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O’Fallon, United States
51-100 Employees
1881
Our experienced teams, inside and out in the field, are committed to your total satisfaction. Composed of the most advanced label materials and adhesives available today, our labels are built to last and will hold tightly for years to come. Shamrock Labels has been a leading innovator in labeling for healthcare, pharmacy, laboratory, and research since its inception in 1969. At Shamrock Labels we don’t just sell labels, we provide solutions for the labeling needs of the healthcare, pharmacy, laboratory, and research industries. We’re proud that our experience and expertise in labeling help those on the frontlines deliver better and safer patient care. Our satellite plant in O’Fallon, Missouri, shipping coast to coast, augments our manufacturing capabilities for labels, forms, bags and medication packaging supplies. Our location in Orange, California, provides localized telephone Customer Service and production facilities to speed service and delivery to west coast states. Our team is committed to answering our phones with a live person who will get you an answer.
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MET-3 Biomedical Engineering Equipment Labels
... MET-3 | Biomedical Engineering Equipment ...
Basel, Switzerland
11-50 Employees
2015
The DBE is a joint venture of the University of Basel, the University Hospital Basel and the University Children’s Hospital Basel and is associated with researchers of the University Center for Dental Medicine Basel. The DBE lives translation in embedded research, benchside education, and advanced services. We activate potential by offering unique possibilities and career opportunities for Master students, PhD students and researchers on all levels.
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2/ 11 Opening of the Department of Biomedical Engineering (Image: University of Basel, Peter Schnetz)
... 2/ 11 Opening of the Department of Biomedical Engineering (Image: University of Basel, Peter Schnetz) ...
Vancouver, Canada
1-10 Employees
Welcome to Innovative Biomedical Engineering Ltd., a company dedicated to excellence in medical x-ray radiation surveys, safety testing, staff training, radiation shielding designs and innovations in the field of medical and dental radiography. It provides design and certification of radiation shielding along with testing and certification of x-ray equipment used in medicine, dentistry, veterinary, chiropractic, and research.
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Company - Innovative Biomedical Engineering Ltd.
... Company - Innovative Biomedical Engineering Ltd. ...
Jeddah, Saudi Arabia
1-10 Employees
2017
We are glad to have your inquiries any time, just give us a hint ;). We provide technical support for healthcare facilities, with biomedical products and technology. We are placed in Saudi Arabia, Jeddah city. We do this by providing brands with high-quality products that are well respected within the healthcare industry. Advance Arabian Industrial Services (AAIS) was established in 2017 by a group of engineers, with more than 20 years of work and management experience, as a mediator and platform joining the expertise of medical care professionals, medical industry experts and medical trading. AAIS has been facilitating and offering the exchange of complied experience in the medical field for the purpose of attaining its goals. Integration is the key, so we can differentiate. That is why we offer the convenience of fast service and the assurance that your equipment is ready to perform at any time.
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Biomedical Engineering & Medical Technology
... Biomedical Engineering & Medical Technology, which includes: Monitors & Cardiology, Rehabilitation & Physiotherapy, Infusion Pump, and Biomedical Spare ...
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SL Medtech – Electromedical equipment servicing
... We provide quality support and biomedical engineering service at a fair and competitive price. ...
Cape Town, South Africa
1-10 Employees
2020
Our innovation and designs change the way communities live, both locally and globally. Delfino Design is a Mechanical Engineering Firm based in Cape Town, and was established in 2020. We service the healthcare industry and our talented team of engineers work hard to deliver cost-effective, high-quality solutions. We create innovative engineering solutions and implement them in the fields we operate where a variety of communities can benefit. Our engineering services include Consulting, Concept Design, Detailed Design, 3-D modelling and Research and Development. Contact us to find out how we can help you solve your problem.
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Biomedical Engineering | Delfino Design | Cape Town
... Delfino Design develops novel Biomedical Engineering technologies for rural communities. ...
Nottingham, United Kingdom
1-10 Employees
Here at Yesecart, we specialize in personalized gifts for one and all. We set out to launch Yesecart with one purpose in mind, and that is to change the way people shop online and to make life that little bit easier for our customers. We offer the best deals without compromising on quality as all of our products are top of the range, and as they can all be found in one place, we are happy to bring them to you whilst saving you time too! Great quality, and looks just like it shows on Yesecart.
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Funny Biomedical Engineering Gifts - Biomedical Engineer Mug - Badass Biomedical Engineer
... Shop Our Large Selection of Biomedical Engineering Coffee Mugs. Unique Gift Ideas for Biomedical Engineers. Fast Shipping. Limited Time OnlyThis item is NOT available in stores.Guaranteed safe checkout:PAYPAL | VISA | MASTERCARDClick BUY IT NOW To Order Yours! (Printed And Shipped From The ...
Riyadh, Saudi Arabia
51-100 Employees
2004
Our strength is the result of commitment to quality and diversified activities conducted through different subsidiaries all of which are supported by sound fiscal, management and operational expertise. Our medical equipment repair specialists are experts at maintaining the wide range of medical equipment on the cutting edge of medical technology. INNTEGRA is the latest manufacturing subsidiary of IMAN Group, ISO9001-2015 certified world class 40,000 sqm advanced production facility located in Riyadh Saudi Arabia. Specialized in innovative solutions for a diverse range of contract manufacturing services including precision machining and engineered fabrications. Providing vertically integrated manufacturing for the Oil and Gas, Healthcare, Energy, Industrial, Transportation, and Energy Sectors. We accurately manage projects from A to Z with our experienced team of experts. To apply for a job with IMAN-GROUP, please send a cover letter together with your C.V.
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HOME | imangroup
... BIOMEDICAL ENGINEERING ...
Sydney, Australia
1-10 Employees
2019
Sabrenetics is the world's first cyberware and cyborg clinic for research, standardisation, education, availability and support on Cyberware, Cyborgs and Transhumans. Sabrenetics provides an equal field that anyone can be introduced, learn, be supported, research and experiment on biomedical engineering and related sciences and philosophies. Sabrenetics provides an freely accessible, ease of access, safety guided, knowledge repository and community of likeminded individuals with aims to empower everyone along their own journeys of learning and self discovery and document the ever evolving landscape of biomedical engineered technologies and philosophies. Sabrenetics became the world's first cyberware and cyborg clinic for research, standardisation, education, availability and support on Cyberware, Cyborgs and Transhumans. Sabrenetics is the home for those who choose to augment themselves to become better, different, and in effect become more then human. Sabrenetics invites you to join the next stage of human evolution and become more than human. This innovative research laid the foundation for the discipline of "Engineering Cybernetics," encompassing the knowledge and practical application of cybernetics in designing controlled and guided systems, similar to robotics and control engineering. Cybernetics is a systems analysis and modelling approach.
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Introduction to Biomedical Engineering
... Introduction to Biomedical Engineering — ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Biomedical Engineering
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 123 |
| Amount of suitable service providers | 139 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1881 |
| Youngest suiting company | 2021 |
Biomedical engineering is an interdisciplinary field that merges principles from engineering with biological sciences to develop technologies and systems aimed at enhancing healthcare and medical practices. This field encompasses a wide range of activities, from creating advanced medical devices, such as prosthetics and artificial organs, to developing sophisticated diagnostic machines and imaging systems like MRI and CT scanners. Biomedical engineers work closely with doctors, researchers, and healthcare professionals to design solutions that improve patient care, increase the efficiency of healthcare delivery, and provide new insights into the biological systems of the human body. Their work also extends to the development of biocompatible prostheses, regenerative tissue growth, and the creation of pharmaceuticals. The impact of biomedical engineering is profound, contributing significantly to extending life expectancy, improving the quality of life for individuals with chronic conditions, and advancing the capabilities of medical treatment and diagnosis. By applying engineering principles to the complexities of biological systems, this field plays a crucial role in innovating and optimizing medical care and research, showcasing the power of interdisciplinary collaboration in tackling some of the most challenging problems in healthcare.
1. Interdisciplinary Approach
Biomedical engineering uniquely blends principles of biology, medicine, and engineering, allowing for innovative solutions to healthcare problems. This interdisciplinary approach fosters a broader understanding and capacity to develop technology that improves patient care and medical procedures.
2. Rapid Advancement
The field is at the forefront of technological innovation, with biomedical engineers consistently pushing the boundaries of what's possible in medical treatment and diagnostics. This rapid advancement leads to quicker development and deployment of cutting-edge medical devices and software, directly benefiting patient outcomes.
3. Personalized Medicine
Biomedical engineering plays a crucial role in the evolution of personalized medicine, using genetic information and personal health data to tailor treatments to the individual. This customization can significantly increase the effectiveness of treatments and reduce side effects, offering a superior alternative to one-size-fits-all solutions.
4. Cost Reduction
By improving medical devices and creating more efficient healthcare technologies, biomedical engineering helps to lower the cost of medical care. Innovations in this field can lead to shorter hospital stays, less invasive procedures, and more affordable treatments for patients.
1. Reputation and Experience
Ensure the supplier has a strong track record in the biomedical engineering field, with a history of delivering quality products and services.
2. Quality Assurance and Certifications
Check for relevant certifications (e.g., ISO 13485) that demonstrate their commitment to quality and regulatory compliance.
3. Technological Capabilities
Evaluate their ability to provide the latest and most effective biomedical engineering solutions, including cutting-edge medical devices or innovative materials.
4. Supply Chain Reliability
Consider their supply chain stability and ability to deliver products on time, especially in critical situations.
5. Customer Service and Support
Look for suppliers that offer robust customer support, including training, maintenance, and after-sales service, to ensure smooth implementation and operation.
6. Cost-Effectiveness
While not compromising on quality, assess the supplier's pricing structure to ensure it aligns with your budget and offers value for money.
Biomedical engineering intertwines with the healthcare sector profoundly, offering innovative solutions for diagnostics and treatment. It enables the design and development of advanced medical equipment like MRI machines and wearable health monitors, facilitating better patient care and fostering preventative medicine practices. This convergence of technology and healthcare opens pathways for businesses specializing in medical device manufacturing to innovate and thrive. In the pharmaceutical industry, biomedical engineering plays a crucial role in drug development and delivery systems. Through the utilization of microfluidics and nanotechnology, engineers can create more effective drug delivery mechanisms, enhancing the efficacy of treatments. This integration not only accelerates the drug development process but also offers pharmaceutical companies competitive advantages in creating more targeted and efficient therapies. Another significant use case is in the field of prosthetics and implantable devices. Biomedical engineering contributes to the design and customization of implants, such as hip and knee replacements, tailored to individual patient needs. This customization improves patient outcomes and satisfaction, benefiting businesses in orthopedics and rehabilitation by providing them with cutting-edge solutions that meet the growing demand for personalized medicine. Biomedical engineering also finds applications in the biotechnology industry, particularly in the development of biosensors and diagnostic tools. These innovations enable rapid, accurate disease detection and monitoring, crucial for clinical laboratories and healthcare providers. By leveraging these technologies, companies can offer comprehensive diagnostic solutions, expanding their market reach and enhancing patient care quality.
Biomedical engineering, a field at the intersection of healthcare and technology, encompasses a wide array of applications, each at varying stages of development, rendering a single Technology Readiness Level (TRL) challenging to assign universally. However, many innovations within this domain broadly sit within TRLs 4 through 7. This range signifies that numerous biomedical technologies have moved beyond theoretical research (TRLs 1-3) and are in the stages of validation in laboratory environments (TRL 4) or in relevant environments (TRLs 5-6), with some advancing towards demonstration in operational environments (TRL 7). The complexity and diversity of human biology, coupled with rigorous regulatory standards for safety and efficacy, necessitate extensive validation and clinical trials, which inherently slow the transition from concept to clinical application. Innovations such as tissue engineering, wearable medical devices, and robotic surgery systems exemplify the progression through these TRLs, showcasing the iterative process of refinement and testing required to meet stringent medical standards. The technical challenges, from ensuring biocompatibility to achieving precise control in robotic systems, underscore the meticulous engineering and validation efforts defining the field’s current TRL positioning.
In the Short-Term, the biomedical engineering field is set to embrace significant advancements in wearable health monitoring devices. These technologies will become more sophisticated, offering real-time analytics on a user's health status, including blood pressure, glucose levels, and even early detection of potential health issues. The integration of AI and machine learning will enhance the accuracy of diagnostics tools, making preventive healthcare more accessible and efficient. Moving into the Mid-Term phase, we will witness a leap in personalized medicine facilitated by biomedical engineering. The development of biocompatible materials for 3D-printed organ transplants and tissue engineering will see a surge, leading to more successful and less invasive treatment options. Moreover, the application of nanotechnology in drug delivery systems will revolutionize the way treatments are administered, targeting ailments at a cellular level with unprecedented precision. In the Long-Term, the horizon of biomedical engineering will be marked by the integration of cybernetic enhancements and brain-computer interfaces. These advancements will not only assist in restoring lost functions but will also enhance human capabilities, blurring the lines between therapeutic applications and augmentative technologies. Furthermore, the exploration of genetic engineering will potentially offer solutions to hereditary diseases, pushing the boundaries of lifespan extension and quality of life improvements.
