Advancements in medical engineering is helping to improve the quality of life of millions of people around the world every day.
The development of life-saving and life-improving medical equipment like replacement hips, pacemakers, medical imaging, life support systems and medical lasers would not be possible without the ongoing research and development conducted by medical device manufacturers in the field of medical engineering.
Medical device manufacturers supply the world's health practitioners with the latest advancements in medical equipment and technology, such as devices used for the diagnosis and treatment of patients, surgical instruments, medical devices and artificial joints and limbs, to name a few.
Thousands of items of medical equipment are used every day by healthcare practitioners and patients around the world; from simple devices like thermometers to complex units such as artificial body parts and heart-lung machines.
Medical device manufacturers are responsible for designing, manufacturing, evaluating, testing and assessing the functionality of medical equipment in order to assure high quality reliable devices are available to health practitioners and, in turn, to their patients.
Current and future developments in medical engineering
The medical engineering industry is constantly evolving. Medical engineers seek to continually improve the existing technology and explore possibilities for future medical advancements.
Hip replacement devices, for example, are one kind of medical aid that the medical industry is continually seeking to develop and improve. Hip replacement surgery brings renewed mobility to millions of people worldwide, and further research is continually being conducted into ways of extending the life-span of artificial hip joints so they can be used for a much longer period of time.
Further technological advancements include developments in artificial limb technology. Researchers are developing increasingly sophisticated bionic arms with powered finger, wrist, elbow and shoulder movements, and artificial tendons that respond to electrical currents and behave in a way similar to human muscles. These advancements will permit greater usability and control over artificial limbs, making them much more adaptable to the user's needs. Another exciting development by medical device manufacturers is the creation of artificial retina chips. These chips will replace a damaged retina in order to partly restore lost vision.
The latest developments in wireless communication technology are also playing a part in improving the usability of medical devices. One exciting development is the portable ultrasound machine. Using a smart phone connected to an ultrasound knowledge portal, this device enables doctors to send ultrasound data to their patient's smart phone. This allows people in remote locations to communicate with their doctor without having to travel to get to the doctor's surgery.
The benefits of improved medical engineering
These medical innovations are greatly improving the quality of life for countless people around the world.
Today's medical device manufacturers are developing medical innovations aimed at raising standards, reducing costs, increasing efficiency, limiting diagnostic errors, and providing less invasive treatment options and faster recovery times for patients. As these developments continue, medical devices will become more sophisticated, more reliable and longer-lasting, which will benefit health practitioners and patients alike.

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  1. A medical device is an instrument, apparatus, implant, in vitro reagent, or similar or related article that is used to diagnose, prevent, or treat disease or other conditions, and does not achieve its purposes through chemical action within or on the body (which would make it a drug).[1] Whereas medicinal products (also called pharmaceuticals) achieve their principal action by pharmacological, metabolic or immunological means, medical devices act by other means like physical, mechanical, or thermal means. Medical devices vary greatly in complexity and application. Examples range from simple devices such as tongue depressors, medical thermometers, and disposable gloves to advanced devices such as implantable microchips, biochemical analysis tests, medical robots, cardiac pacemakers, and neuroprosthetics. The design of medical devices constitutes a major segment of the field of biomedical engineering.more information

  2. Its always good to have medical related blogs. It was really helpful in fetching information about medical technology advances.Thanks for sharing Naila.
    Check this out too:
    Medisoft Software