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  • Medical Device Design : Innovation from Concept to Market
    Medical Device Design : Innovation from Concept to Market

    Medical Device Design: Innovation from Concept to Market, Second Edition provides the bridge between engineering design and medical device development.There is no single text that addresses the plethora of design issues a medical devices designer meets when developing new products or improving older ones; this book fills that need.It addresses medical devices' regulatory (FDA and EU) requirements, shows the essential methodologies medical designers must understand to ensure their products meet requirements, and brings together proven design protocols, thus enabling engineers and medical device manufacturers to rapidly bring new products to the marketplace. This book is unique because it takes the reader through the process of medical device development, from very early stages of conceptualization, to commercialization on the global market.This rare resource can be used by both professionals and newcomers to device design.

    Price: 115.00 £ | Shipping*: 0.00 £
  • Medical Innovation : Concepts, Delivery and the Future of Healthcare
    Medical Innovation : Concepts, Delivery and the Future of Healthcare

    An essential text for innovators, this accessible book explains how medical and healthcare professionals and students who are new to innovation in healthcare can best progress their innovation projects and how those interested in healthcare innovation can develop an improved understanding of novel treatments and developments.The book provides a clear framework for the innovation pathway, describing step-by-step how projects are taken from concept to marketing, and also includes a current assessment of emerging technologies that will influence medical innovation in the future. Key Features:Wide-ranging and comprehensive coverage of the field, from digital health and AI technologies, through stem-cell applications and robotic surgery, to specialty-specific innovations including those in cardiology, public health and ophthalmologyIllustrated with real-life examples of success and failure and what can be learned from these projectsReflects a greater emphasis on clinical innovation within health systems and its inclusion in undergraduate and postgraduate medical curriculae and medically related coursesSupports national and international initiatives to encourage innovation in healthcare and maximize the novel ideas generated by university staff and students, as well as practicing cliniciansIdeal for students at both undergraduate and postgraduate level and medical practitioners and allied medical health professionals, it will also be of interest to clinical innovators and healthcare businesses seeking to increase uptake of their products both in the UK and internationally.

    Price: 46.99 £ | Shipping*: 0.00 £
  • Medical Technology : Genomics, Growing Organs and More
    Medical Technology : Genomics, Growing Organs and More

    Can you imagine going on a trip into space? What about flying along at 300 miles an hour in a levitating train? Or clinging onto your seat at a 4D movie? Thanks to STEM, soon you can do all this and more! Science, technology, engineering and maths are bringing new toys, tolls and technological gadgets into our everyday lives.Come and meet Professor Tess Tube, and join her STEM school, where you will learn about the amazing gadgets and gizmos that are all around us.

    Price: 13.99 £ | Shipping*: 3.99 £
  • Bioelectronics and Medical Devices : Applications and Technology
    Bioelectronics and Medical Devices : Applications and Technology

    This new volume provides an abundance of information on new biomedical applications being used today.The book covers a wide range of concepts and technologies, discussing such modern technological methods as the Internet of Things, e-pills, biomedical sensors, support vector machines, wireless devices, image and signal processing in e-health, and machine learning.It also includes a discussion on software implementation for the devices used in biomedical applications.The different types of antennas, including antennas using RF energy harvesting for biomedical applications, are covered as well.

    Price: 82.99 £ | Shipping*: 0.00 £
  • Is there a difference between medical technology and medical informatics?

    Yes, there is a difference between medical technology and medical informatics. Medical technology refers to the tools, equipment, and procedures used in healthcare to diagnose, monitor, and treat patients, such as MRI machines, surgical robots, and pacemakers. On the other hand, medical informatics focuses on the use of technology and data to improve healthcare delivery, patient outcomes, and research. It involves the collection, storage, analysis, and interpretation of healthcare data to inform decision-making and improve the efficiency and quality of healthcare services. In summary, medical technology involves the physical tools and equipment used in healthcare, while medical informatics involves the use of technology and data to improve healthcare processes and outcomes.

  • How can one study medical technology?

    One can study medical technology by enrolling in a degree program in biomedical engineering, medical technology, or a related field. These programs typically offer courses in biology, chemistry, physics, and engineering, as well as specialized courses in medical device design, healthcare systems, and regulatory affairs. Additionally, students can gain practical experience through internships or co-op programs at hospitals, research labs, or medical device companies. Graduates can pursue careers in medical device development, healthcare technology management, or research and development in the medical field.

  • Should one study medical technology or not?

    Studying medical technology can be a rewarding career choice for those interested in healthcare and technology. It offers the opportunity to work at the intersection of medicine and innovation, contributing to advancements in patient care and treatment. With the increasing demand for healthcare professionals and the rapid development of medical technology, pursuing a degree in this field can lead to diverse job opportunities and a fulfilling career helping others. Ultimately, the decision to study medical technology should be based on individual interests, career goals, and passion for making a difference in the healthcare industry.

  • What do you do in medical technology?

    In medical technology, I work on developing and implementing innovative tools and devices that help improve patient care, diagnosis, and treatment. This involves collaborating with healthcare professionals to understand their needs and challenges, conducting research to develop new technologies, and testing and validating these solutions in clinical settings. Ultimately, my goal is to leverage technology to enhance the quality of healthcare delivery and outcomes for patients.

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  • Law, Medicine, and Medical Technology, Cases and Materials
    Law, Medicine, and Medical Technology, Cases and Materials

    Five years after publication of the third edition, and reflecting the dynamic nature of the pharmaceutical and medical device industries (as well as the many different areas of law that pertain to the management of these medical technologies), the Fourth Edition incorporates the latest legislative, regulatory, and judicial developments, describes recent scientific advances, and excerpts or references new scholarly contributions to this broad field (the wealth of citations should facilitate use in a seminar setting).Measured by volume, more than 20% of the previous edition has been replaced with new material.The latest edition retains the same basic thematic approach and modular structure of the original, which allows instructors to pick and choose the materials to cover based on their own tastes and areas of expertise.

    Price: 309.00 £ | Shipping*: 0.00 £
  • Technology Innovation in Manufacturing
    Technology Innovation in Manufacturing

    This text identifies and discusses different technology innovation initiatives (TIIs) such as entrepreneurial capability, technology infrastructure capability, organizational culture and climate, and government initiatives.It further evaluates the relationship between various technology innovation initiatives and manufacturing performances using multi-criteria decision-making techniques such as fuzzy set theory (FST), structural equation modeling (SEM), and analytic hierarchy process (AHP).It will serve as an ideal reference text for graduate students and academic researchers in the field of industrial engineering, manufacturing engineering, mechanical engineering, automotive engineering. This book:• Discusses technology innovation initiatives such as entrepreneurial capability, technology infrastructure capability, and organizational culture. • Highlights technology innovation-strategy model in assisting manufacturing industries for enhancing their performance in today’s competitive environment. • Examines the effect of technology innovation initiatives on the performance of manufacturing industries. • Covers multi-criteria decision-making techniques such as fuzzy set theory, structural equation modeling, and analytic hierarchy process. • Explores the validation of fuzzy-based technology innovation model through structural equation modeling.

    Price: 115.00 £ | Shipping*: 0.00 £
  • Portable Doctor Stethoscope Professional Medical Equipments Medical Cardiology Stethoscope Medical
    Portable Doctor Stethoscope Professional Medical Equipments Medical Cardiology Stethoscope Medical

    Portable Doctor Stethoscope Professional Medical Equipments Medical Cardiology Stethoscope Medical

    Price: 2.20 € | Shipping*: 1.99 €
  • Innovation in Information Technology
    Innovation in Information Technology


    Price: 110.00 £ | Shipping*: 0.00 £
  • Can I study medical technology without having physics?

    While it is possible to study medical technology without having a background in physics, it is highly recommended to have a basic understanding of physics. Physics plays a crucial role in understanding the principles behind medical imaging, radiation therapy, and other medical technology applications. Without a foundation in physics, it may be challenging to grasp the underlying concepts and principles in medical technology. Therefore, having a basic understanding of physics can greatly benefit your studies and future career in medical technology.

  • How many grades are needed to study medical technology?

    To study medical technology, typically a minimum of 12 grades are needed. This includes completing high school with a strong foundation in science and math subjects. Additionally, some programs may require specific prerequisites or additional coursework beyond high school. It is important to research the specific requirements of the program or institution you are interested in to ensure you meet all necessary criteria.

  • What are the different disciplines within medical technology, electrical engineering, and biopharmaceutical technology?

    Medical technology encompasses a range of disciplines including medical imaging, diagnostic equipment, surgical instruments, and patient monitoring devices. Electrical engineering within the medical field focuses on the design and development of medical devices, such as pacemakers, MRI machines, and ultrasound equipment. Biopharmaceutical technology involves the study and application of biological systems and organisms to develop pharmaceutical products, including drug delivery systems, vaccines, and biotechnology-based therapies. Each of these disciplines plays a crucial role in advancing healthcare and improving patient outcomes.

  • Is there a difference between medical technology and biomedical engineering?

    Yes, there is a difference between medical technology and biomedical engineering. Medical technology refers to the tools, equipment, and procedures used in healthcare to diagnose, monitor, and treat patients. Biomedical engineering, on the other hand, is a field that combines principles of engineering and biology to develop innovative solutions for healthcare challenges. Biomedical engineers design and create medical devices, equipment, and systems to improve patient care and advance medical research. In summary, medical technology is a component of healthcare that includes products and procedures, while biomedical engineering is a specialized field that focuses on applying engineering principles to healthcare.

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