, we take pride in offering industry-differentiating automation expertise. We are committed to meeting or exceeding our customers’ requirements by designing and building work cells that gain a competitive edge. Our in-house automation team will design cutting-edge automation customized to your specific program, ensuring that your requirements for quality and reliability are met time and time again.
The OV’R Driver is a miniature electronic device placed between a voltage source and a solenoid valve. This circuit has a self-contained 'spike & hold' voltage controller that allows the valve to run at various voltages to compensate for fluctuations in power sources. One key advantage of the OV’R Driver circuit is its ability to self-adjust the pulse width of the output spike voltage based on the input voltage level.
DSM offers BioSpan® Segmented Polyether Polyurethane (SPU) as a medical-grade polymer with excellent flex life for superior performance in many different types of medical devices. This elastomeric polymer has shown the ability to withstand millions of flex cycles.
The SR series of miniature optical encoders has been designed to fit into motion control devices with limited space, such as robotic arms for surgery, nanopositioning stages, microscopes, and other medical devices.
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.
LATEST HEADLINES
-
Accumold Makes Pharmapack Europe Debut To Support Next-Generation Drug Delivery And Pharma Packaging1/15/2026
See how precision micro molding enables scalable, reliable drug delivery and pharmaceutical packaging designs as industry experts debut at Pharmapack Europe 2026 in Paris, January 21–22.
-
AbbVie To Buy Device Manufacturing Facility From West Pharmaceutical Services1/14/2026
The acquisition of the Tempe, Arizona facility will expand U.S.-based drug delivery device capacity and support the company’s $10 billion manufacturing investment.
-
Accumold Brings Micro Molding Precision To Photonics West 2026 As Optical Innovation Accelerates1/13/2026
Accumold, a global leader in precision micro molding, will exhibit at SPIE Photonics West 2026 (January 20-22, San Francisco, USA), the premier event for lasers, biomedical optics, optoelectronics, and technologies supporting biophotonics, quantum, and vision applications.
-
Accumold Returns To MD&M West 2026 To Help Medical Oems De-Risk Miniaturization And Scale Micro Parts1/6/2026
Accumold returns to MD&M West 2026, Booth 2828, showcasing medical micro molding expertise, Design for Micro Molding guidance, and scalable, high-precision production for next-generation devices.
-
Accumold Achieves ISO 13485 Recertification, Reaffirming Commitment To Precision In Medical Micro Molding11/24/2025
Accumold secures ISO 13485 recertification, reinforcing its commitment to precision, quality, and reliability in micro molded components for demanding medical device applications worldwide.
-
Accumold To Exhibit At Medevice Silicon Valley, Showcasing Micro Molding Expertise For Cutting-Edge Medtech11/11/2025
Accumold will showcase its world-leading micro molding expertise at MEDevice Silicon Valley, Booth #1034, helping medtech innovators accelerate design, de-risk production, and achieve micron-level precision.
-
Accumold To Showcase Micro Molding Innovation At COMPAMED 202511/1/2025
Discover Accumold’s micro molding expertise at COMPAMED 2025, where ultra-precision, scalability, and DfMM capabilities showcase how next-generation medical devices are enabled through unmatched miniaturization and manufacturing reliability.
-
Discover Medbio's Medical Molding Expertise At MEDevice Silicon Valley 202510/23/2025
Visit Medbio at Booth #941, November 19–20, to explore custom injection molding and assembly solutions, supporting Class I–III devices with quality, compliance, and MedTech innovation.
-
Ensera Launches As New Brand Identity For SteriPack10/14/2025
New trading name reflects expanded expertise across design, manufacturing, assembly and packing for global pharma and medical device companies.
-
MTD Expands Metrology Capabilities To Accelerate Innovation9/29/2025
MTD Micro Molding expands its metrology capabilities with a cutting-edge optical 3D system, enabling faster, traceable, nanometer-precision measurements for complex micro medical components and tooling analysis.