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Advanced Technology Medical Equipment: Revolutionizing Healthcare
Author: Dr. Evelyn Reed, PhD, Biomedical Engineering
Dr. Evelyn Reed holds a PhD in Biomedical Engineering from Stanford University and has over 15 years of experience in the development and application of advanced technology medical equipment. Her research focuses on the intersection of medical imaging, AI, and minimally invasive surgical techniques. She is a frequent contributor to leading medical journals and a sought-after speaker at international conferences.
Publisher: Medical Innovations Journal (MIJ), a leading peer-reviewed publication specializing in advancements in medical technology and their impact on patient care. MIJ is renowned for its rigorous editorial process and commitment to disseminating high-quality research findings to a global audience.
Editor: Dr. Alistair Finch, MD, PhD, a specialist in medical technology assessment and regulatory affairs with over 20 years of experience.
Keywords: advanced technology medical equipment, medical technology, healthcare technology, medical imaging, minimally invasive surgery, AI in medicine, telemedicine, robotic surgery, digital health, precision medicine
Introduction:
The field of medicine is undergoing a rapid transformation driven by the integration of advanced technology medical equipment. This sophisticated technology is not only improving the accuracy and efficiency of diagnoses and treatments but also enhancing patient outcomes and overall healthcare quality. This article explores various methodologies and approaches employed in the development and application of advanced technology medical equipment, covering key areas and their impact on modern healthcare.
1. Medical Imaging: Seeing Beyond the Visible
Advanced technology medical equipment plays a crucial role in medical imaging, providing unprecedented clarity and detail in visualizing the internal structures of the human body. Techniques such as:
Computed Tomography (CT) scans: Employ X-rays to create detailed cross-sectional images, allowing for the detection of tumors, fractures, and other internal abnormalities. Advanced CT scanners offer faster scan times, lower radiation doses, and improved image resolution.
Magnetic Resonance Imaging (MRI): Uses powerful magnetic fields and radio waves to generate high-resolution images of organs and tissues. Advanced MRI techniques, such as functional MRI (fMRI) and diffusion tensor imaging (DTI), provide insights into brain activity and the integrity of white matter tracts.
Positron Emission Tomography (PET) scans: Utilize radioactive tracers to visualize metabolic activity within the body, aiding in the detection and staging of cancers and neurological disorders. Advanced PET/CT scanners combine the capabilities of PET and CT for more comprehensive imaging.
Ultrasound: Employs high-frequency sound waves to create real-time images of internal organs and tissues. Advanced ultrasound technologies, such as elastography and contrast-enhanced ultrasound, offer improved diagnostic accuracy and capabilities.
The continuous development of advanced technology medical equipment in medical imaging leads to earlier and more precise diagnoses, enabling timely interventions and improved patient outcomes.
2. Minimally Invasive Surgery: Smaller Incisions, Faster Recovery
Minimally invasive surgical techniques, facilitated by advanced technology medical equipment, are revolutionizing surgical procedures. These techniques involve smaller incisions, reducing pain, scarring, and recovery time. Key technologies include:
Robotic surgery: Employing robotic arms controlled by surgeons, allowing for greater precision, dexterity, and flexibility during complex procedures. Advanced robotic systems offer enhanced visualization, improved ergonomics for surgeons, and reduced tremor.
Laparoscopic surgery: Utilizes small incisions and specialized instruments to perform surgery, minimizing tissue trauma and reducing the risk of complications. Advanced laparoscopic techniques, such as single-port surgery, further reduce the invasiveness of the procedure.
Endoscopy: Involves inserting thin, flexible tubes equipped with cameras and lights to visualize internal organs and perform procedures. Advanced endoscopes offer high-resolution imaging, improved maneuverability, and the ability to perform biopsies and other minimally invasive interventions.
The use of advanced technology medical equipment in minimally invasive surgery is transforming surgical care, making complex procedures less invasive, safer, and more accessible to patients.
3. Artificial Intelligence (AI) in Medicine: Data-Driven Diagnosis and Treatment
AI is rapidly transforming the healthcare landscape, with advanced technology medical equipment playing a central role. AI algorithms can analyze vast amounts of medical data to assist in:
Image analysis: AI can detect subtle patterns and anomalies in medical images that may be missed by the human eye, improving diagnostic accuracy.
Predictive modeling: AI algorithms can predict patient risk, personalize treatment plans, and optimize healthcare resource allocation.
Drug discovery and development: AI is accelerating the process of identifying and developing new drugs and therapies.
Robotic-assisted surgery: AI enhances the precision and safety of robotic surgery by providing real-time feedback and guidance to surgeons.
The integration of AI into advanced technology medical equipment is paving the way for more personalized, precise, and effective healthcare.
4. Telemedicine: Bridging the Distance
Telemedicine, facilitated by advanced technology medical equipment, is expanding access to healthcare, particularly in remote or underserved areas. Telemedicine utilizes video conferencing, remote monitoring devices, and other technologies to provide:
Remote consultations: Patients can consult with doctors remotely, reducing the need for travel.
Remote monitoring: Wearable sensors and other devices can monitor patients' vital signs remotely, allowing for early detection of potential problems.
Remote diagnostics: Advanced technology medical equipment enables remote analysis of medical images and other data.
Telemedicine is expanding access to healthcare and improving patient care, particularly for those in underserved areas.
5. Precision Medicine: Tailored Treatments
Precision medicine leverages advanced technology medical equipment and genomic information to develop tailored treatments for individual patients. This approach considers a patient's unique genetic makeup, lifestyle, and environmental factors to optimize their care. Advanced technology medical equipment used in precision medicine includes:
Next-generation sequencing (NGS): Allows for rapid and cost-effective sequencing of a patient's genome, identifying genetic mutations that may contribute to their disease.
Mass spectrometry: Used to analyze proteins and other molecules in biological samples, providing insights into disease mechanisms and potential therapeutic targets.
Bioinformatics tools: Analyze large datasets of genomic and other biological information to identify patterns and develop personalized treatment plans.
The adoption of advanced technology medical equipment for precision medicine promises to revolutionize healthcare, leading to more effective treatments and improved patient outcomes.
Conclusion:
Advanced technology medical equipment is reshaping the landscape of healthcare, driving improvements in diagnostics, treatments, and patient care. From advanced imaging techniques to minimally invasive surgeries, AI-powered diagnostics, and telemedicine solutions, these innovations are enhancing the quality, efficiency, and accessibility of healthcare services globally. The continued development and integration of these technologies will undoubtedly lead to even more significant breakthroughs in the years to come, promising a future of healthier and longer lives.
FAQs:
1. What are the ethical considerations surrounding the use of AI in medical diagnosis? The use of AI in medical diagnosis raises concerns about data privacy, algorithmic bias, and the potential for misdiagnosis. Careful regulation and validation are crucial.
2. How can telemedicine address healthcare disparities in underserved communities? Telemedicine can overcome geographical barriers, providing access to specialists and reducing the need for costly travel.
3. What are the economic implications of adopting advanced technology medical equipment? While initial investments can be substantial, long-term cost savings are often achieved through improved efficiency and reduced complications.
4. What are the challenges in integrating AI into clinical workflows? Challenges include data integration, algorithm validation, and the need for clinician training and support.
5. What are the potential risks associated with robotic surgery? While generally safe, robotic surgery carries risks such as technical malfunctions, and the need for highly skilled surgeons.
6. How can we ensure the cybersecurity of medical devices connected to the internet? Robust cybersecurity measures are crucial to prevent data breaches and protect patient information.
7. What regulatory pathways are in place for approving new medical technologies? Rigorous regulatory processes are essential to ensure the safety and effectiveness of new medical devices.
8. What role does patient education play in the successful adoption of advanced technology medical equipment? Patient education is vital for ensuring informed consent and promoting the responsible use of these technologies.
9. How can we ensure equitable access to advanced technology medical equipment worldwide? International collaboration and resource allocation are crucial for ensuring that these technologies benefit populations globally.
Related Articles:
1. The Future of Medical Imaging: Exploring the Potential of AI-Powered Diagnostics: This article explores the application of AI in medical imaging, including its potential to improve diagnostic accuracy and efficiency.
2. Minimally Invasive Surgery: A Comprehensive Review of Techniques and Technologies: This article provides a detailed overview of minimally invasive surgical techniques, including robotic surgery, laparoscopy, and endoscopy.
3. The Role of Big Data Analytics in Personalized Medicine: This article examines the use of big data analytics in precision medicine, highlighting the importance of genomic data and other patient-specific information.
4. Telemedicine: Expanding Access to Healthcare in Underserved Areas: This article explores the potential of telemedicine to address healthcare disparities and improve access to care in remote and underserved regions.
5. Robotic Surgery: Advances, Challenges, and Future Directions: This article discusses the latest advancements in robotic surgery, including the use of AI and advanced imaging technologies.
6. The Ethical Implications of Artificial Intelligence in Healthcare: This article delves into the ethical considerations surrounding the use of AI in healthcare, including issues of bias, privacy, and accountability.
7. Cybersecurity in Medical Devices: Protecting Patient Data in a Connected World: This article addresses the challenges of cybersecurity in medical devices, highlighting the importance of robust security measures.
8. Regulatory Pathways for Medical Devices: A Global Perspective: This article examines the regulatory processes for approving new medical devices in various countries.
9. Patient Engagement and the Adoption of Advanced Medical Technologies: This article discusses the importance of patient education and engagement in the successful implementation of new medical technologies.
| advanced technology medical equipment: The Changing Economics of Medical Technology Institute of Medicine, Committee on Technological Innovation in Medicine, 1991-02-01 Americans praise medical technology for saving lives and improving health. Yet, new technology is often cited as a key factor in skyrocketing medical costs. This volume, second in the Medical Innovation at the Crossroads series, examines how economic incentives for innovation are changing and what that means for the future of health care. Up-to-date with a wide variety of examples and case studies, this book explores how payment, patent, and regulatory policiesâ€as well as the involvement of numerous government agenciesâ€affect the introduction and use of new pharmaceuticals, medical devices, and surgical procedures. The volume also includes detailed comparisons of policies and patterns of technological innovation in Western Europe and Japan. This fact-filled and practical book will be of interest to economists, policymakers, health administrators, health care practitioners, and the concerned public. |
| advanced technology medical equipment: Innovation and Invention in Medical Devices Institute of Medicine, Board on Health Sciences Policy, Roundtable on Research and Development of Drugs, Biologics, and Medical Devices, 2001-12-01 The objective of the workshop that is the subject of this summary report was to present the challenges and opportunities for medical devices as perceived by the key stakeholders in the field. The agenda, and hence the summaries of the presentations that were made in the workshop and which are presented in this summary report, was organized to first examine the nature of innovation in the field and the social and economic infrastructure that supports such innovation. The next objective was to identify and discuss the greatest unmet clinical needs, with a futuristic view of technologies that might meet those needs. And finally, consideration was given to the barriers to the application of new technologies to meet clinical needs. |
| advanced technology medical equipment: Modern Methods of Clinical Investigation Institute of Medicine, Committee on Technological Innovation in Medicine, 1990-02-01 The very rapid pace of advances in biomedical research promises us a wide range of new drugs, medical devices, and clinical procedures. The extent to which these discoveries will benefit the public, however, depends in large part on the methods we choose for developing and testing them. Modern Methods of Clinical Investigation focuses on strategies for clinical evaluation and their role in uncovering the actual benefits and risks of medical innovation. Essays explore differences in our current systems for evaluating drugs, medical devices, and clinical procedures; health insurance databases as a tool for assessing treatment outcomes; the role of the medical profession, the Food and Drug Administration, and industry in stimulating the use of evaluative methods; and more. This book will be of special interest to policymakers, regulators, executives in the medical industry, clinical researchers, and physicians. |
| advanced technology medical equipment: Neuroscience Trials of the Future National Academies of Sciences, Engineering, and Medicine, Health and Medicine Division, Board on Health Sciences Policy, Forum on Neuroscience and Nervous System Disorders, 2016-11-07 On March 3-4, 2016, the National Academies of Sciences, Engineering, and Medicine's Forum on Neuroscience and Nervous System Disorders held a workshop in Washington, DC, bringing together key stakeholders to discuss opportunities for improving the integrity, efficiency, and validity of clinical trials for nervous system disorders. Participants in the workshop represented a range of diverse perspectives, including individuals not normally associated with traditional clinical trials. The purpose of this workshop was to generate discussion about not only what is feasible now, but what may be possible with the implementation of cutting-edge technologies in the future. |
| advanced technology medical equipment: Hearing Health Care for Adults National Academies of Sciences, Engineering, and Medicine, Health and Medicine Division, Board on Health Sciences Policy, Committee on Accessible and Affordable Hearing Health Care for Adults, 2016-10-06 The loss of hearing - be it gradual or acute, mild or severe, present since birth or acquired in older age - can have significant effects on one's communication abilities, quality of life, social participation, and health. Despite this, many people with hearing loss do not seek or receive hearing health care. The reasons are numerous, complex, and often interconnected. For some, hearing health care is not affordable. For others, the appropriate services are difficult to access, or individuals do not know how or where to access them. Others may not want to deal with the stigma that they and society may associate with needing hearing health care and obtaining that care. Still others do not recognize they need hearing health care, as hearing loss is an invisible health condition that often worsens gradually over time. In the United States, an estimated 30 million individuals (12.7 percent of Americans ages 12 years or older) have hearing loss. Globally, hearing loss has been identified as the fifth leading cause of years lived with disability. Successful hearing health care enables individuals with hearing loss to have the freedom to communicate in their environments in ways that are culturally appropriate and that preserve their dignity and function. Hearing Health Care for Adults focuses on improving the accessibility and affordability of hearing health care for adults of all ages. This study examines the hearing health care system, with a focus on non-surgical technologies and services, and offers recommendations for improving access to, the affordability of, and the quality of hearing health care for adults of all ages. |
| advanced technology medical equipment: The Role of Telehealth in an Evolving Health Care Environment Institute of Medicine, Board on Health Care Services, 2012-12-20 In 1996, the Institute of Medicine (IOM) released its report Telemedicine: A Guide to Assessing Telecommunications for Health Care. In that report, the IOM Committee on Evaluating Clinical Applications of Telemedicine found telemedicine is similar in most respects to other technologies for which better evidence of effectiveness is also being demanded. Telemedicine, however, has some special characteristics-shared with information technologies generally-that warrant particular notice from evaluators and decision makers. Since that time, attention to telehealth has continued to grow in both the public and private sectors. Peer-reviewed journals and professional societies are devoted to telehealth, the federal government provides grant funding to promote the use of telehealth, and the private technology industry continues to develop new applications for telehealth. However, barriers remain to the use of telehealth modalities, including issues related to reimbursement, licensure, workforce, and costs. Also, some areas of telehealth have developed a stronger evidence base than others. The Health Resources and Service Administration (HRSA) sponsored the IOM in holding a workshop in Washington, DC, on August 8-9 2012, to examine how the use of telehealth technology can fit into the U.S. health care system. HRSA asked the IOM to focus on the potential for telehealth to serve geographically isolated individuals and extend the reach of scarce resources while also emphasizing the quality and value in the delivery of health care services. This workshop summary discusses the evolution of telehealth since 1996, including the increasing role of the private sector, policies that have promoted or delayed the use of telehealth, and consumer acceptance of telehealth. The Role of Telehealth in an Evolving Health Care Environment: Workshop Summary discusses the current evidence base for telehealth, including available data and gaps in data; discuss how technological developments, including mobile telehealth, electronic intensive care units, remote monitoring, social networking, and wearable devices, in conjunction with the push for electronic health records, is changing the delivery of health care in rural and urban environments. This report also summarizes actions that the U.S. Department of Health and Human Services (HHS) can undertake to further the use of telehealth to improve health care outcomes while controlling costs in the current health care environment. |
| advanced technology medical equipment: Advancing Nuclear Medicine Through Innovation National Research Council, Institute of Medicine, Board on Health Sciences Policy, Division on Earth and Life Studies, Nuclear and Radiation Studies Board, Committee on State of the Science of Nuclear Medicine, 2007-09-11 Nearly 20 million nuclear medicine procedures are carried out each year in the United States alone to diagnose and treat cancers, cardiovascular disease, and certain neurological disorders. Many of the advancements in nuclear medicine have been the result of research investments made during the past 50 years where these procedures are now a routine part of clinical care. Although nuclear medicine plays an important role in biomedical research and disease management, its promise is only beginning to be realized. Advancing Nuclear Medicine Through Innovation highlights the exciting emerging opportunities in nuclear medicine, which include assessing the efficacy of new drugs in development, individualizing treatment to the patient, and understanding the biology of human diseases. Health care and pharmaceutical professionals will be most interested in this book's examination of the challenges the field faces and its recommendations for ways to reduce these impediments. |
| advanced technology medical equipment: Rare Diseases and Orphan Products Institute of Medicine, Board on Health Sciences Policy, Committee on Accelerating Rare Diseases Research and Orphan Product Development, 2011-04-03 Rare diseases collectively affect millions of Americans of all ages, but developing drugs and medical devices to prevent, diagnose, and treat these conditions is challenging. The Institute of Medicine (IOM) recommends implementing an integrated national strategy to promote rare diseases research and product development. |
| advanced technology medical equipment: Promoting Access to Medical Technologies and Innovation - Intersections between Public Health, Intellectual Property and Trade World Intellectual Property Organization, 2013 This study has emerged from an ongoing program of trilateral cooperation between WHO, WTO and WIPO. It responds to an increasing demand, particularly in developing countries, for strengthened capacity for informed policy-making in areas of intersection between health, trade and IP, focusing on access to and innovation of medicines and other medical technologies. |
| advanced technology medical equipment: Artificial Intelligence in Healthcare Adam Bohr, Kaveh Memarzadeh, 2020-06-21 Artificial Intelligence (AI) in Healthcare is more than a comprehensive introduction to artificial intelligence as a tool in the generation and analysis of healthcare data. The book is split into two sections where the first section describes the current healthcare challenges and the rise of AI in this arena. The ten following chapters are written by specialists in each area, covering the whole healthcare ecosystem. First, the AI applications in drug design and drug development are presented followed by its applications in the field of cancer diagnostics, treatment and medical imaging. Subsequently, the application of AI in medical devices and surgery are covered as well as remote patient monitoring. Finally, the book dives into the topics of security, privacy, information sharing, health insurances and legal aspects of AI in healthcare. - Highlights different data techniques in healthcare data analysis, including machine learning and data mining - Illustrates different applications and challenges across the design, implementation and management of intelligent systems and healthcare data networks - Includes applications and case studies across all areas of AI in healthcare data |
| advanced technology medical equipment: Medical Innovation in the Changing Healthcare Marketplace National Research Council, Institute of Medicine, Board on Health Care Services, Policy and Global Affairs, Board on Science, Technology, and Economic Policy, 2002-05-06 A wave of new health care innovation and growing demand for health care, coupled with uncertain productivity improvements, could severely challenge efforts to control future health care costs. A committee of the National Research Council and the Institute of Medicine organized a conference to examine key health care trends and their impact on medical innovation. The conference addressed the following question: In an environment of renewed concern about rising health care costs, where can public policy stimulate or remove disincentives to the development, adoption and diffusion of high-value innovation in diagnostics, therapeutics, and devices? |
| advanced technology medical equipment: Medical Equipment Management Keith Willson, Keith Ison, Slavik Tabakov, 2013-12-07 Know What to Expect When Managing Medical Equipment and Healthcare Technology in Your OrganizationAs medical technology in clinical care becomes more complex, clinical professionals and support staff must know how to keep patients safe and equipment working in the clinical environment. Accessible to all healthcare professionals and managers, Medica |
| advanced technology medical equipment: Technology for Adaptive Aging National Research Council, Division of Behavioral and Social Sciences and Education, Board on Behavioral, Cognitive, and Sensory Sciences, Steering Committee for the Workshop on Technology for Adaptive Aging, 2004-04-25 Emerging and currently available technologies offer great promise for helping older adults, even those without serious disabilities, to live healthy, comfortable, and productive lives. What technologies offer the most potential benefit? What challenges must be overcome, what problems must be solved, for this promise to be fulfilled? How can federal agencies like the National Institute on Aging best use their resources to support the translation from laboratory findings to useful, marketable products and services? Technology for Adaptive Aging is the product of a workshop that brought together distinguished experts in aging research and in technology to discuss applications of technology to communication, education and learning, employment, health, living environments, and transportation for older adults. It includes all of the workshop papers and the report of the committee that organized the workshop. The committee report synthesizes and evaluates the points made in the workshop papers and recommends priorities for federal support of translational research in technology for older adults. |
| advanced technology medical equipment: Evidence-Based Medicine and the Changing Nature of Health Care Institute of Medicine, LeighAnne M. Olsen, Elizabeth G. Nabel, J. Michael McGinnis, Mark B. McClellan, 2008-09-06 Drawing on the work of the Roundtable on Evidence-Based Medicine, the 2007 IOM Annual Meeting assessed some of the rapidly occurring changes in health care related to new diagnostic and treatment tools, emerging genetic insights, the developments in information technology, and healthcare costs, and discussed the need for a stronger focus on evidence to ensure that the promise of scientific discovery and technological innovation is efficiently captured to provide the right care for the right patient at the right time. As new discoveries continue to expand the universe of medical interventions, treatments, and methods of care, the need for a more systematic approach to evidence development and application becomes increasingly critical. Without better information about the effectiveness of different treatment options, the resulting uncertainty can lead to the delivery of services that may be unnecessary, unproven, or even harmful. Improving the evidence-base for medicine holds great potential to increase the quality and efficiency of medical care. The Annual Meeting, held on October 8, 2007, brought together many of the nation's leading authorities on various aspects of the issues - both challenges and opportunities - to present their perspectives and engage in discussion with the IOM membership. |
| advanced technology medical equipment: Medical Devices World Health Organization, 2010 Background papers 1 to 9 published as technical documents. Available in separate records from WHO/HSS/EHT/DIM/10.1 to WHO/HSS/EHT/DIM/10.9 |
| advanced technology medical equipment: Improving Diagnosis in Health Care National Academies of Sciences, Engineering, and Medicine, Institute of Medicine, Board on Health Care Services, Committee on Diagnostic Error in Health Care, 2015-12-29 Getting the right diagnosis is a key aspect of health care - it provides an explanation of a patient's health problem and informs subsequent health care decisions. The diagnostic process is a complex, collaborative activity that involves clinical reasoning and information gathering to determine a patient's health problem. According to Improving Diagnosis in Health Care, diagnostic errors-inaccurate or delayed diagnoses-persist throughout all settings of care and continue to harm an unacceptable number of patients. It is likely that most people will experience at least one diagnostic error in their lifetime, sometimes with devastating consequences. Diagnostic errors may cause harm to patients by preventing or delaying appropriate treatment, providing unnecessary or harmful treatment, or resulting in psychological or financial repercussions. The committee concluded that improving the diagnostic process is not only possible, but also represents a moral, professional, and public health imperative. Improving Diagnosis in Health Care, a continuation of the landmark Institute of Medicine reports To Err Is Human (2000) and Crossing the Quality Chasm (2001), finds that diagnosis-and, in particular, the occurrence of diagnostic errorsâ€has been largely unappreciated in efforts to improve the quality and safety of health care. Without a dedicated focus on improving diagnosis, diagnostic errors will likely worsen as the delivery of health care and the diagnostic process continue to increase in complexity. Just as the diagnostic process is a collaborative activity, improving diagnosis will require collaboration and a widespread commitment to change among health care professionals, health care organizations, patients and their families, researchers, and policy makers. The recommendations of Improving Diagnosis in Health Care contribute to the growing momentum for change in this crucial area of health care quality and safety. |
| advanced technology medical equipment: Springer Handbook of Medical Technology Rüdiger Kramme, Klaus-Peter Hoffmann, Robert Steven Pozos, 2011-10-02 This concise, user-oriented and up-to-date desk reference offers a broad introduction to the fascinating world of medical technology, fully considering today’s progress and further development in all relevant fields. The Springer Handbook of Medical Technology is a systemized and well-structured guideline which distinguishes itself through simplification and condensation of complex facts. This book is an indispensable resource for professionals working directly or indirectly with medical systems and appliances every day. It is also meant for graduate and post graduate students in hospital management, medical engineering, and medical physics. |
| advanced technology medical equipment: Internet of Medical Things D. Jude Hemanth, J. Anitha, George A. Tsihrintzis, 2021-04-13 This book looks at the growing segment of Internet of Things technology (IoT) known as Internet of Medical Things (IoMT), an automated system that aids in bridging the gap between isolated and rural communities and the critical healthcare services that are available in more populated and urban areas. Many technological aspects of IoMT are still being researched and developed, with the objective of minimizing the cost and improving the performance of the overall healthcare system. This book focuses on innovative IoMT methods and solutions being developed for use in the application of healthcare services, including post-surgery care, virtual home assistance, smart real-time patient monitoring, implantable sensors and cameras, and diagnosis and treatment planning. It also examines critical issues around the technology, such as security vulnerabilities, IoMT machine learning approaches, and medical data compression for lossless data transmission and archiving. Internet of Medical Things is a valuable reference for researchers, students, and postgraduates working in biomedical, electronics, and communications engineering, as well as practicing healthcare professionals. |
| advanced technology medical equipment: Applied Human Factors in Medical Device Design Mary Beth Privitera, 2019-06-15 Applied Human Factors in Medical Device Design describes the contents of a human factors toolbox with in-depth descriptions of both empirical and analytical methodologies. The book begins with an overview of the design control process, integrating human factors as directed by AAMI TIR 59 and experienced practice. It then explains each method, describing why each method is important, its potential impact, when it's ideal to use, and related challenges. Also discussed are other barriers, such as communication breakdowns between users and design teams. This book is an excellent reference for professionals working in human factors, design, engineering, marketing and regulation. - Focuses on meeting agency requirements as it pertains to the application of human factors in the medical device development process in both the US and the European Union (EU) - Explains technology development and the application of human factors throughout the development process - Covers FDA and MHRA regulations - Includes case examples with each method |
| advanced technology medical equipment: Medical Devices and the Public's Health Institute of Medicine, Board on Population Health and Public Health Practice, Committee on the Public Health Effectiveness of the FDA 510(k) Clearance Process, 2011-11-25 Medical devices that are deemed to have a moderate risk to patients generally cannot go on the market until they are cleared through the FDA 510(k) process. In recent years, individuals and organizations have expressed concern that the 510(k) process is neither making safe and effective devices available to patients nor promoting innovation in the medical-device industry. Several high-profile mass-media reports and consumer-protection groups have profiled recognized or potential problems with medical devices cleared through the 510(k) clearance process. The medical-device industry and some patients have asserted that the process has become too burdensome and is delaying or stalling the entry of important new medical devices to the market. At the request of the FDA, the Institute of Medicine (IOM) examined the 510(k) process. Medical Devices and the Public's Health examines the current 510(k) clearance process and whether it optimally protects patients and promotes innovation in support of public health. It also identifies legislative, regulatory, or administrative changes that will achieve the goals of the 510(k) clearance process. Medical Devices and the Public's Health recommends that the U.S. Food and Drug Administration gather the information needed to develop a new regulatory framework to replace the 35-year-old 510(k) clearance process for medical devices. According to the report, the FDA's finite resources are best invested in developing an integrated premarket and postmarket regulatory framework. |
| advanced technology medical equipment: Patient Safety and Quality Ronda Hughes, 2008 Nurses play a vital role in improving the safety and quality of patient car -- not only in the hospital or ambulatory treatment facility, but also of community-based care and the care performed by family members. Nurses need know what proven techniques and interventions they can use to enhance patient outcomes. To address this need, the Agency for Healthcare Research and Quality (AHRQ), with additional funding from the Robert Wood Johnson Foundation, has prepared this comprehensive, 1,400-page, handbook for nurses on patient safety and quality -- Patient Safety and Quality: An Evidence-Based Handbook for Nurses. (AHRQ Publication No. 08-0043). - online AHRQ blurb, http://www.ahrq.gov/qual/nurseshdbk/ |
| advanced technology medical equipment: Management of Medical Technology Joseph D. Bronzino, 2014-06-28 Management of Medical Technology: A Primer for Clinical Engineers introduces and examines the functions and activities of clinical engineering within the medical environment of the modern hospital. The book provides insight into the role that clinical engineers play in the management of medical technology. Topics covered include the history, job functions, and the professionalization of clinical engineering; safety in the clinical environment; management of hospital equipment; assessment and acquisition of medical technologies; preparation of a business plan for the clinical engineering department; and the moral and ethical issues that surround the delivery of health-care. Clinical engineers and biomedical engineers will find the book as a great reference material. |
| advanced technology medical equipment: Telemedicine Institute of Medicine, Committee on Evaluating Clinical Applications of Telemedicine, 1996-10-08 Telemedicineâ€the use of information and telecommunications technologies to provide and support health care when distance separates the participantsâ€is receiving increasing attention not only in remote areas where health care access is troublesome but also in urban and suburban locations. Yet the benefits and costs of this blend of medicine and digital technologies must be better demonstrated before today's cautious decision-makers invest significant funds in its development. Telemedicine presents a framework for evaluating patient care applications of telemedicine. The book identifies managerial, technical, policy, legal, and human factors that must be taken into account in evaluating a telemedicine program. The committee reviews previous efforts to establish evaluation frameworks and reports on results from several completed studies of image transmission, consulting from remote locations, and other telemedicine programs. The committee also examines basic elements of an evaluation and considers relevant issues of quality, accessibility, and cost of health care. Telemedicine will be of immediate interest to anyone with interest in the clinical application of telemedicine. |
| advanced technology medical equipment: Applications of Modern Physics in Medicine Mark Strikman, Kevork Spartalian, Milton W. Cole, 2014-12-21 The connections between modern physics and medical technology Many remarkable medical technologies, diagnostic tools, and treatment methods have emerged as a result of modern physics discoveries in the last century—including X-rays, radiation treatment, laser surgery, high-resolution ultrasound scans, computerized tomography (CT) scans, and magnetic resonance imaging. This undergraduate-level textbook describes the fundamental physical principles underlying these technological advances, emphasizing their applications to the practice of modern medicine. Intended for science and engineering students with one year of introductory physics background, this textbook presents the medical applications of fundamental principles of physics to students who are considering careers in medical physics, biophysics, medicine, or nuclear engineering. It also serves as an excellent reference for advanced students, as well as medical and health researchers, practitioners, and technicians who are interested in developing the background required to understand the changing landscape of medical science. Practice exercises are included and solutions are available separately in an instructor's manual. Complete discussion of the fundamental physical principles underlying modern medicine Accessible exploration of the physics encountered in a typical visit to a doctor Practice exercises are included and solutions are provided in a separate instructor’s manual (available to professors) A companion website (modernphysicsinmedicine.com) presents supplementary materials |
| advanced technology medical equipment: Hospital-Based Health Technology Assessment Laura Sampietro-Colom, Janet Martin, 2017-01-23 A timely work describing how localized hospital-based health technology assessment (HB-HTA) complements general, ‘arms-length’ HTA agency efforts, and what has been the collective global impact of HB-HTA across the globe. While HB-HTA has gained significant momentum over the past few years, expertise in the field, and information on the operation and organization of HB-HTA, has been scattered. This book serves to bring this information together to inform those who are currently working in the field of HTA at the hospital, regional, national or global level. In addition, this book is intended for decision-makers and policy-makers with a stake in determining the uptake and decommissioning of new and established technologies in the hospital setting. HTA has traditionally been performed at the National/Regional level by HTA Agencies, typically linked to governments. Yet hospitals are the main entry door for most health technologies (HTs). Hospital decision-makers must undertake multiple high stakes investment and disinvestment decisions annually for innovative HTs, usually without adequate information. Despite the existence of arms-length HTA Agencies, inadequate information is available to hospital decision-makers either because relevant HTA reports are not yet released at the time of entry of new technologies to the field, or because even when the report exists, the information contained is insufficient to clarify the contextualized informational needs of hospital decision makers. Therefore, there has recently been a rising trend toward hospital-based HTA units and programs. These units/programs complement the work of National/Regional HTA Agencies by providing the key and relevant evidence needed by hospital decision makers in their specific hospital context, and within required decision-making timelines. The emergence of HB-HTA is creating a comprehensive HTA ecosystem across health care levels, which creates better bridges for knowledge translation through relevance and timeliness. |
| advanced technology medical equipment: Medicare Laboratory Payment Policy Institute of Medicine, Division of Health Care Services, Committee on Medicare Payment Methodology for Clinical Laboratory Services, 2000-12-04 Clinical laboratory tests play an integral role in helping physicians diagnose and treat patients. New developments in laboratory technology offer the prospect of improvements in diagnosis and care, but will place an increased burden on the payment system. Medicare, the federal program providing coverage of health-care services for the elderly and disabled, is the largest payer of clinical laboratory services. Originally designed in the early 1980s, Medicare's payment policy methodology for outpatient laboratory services has not evolved to take into account technology, market, and regulatory changes, and is now outdated. This report examines the current Medicare payment methodology for outpatient clinical laboratory services in the context of environmental and technological trends, evaluates payment policy alternatives, and makes recommendations to improve the system. |
| advanced technology medical equipment: First, Do Less Harm Ross Koppel, Suzanne Gordon, 2012-04-23 Each year, hospital-acquired infections, prescribing and treatment errors, lost documents and test reports, communication failures, and other problems have caused thousands of deaths in the United States, added millions of days to patients' hospital stays, and cost Americans tens of billions of dollars. Despite (and sometimes because of) new medical information technology and numerous well-intentioned initiatives to address these problems, threats to patient safety remain, and in some areas are on the rise. In First, Do Less Harm, twelve health care professionals and researchers plus two former patients look at patient safety from a variety of perspectives, finding many of the proposed solutions to be inadequate or impractical. Several contributors to this book attribute the failure to confront patient safety concerns to the influence of the market model on medicine and emphasize the need for hospital-wide teamwork and greater involvement from frontline workers (from janitors and aides to nurses and physicians) in planning, implementing, and evaluating effective safety initiatives. Several chapters in First, Do Less Harm focus on the critical role of interprofessional and occupational practice in patient safety. Rather than focusing on the usual suspects-physicians, safety champions, or high level management-these chapters expand the list of stakeholders and patient safety advocates to include nurses, patient care assistants, and other staff, as well as the health care unions that may represent them. First, Do Less Harm also highlights workplace issues that negatively affect safety: including sleeplessness, excessive workloads, outsourcing of hospital cleaning, and lack of teamwork between physicians and other health care staff. In two chapters, experts explain why the promise of health care information technology to fix safety problems remains unrealized, with examples that are at once humorous and frightening. A book that will be required reading for physicians, nurses, hospital administrators, public health officers, quality and risk managers, healthcare educators, economists, and policymakers, First, Do Less Harm concludes with a list of twenty-seven paradoxes and challenges facing everyone interested in making care safe for both patients and those who care for them. |
| advanced technology medical equipment: Encyclopedia of Medical Devices and Instrumentation John G. Webster, 1988 This objective, referenced collection of over 300 articles will cover every aspect of medical devices and instrumentation in four volumes, totalling about 3,000 pages. The Encyclopedia will define the discipline by bringing together the core of knowledge from all the fields encompassed by the application of engineering, physics, and computers to problems in medicine. Some of the many areas covered will include: anaesthesiology; burns; cardiology; clinical chemistry and engineering; critical care medicine; dermatology; dentistry; endocrinology; genetics; gynecology; microbiology; oncology; pharmacology; psychiatry; radiology; surgery; and urology. Cross-references and index included. |
| advanced technology medical equipment: Operations Management Antonella Petrillo, Fabio De Felice, Germano Lambert-Torres, Erik Bonaldi, 2021-03-03 Global competition has caused fundamental changes in the competitive environment of the manufacturing and service industries. Firms should develop strategic objectives that, upon achievement, result in a competitive advantage in the market place. The forces of globalization on one hand and rapidly growing marketing opportunities overseas, especially in emerging economies on the other, have led to the expansion of operations on a global scale. The book aims to cover the main topics characterizing operations management including both strategic issues and practical applications. A global environmental business including both manufacturing and services is analyzed. The book contains original research and application chapters from different perspectives. It is enriched through the analyses of case studies. |
| advanced technology medical equipment: The Fourth Industrial Revolution Klaus Schwab, 2017-01-03 World-renowned economist Klaus Schwab, Founder and Executive Chairman of the World Economic Forum, explains that we have an opportunity to shape the fourth industrial revolution, which will fundamentally alter how we live and work. Schwab argues that this revolution is different in scale, scope and complexity from any that have come before. Characterized by a range of new technologies that are fusing the physical, digital and biological worlds, the developments are affecting all disciplines, economies, industries and governments, and even challenging ideas about what it means to be human. Artificial intelligence is already all around us, from supercomputers, drones and virtual assistants to 3D printing, DNA sequencing, smart thermostats, wearable sensors and microchips smaller than a grain of sand. But this is just the beginning: nanomaterials 200 times stronger than steel and a million times thinner than a strand of hair and the first transplant of a 3D printed liver are already in development. Imagine “smart factories” in which global systems of manufacturing are coordinated virtually, or implantable mobile phones made of biosynthetic materials. The fourth industrial revolution, says Schwab, is more significant, and its ramifications more profound, than in any prior period of human history. He outlines the key technologies driving this revolution and discusses the major impacts expected on government, business, civil society and individuals. Schwab also offers bold ideas on how to harness these changes and shape a better future—one in which technology empowers people rather than replaces them; progress serves society rather than disrupts it; and in which innovators respect moral and ethical boundaries rather than cross them. We all have the opportunity to contribute to developing new frameworks that advance progress. |
| advanced technology medical equipment: Inventing Medical Devices Dr. Jagdish Chaturvedi, 2016-10-14 This book comprehensively captures the essence of inventing medical devices through anecdotes, case studies and real life examples. A recommended must read for any aspiring entrepreneur who wishes to invent new medical devices in India. - Dr. Balram Bhargava,Padmashri, Professor of Cardiology, Cardiothoracic Sciences Centre, Executive Director, Stanford India Biodesign Centre, School of International Biodesign (SIB), All India Institute of Medical Sciences, New Delhi. A timely resource- This is a remarkably readable and useful primer on medical device innovation in India, written by one of the emerging leaders in the field. The realistic perspective and practical suggestions in this book have arrived just in time for a health technology ecosystem that is in a substantial stage of growth. - Dr. Paul Yock, Founder and Director, Stanford Biodesign Despite the stated focus as a book for doctors looking to engage with the MedTech ecosystem in India, this book has several teachings for engineers, product designers, business strategists, marketing folks and investors as well. - The Hans India In this book, the author shares his experiences, anecdotes, insights and failures while inventing medical devices in India over the last six years. The idea is to give entrepreneurs (clinicians, engineers, designers, business professionals) a realistic expectation of the time, money, co-ordination and teamwork required to develop a medical device in India. This book includes case studies, anecdotes, caricatures and a special “how I do it” section at the end of the book that gives step-by-step guidelines on how to identify a need, make clinical observations, create need statements, perform needs filtering, develop criteria, conceptualize a solution and take it to a proof of concept. This book is recommended for all Indian healthcare professionals, engineers and product designers who seek to solve unmet clinical challenges with new medical devices, but are unsure of how to go about taking their idea from the concept stage to an actual product. This book illustrates ways for engineers and designers to formally engage with doctors, and gives a comprehensive perspective of the path from ideation to commercialization. |
| advanced technology medical equipment: Medical Technology Management Yadin David, 1993 |
| advanced technology medical equipment: New Health Technologies Collectif, 2017-02-03 This report discusses the need for an integrated and cyclical approach to managing health technology in order to mitigate clinical and financial risks, and ensure acceptable value for money. The analysis considers how health systems and policy makers should adapt in terms of development, assessment and uptake of health technologies. The first chapter provides an examination of adoption and impact of medical technology in the past and how health systems are preparing for continuation of such trends in the future. Subsequent chapters examine the need to balance innovation, value, and access for pharmaceuticals and medical devices, respectively, followed by a consideration of their combined promise in the area of precision medicine. The final chapter examines how health systems can make better use of health data and digital technologies. The report focuses on opportunities linked to new and emerging technologies as well as current challenges faced by policy makers, and suggests a new governance framework to address these challenges. |
| advanced technology medical equipment: Nano-Bio- Electronic, Photonic and MEMS Packaging C.P. Wong, Kyoung-Sik Moon, Yi (Grace) Li, 2009-12-23 Nanotechnologies are being applied to the biotechnology area, especially in the area of nano material synthesis. Until recently, there has been little research into how to implement nano/bio materials into the device level. “Nano and Bio Electronics Packaging” discusses how nanofabrication techniques can be used to customize packaging for nano devices with applications to biological and biomedical research and products. Covering such topics as nano bio sensing electronics, bio device packaging, NEMs for Bio Devices and much more. |
| advanced technology medical equipment: Medical Imaging Systems Andreas Maier, Stefan Steidl, Vincent Christlein, Joachim Hornegger, 2018-08-02 This open access book gives a complete and comprehensive introduction to the fields of medical imaging systems, as designed for a broad range of applications. The authors of the book first explain the foundations of system theory and image processing, before highlighting several modalities in a dedicated chapter. The initial focus is on modalities that are closely related to traditional camera systems such as endoscopy and microscopy. This is followed by more complex image formation processes: magnetic resonance imaging, X-ray projection imaging, computed tomography, X-ray phase-contrast imaging, nuclear imaging, ultrasound, and optical coherence tomography. |
| advanced technology medical equipment: The Healthcare Imperative Institute of Medicine, Roundtable on Evidence-Based Medicine, 2011-01-17 The United States has the highest per capita spending on health care of any industrialized nation but continually lags behind other nations in health care outcomes including life expectancy and infant mortality. National health expenditures are projected to exceed $2.5 trillion in 2009. Given healthcare's direct impact on the economy, there is a critical need to control health care spending. According to The Health Imperative: Lowering Costs and Improving Outcomes, the costs of health care have strained the federal budget, and negatively affected state governments, the private sector and individuals. Healthcare expenditures have restricted the ability of state and local governments to fund other priorities and have contributed to slowing growth in wages and jobs in the private sector. Moreover, the number of uninsured has risen from 45.7 million in 2007 to 46.3 million in 2008. The Health Imperative: Lowering Costs and Improving Outcomes identifies a number of factors driving expenditure growth including scientific uncertainty, perverse economic and practice incentives, system fragmentation, lack of patient involvement, and under-investment in population health. Experts discussed key levers for catalyzing transformation of the delivery system. A few included streamlined health insurance regulation, administrative simplification and clarification and quality and consistency in treatment. The book is an excellent guide for policymakers at all levels of government, as well as private sector healthcare workers. |
| advanced technology medical equipment: The Promise of Assistive Technology to Enhance Activity and Work Participation National Academies of Sciences, Engineering, and Medicine, Health and Medicine Division, Board on Health Care Services, Committee on the Use of Selected Assistive Products and Technologies in Eliminating or Reducing the Effects of Impairments, 2017-09-01 The U.S. Census Bureau has reported that 56.7 million Americans had some type of disability in 2010, which represents 18.7 percent of the civilian noninstitutionalized population included in the 2010 Survey of Income and Program Participation. The U.S. Social Security Administration (SSA) provides disability benefits through the Social Security Disability Insurance (SSDI) program and the Supplemental Security Income (SSI) program. As of December 2015, approximately 11 million individuals were SSDI beneficiaries, and about 8 million were SSI beneficiaries. SSA currently considers assistive devices in the nonmedical and medical areas of its program guidelines. During determinations of substantial gainful activity and income eligibility for SSI benefits, the reasonable cost of items, devices, or services applicants need to enable them to work with their impairment is subtracted from eligible earnings, even if those items or services are used for activities of daily living in addition to work. In addition, SSA considers assistive devices in its medical disability determination process and assessment of work capacity. The Promise of Assistive Technology to Enhance Activity and Work Participation provides an analysis of selected assistive products and technologies, including wheeled and seated mobility devices, upper-extremity prostheses, and products and technologies selected by the committee that pertain to hearing and to communication and speech in adults. |
| advanced technology medical equipment: Digital Health Entrepreneurship Sharon Wulfovich, Arlen Meyers, 2019-06-20 This book presents a hands on approach to the digital health innovation and entrepreneurship roadmap for digital health entrepreneurs and medical professionals who are dissatisfied with the existing literature on or are contemplating getting involved in digital health entrepreneurship. Topics covered include regulatory affairs featuring detailed guidance on the legal environment, protecting digital health intellectual property in software, hardware and business processes, financing a digital health start up, cybersecurity best practice, and digital health business model testing for desirability, feasibility, and viability. Digital Health Entrepreneurship is directed to clinicians and other digital health entrepreneurs and stresses an interdisciplinary approach to product development, deployment, dissemination and implementation. It therefore provides an ideal resource for medical professionals across a broad range of disciplines seeking a greater understanding of digital health innovation and entrepreneurship. |
| advanced technology medical equipment: The Pig Book Citizens Against Government Waste, 2013-09-17 The federal government wastes your tax dollars worse than a drunken sailor on shore leave. The 1984 Grace Commission uncovered that the Department of Defense spent $640 for a toilet seat and $436 for a hammer. Twenty years later things weren't much better. In 2004, Congress spent a record-breaking $22.9 billion dollars of your money on 10,656 of their pork-barrel projects. The war on terror has a lot to do with the record $413 billion in deficit spending, but it's also the result of pork over the last 18 years the likes of: - $50 million for an indoor rain forest in Iowa - $102 million to study screwworms which were long ago eradicated from American soil - $273,000 to combat goth culture in Missouri - $2.2 million to renovate the North Pole (Lucky for Santa!) - $50,000 for a tattoo removal program in California - $1 million for ornamental fish research Funny in some instances and jaw-droppingly stupid and wasteful in others, The Pig Book proves one thing about Capitol Hill: pork is king! |
| advanced technology medical equipment: Medical Equipment Maintenance Binseng Wang, 2022-05-31 In addition to being essential for safe and effective patient care, medical equipment also has significant impact on the income and, thus, vitality of healthcare organizations. For this reason, its maintenance and management requires careful supervision by healthcare administrators, many of whom may not have the technical background to understand all of the relevant factors. This book presents the basic elements of medical equipment maintenance and management required of healthcare leaders responsible for managing or overseeing this function. It will enable these individuals to understand their professional responsibilities, as well as what they should expect from their supervised staff and how to measure and benchmark staff performance against equivalent performance levels at similar organizations. The book opens with a foundational summary of the laws, regulations, codes, and standards that are applicable to the maintenance and management of medical equipment in healthcare organizations. Next, the core functions of the team responsible for maintenance and management are described in sufficient detail for managers and overseers. Then the methods and measures for determining the effectiveness and efficiency of equipment maintenance and management are presented to allow performance management and benchmarking comparisons. The challenges and opportunities of managing healthcare organizations of different sizes, acuity levels, and geographical locations are discussed. Extensive bibliographic sources and material for further study are provided to assist students and healthcare leaders interested in acquiring more detailed knowledge. Table of Contents: Introduction / Regulatory Framework / Core Functions of Medical Equipment Maintenance and Management / CE Department Management / Performance Management / Discussion and Conclusions |
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