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Featured
SOLVOTEC - Medical Device Engineering
... SOLVOTEC - Medical Device Engineering ...
Reutlingen, Germany
51-100 Employees
1985
Erleben Sie den ersten Rollator mit elektrischem Antrieb. Erleben Sie die Weiterentwicklung des belifted, den erfolgreichen Lift mit elektrischem Antrieb.
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Featured
BEMOTEC - Medical Devices, Engineering & Mechanics
... BEMOTEC - Medical Devices, Engineering & ...
West Valley City, United States
11-50 Employees
2009
AuST Manufacuturing provides design services and component manufacturing in support of complex medical device development programs. We specialize in cardiovascular catheters and minimally invasive devices. Our approach supports agility during early phases of product development while charting a clear path to scalable manufacturing. We offer a range of unique technologies to improve catheter performance and manufacturability. These include application of hydrophilic and hydrophobic coatings to internal and luminal surfaces and automated incorporation of lumens and actuators into braided catheter walls. We incorporate a wide range of technical capabilities into our production lines which include flexible layouts to support low volume manufacturing and cell-based lines for scale. Our capabilities include braiding, lamination, forming, injection molding, web and film coating, laser welding, and electrical and mechanical assembly.
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Featured
Technology – AuST Custom Medical Device Manufacturing and Engineering
... Technology – AuST Custom Medical Device Manufacturing and Engineering ...
Ireland
Gilltech Engineering Ltd was founded in 1999 by Marcus Gill who after serving his apprenticeship and gaining 10 years experience with leading engineering companies saw a need for high quality and rapid turn around precision engineered products for the medical device industry in the West of Ireland. Located in the Oranmore Business Park, Gilltech has continuously invested in cutting edge engineering technology and the knowledge of its team so it can deliver on our promise to our customers. We promise rapid delivery of high quality bespoke products that match your requirements exactly. For existing customers who have emergency situations we can provide parts with same day turn around. The core of our business is our experienced and skilled staff, most of whom have been with us for over 10 years.
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Featured
Gill Tech Medical Devices | Gilltech Engineering - Medical Device Development & Manufacturing
... Gill Tech Medical Devices | Gilltech Engineering - Medical Device Development & ...
Riom, France
1-10 Employees
2012
Start-up, entreprises en incubation, laboratoires de recherche, groupes internationaux, fabricants de dispositifs médicaux, nos donneurs d’ordre sont divers. Notre équipe de scientifiques et d’Ingénieurs s’engage à partager leurs expériences et connaissances de plus de 20 années dans le domaine des dispositifs médicaux. La rencontre avec MDE s’est faite alors que nous préparions un essai clinique avec un produit de thérapie cellulaire issu de l’ingénierie tissulaire. Professeur des universités, Université d’Evry Val d’Essonne et Responsable d’équipe au laboratoire ISTEM. Cela fait maintenant 4 ans que nous travaillons avec MDE et nous en sommes très satisfait.
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Featured
Medical Device Engineering
... Medical Device Engineering : R&D, industrialisation de dispositifs mé ...
Hiawassee, United States
1-10 Employees
1988
We are dedicated to our clients, and they benefit from our success. Company Background: We are a European organization founded in the early 1900's and expanded to the US markets in 1985. We boost your bottom line with a strong mission and a clear vision.
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Featured
Atlanta Executive Search, LLC - Battery Recruiter, Batteries, Headhunter, Search, Energy, Lithium, Power
... EV's - Data Centers - Telecom - Grid Storage - Reserve Power - Medical Devices - Engineering - Sales - Business Development - ...
East Hertfordshire, United Kingdom
1-10 Employees
2004
At Ronsek, our expertise in medical devices spans from research and development to production. We are dedicated to creating solutions that improve lives, and our focus on innovation ensures we stay ahead of the curve. At Ronsek, we specialize in technological research and products development. We are dedicated to creating solutions that will shape the future. Ronsek is a technology research and products development company based in Herts, near London, UK. We take pride in our precision and attention to detail, delivering products that meet the highest standards. We specialize in medical devices, engineering, smart materials, piezoelectric, energy harvesting, electric cars, energy storage, Gene, DNA, RNA, metal health.
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Featured
Technology Research and Products Development for Medical Devices | Herts, UK | Ronsek
... We specialize in technology research and products development for medical devices, engineering, smart materials, and more. Based in Herts near London, UK. ...
Katy, United States
51-100 Employees
2012
Velentium is a Houston-based professional engineering firm specializing in the end-to-end design, development, manufacturing and post-market support of therapeutic and diagnostic active medical devices. Velentium is a professional engineering firm specializing in the design and manufacturing of therapeutic and diagnostic active medical devices. Velentium specializes in the end-to-end design, development, manufacturing and post-market support of therapeutic and diagnostic active medical devices. Velentium is a contract & consulting firm with core competencies in Class III active implantable development. We are ISO 13485 certified and FDA-registered, able to work as a contract manufacturer or as the manufacturer of record, depending on your needs. Velentium's depth and breadth of development experience and familiarity with cybersecurity regulation and best practices enables you to navigate the constraints of secure medical device development. Velentium and Spark’s cultures matched, so we knew we could trust Velentium from Day 1. Velentium is committed to its clients’ success and will ensure that projects are completed with excellence and honor.
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Featured
About Velentium | World Class Medical Device Engineering
... Innovating for Better Healthcare: How Velentium Leads the Way in Medical Device Engineering ...
West Lafayette, United States
11-50 Employees
1983
At MED Institute, we are dedicated to bringing new medical products to market that are safe and effective for patients. We are committed to consistently performing services with high quality, that deliver exceptional results, and add value to the client’s business. Founded by President Neal Fearnot, MED Institute began as a company to translate medical device ideas from the lab, bench, or back of a napkin into commercial devices. MED has developed many first to market devices, such as the first peripheral drug coated stent, the first coronary stent, endovascular grafts and many delivery systems. Our optimized product development services coordinated with regulatory approval and early clinical evaluation processes, helps reduce cost and time to accelerate your technology into the product life cycle. We support entrepreneurs, consultants, developers, and manufacturers of medical products through the entire product life cycle; providing services as needed from initial concept through product approval to post market needs.
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Featured
Medical Device Engineering
... medical device engineering - experts in medical device development, R&D engineering, and medical device development process. ...
San Jose, United States
1-10 Employees
1985
We are committed to creating a safer and more sustainable business as good stewards for the earth and champions for true diversity. When you need more bandwidth for a product line, more machining resources due to logistical changes, or better technology to improve your process, MMT delivers an unmatched depth of service to solve your unique and urgent business challenges. MMT is committed to environmental sustainability in its workplace and community at large. Recognized as a global leader in coil winding and catheter lamination, EBD is committed to developing best-in-class, precision equipment for the medical device manufacturing industry.
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Featured
Medical Device Engineering
... Engineering By Design specializes in medical device engineering for the creation of micro coil winders and catheter laminators for med-device manufacturers. Learn more about us. ...
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Some interesting numbers and facts about the results you have just received for Medical Device Engineering
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 44 |
| Amount of suitable service providers | 59 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1983 |
| Youngest suiting company | 2012 |
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Medical Device Engineering is a specialized branch of engineering that focuses on the design, development, manufacturing, and maintenance of medical devices and equipment used in healthcare. This multidisciplinary field combines principles from mechanical, electrical, materials science, and biomedical engineering to create devices that diagnose, monitor, and treat medical conditions or improve the quality of life for individuals. Key aspects of medical device engineering include understanding the complex regulatory environments, ensuring patient safety and device efficacy, and integrating advancements in technology to meet clinical needs. Engineers in this field must navigate stringent regulatory standards, such as those set by the U.S. Food and Drug Administration (FDA) and the European Union's Medical Device Regulation (MDR), to ensure their products meet safety and performance criteria before reaching the market. The impact of medical device engineering within the healthcare industry is profound, as it plays a crucial role in advancing medical treatments, improving patient outcomes, and reducing healthcare costs. Innovations in this field have led to the development of life-saving devices such as pacemakers, artificial organs, diagnostic imaging systems, and minimally invasive surgical tools, significantly advancing the capabilities of modern medicine. Furthermore, with the rise of digital health technologies, medical device engineering is at the forefront of integrating software with hardware to develop wearable technologies, telehealth platforms, and personalized medicine solutions, thereby revolutionizing patient care and healthcare delivery.
1. Enhanced Patient Safety:
Medical device engineering focuses on creating devices that are safer for patient use. Through rigorous testing and adherence to stringent standards, these engineered devices reduce the risk of errors and increase the reliability of medical treatments. This emphasis on safety helps to minimize complications and improve overall patient outcomes.
2. Innovation and Customization:
This field is at the forefront of technological innovation, enabling the development of cutting-edge medical devices that can be tailored to meet the specific needs of patients. Through medical device engineering, new solutions are constantly being developed to address unmet medical needs, leading to more effective treatments and improved quality of life for patients.
3. Cost-Effectiveness:
While the initial development and production costs can be high, the long-term use of well-engineered medical devices can lead to significant cost savings for healthcare systems. By improving treatment efficacy and reducing the need for repeat procedures, engineered devices can offer a more cost-effective solution over time compared to less sophisticated alternatives.
4. Regulatory Compliance:
Medical device engineering ensures that products meet all necessary regulatory standards and requirements before they reach the market. This rigorous process ensures that devices are not only effective but also comply with international safety and quality standards, protecting both patients and healthcare providers from the risks associated with non-compliant products.
While evaluating the different suppliers make sure to check the following criteria:
1. Technical Expertise and Experience
Ensure the supplier has a proven track record in medical device engineering, including relevant certifications (e.g., ISO 13485). Experience with similar projects or devices can be a strong indicator of their capability.
2. Regulatory Compliance and Quality Management System
The supplier should have a robust quality management system in place, compliant with international standards and regulations applicable to medical devices, such as FDA regulations and EU MDR.
3. Innovation and Design Capabilities
Look for suppliers with a strong focus on innovation and the ability to offer design and development services that can add value to your medical device.
4. Scalability and Flexibility
The supplier should be able to scale production up or down based on your needs and be flexible in adapting to changes in the project scope or timelines.
5. Supply Chain and Manufacturing Efficiency
Assess the efficiency of their supply chain and manufacturing processes to ensure they can meet your deadlines and quality standards.
6. Post-Market Support
After-sales support is crucial for medical devices. The supplier should offer comprehensive post-market support services, including maintenance, repair, and handling of any regulatory issues.
Medical device engineering plays a crucial role in the healthcare industry, providing advanced solutions through technology. One significant B2B use case is in the development and production of diagnostic equipment. Companies specializing in medical device engineering collaborate with healthcare providers to design and manufacture devices that can accurately diagnose diseases, improving patient outcomes and healthcare efficiency. Another vital use case involves surgical instruments and equipment. Medical device engineering firms work closely with hospitals and surgical centers to create precise, reliable tools that facilitate complex surgeries. This collaboration ensures that surgical procedures are safer and more effective, enhancing patient care and recovery times. Wearable health technology represents a burgeoning area where medical device engineering intersects with consumer health monitoring. Engineering firms partner with wellness companies to design wearable devices that track health metrics, such as heart rate and blood glucose levels. This collaboration promotes proactive health management and supports chronic disease monitoring outside traditional clinical settings. Lastly, telemedicine solutions have gained prominence, especially in remote patient monitoring. Medical device engineering companies team up with telehealth providers to develop devices and platforms that enable healthcare professionals to monitor patients' health remotely. This use case is critical in extending healthcare access to underserved areas, ensuring continuous patient care without the need for physical clinic visits. In summary, medical device engineering facilitates significant advancements across diagnostics, surgical tools, wearable health technology, and telemedicine, demonstrating its critical role in enhancing healthcare delivery and patient outcomes through B2B collaborations.
Medical device engineering encompasses a broad spectrum of technologies, each at varying stages of development, making it challenging to pinpoint a single Technology Readiness Level (TRL). However, a significant portion of the field can be said to operate predominantly within the TRL 4 to TRL 7 range. This is because the sector consistently demonstrates activities from validating laboratory-based prototypes (TRL 4) to conducting pilot-scale demonstrations in relevant environments (TRL 7). The progression to these levels is underpinned by rigorous regulatory requirements, extensive research and development investments, and the critical need for comprehensive clinical trials to ensure safety and efficacy. The technical complexity of transitioning from conceptual designs to devices that are safe and effective for patient use necessitates iterative testing and validation processes. Innovations in materials science, bioengineering, and digital health technologies (e.g., wearable devices and telehealth systems) further contribute to this range of TRLs. These advancements must undergo stringent validation in controlled and then real-world environments to meet regulatory standards. Moreover, the integration of advanced technologies like artificial intelligence and machine learning into medical devices introduces additional layers of complexity, requiring extensive data validation and ethical considerations. Thus, while individual projects within medical device engineering may reach higher TRLs, the field, as a whole, typically navigates within the mid-range of the TRL spectrum due to these technical and regulatory intricacies.
**Short-Term:** In the immediate future, medical device engineering is set to benefit significantly from advancements in materials science and miniaturization technologies. These developments will enable the production of more compact, efficient, and less invasive medical devices. Wearable technology will see a surge in adoption for continuous health monitoring, leveraging IoT (Internet of Things) for real-time data collection and analysis. Additionally, 3D printing will become more prevalent in creating customized prosthetics and implants, enhancing patient comfort and device compatibility. **Mid-Term:** Over the next few years, AI and machine learning integration into medical devices will mark a transformative phase. This will result in devices that are not only diagnostic but also predictive, offering personalized medicine based on patient-specific data. Robotics will also play a crucial role, with surgical robots becoming more autonomous, guided by AI to perform complex procedures with precision beyond human capability. Furthermore, the advent of bioresorbable electronics, which safely dissolve in the body, will eliminate the need for device removal surgeries, reducing patient risk and healthcare costs. **Long-Term:** Looking further ahead, the convergence of nanotechnology and medical device engineering will usher in a new era of healthcare. Nanodevices capable of circulating within the human body to deliver drugs, repair tissues, or detect diseases at their earliest stages will become a reality. Additionally, advancements in brain-computer interfaces (BCIs) will offer groundbreaking treatments for neurological conditions, enhancing or even restoring brain function. This period will also witness the emergence of fully integrated systems where personalized health monitoring and intervention devices communicate seamlessly with global healthcare networks, enabling a proactive and preventive healthcare model.
Some interesting questions that has been asked about the results you have just received for Medical Device Engineering
What are related technologies to Medical Device Engineering?
Based on our calculations related technologies to Medical Device Engineering are Biomedical (Red), Bioinformatics (Gold), Environmental Biotechnology (Grey), Agricultural Biotechnology (Green), Food Related Biotechnology (Yellow)
Which industries are mostly working on Medical Device Engineering?
The most represented industries which are working in Medical Device Engineering are Health Care, Manufacturing, Design, Science and Engineering, Others
How does ensun find these Medical Device Engineering Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
