This is a very wide category -- essentially covering all healthcare products that do not achieve their intended This is a very broad field, encompassing all health care products.
This is a very broad field, encompassing all health care products. However, through common chemicals (such as medicines) or biologics (such as vaccines), these products do not fulfill their intended purpose, and do not involve metabolism.
A medical device is intended for use in: A medical device is designed for use in: the diagnosis of disease or other conditions, or in the diagnosis of a disease or other condition. disease or other conditions, or in the cure, mitigation, treatment, or prevention of diseaseAble to diagnose disease or other conditions. Cure, mitigation, treatment, or prevention of disease
Some examples include pacemakers, infusion pumps, the heart-lung machine, dialysis machines, artificial organs, implants, artificial limbs, corrective lenses, and the like. Some examples include pacemakers, infusion pumps, the heart-lung machine, dialysis machines, artificial organs, implants, artificial limbs, corrective lenses, cochlear implants, ocular prosthetics, facial prosthetics, somato prosthetics, and dental implants.Some examples, including electronic pacemakers, syringe pumps, heart-lung machines, dysentery machines, artificial organs, organ transplants, prosthetic eyeballs, prosthetic faces, artificial body cells, and dental implants
Biomedical instrumentation amplifier schematic used in monitoring low voltage biological signals, an example of a biomedical engineering application of electronic engineering to electrophysiology.Biomedical instrumentation amplifier schematic used in monitoring low voltage biological signals, an example of a biomedical engineering application of electronic engineering to electrophysiology. signals, an example of a biomedical engineering application of electronic engineering to electrophysiology.
Medical imaging Medical/Biomedical Imaging is a major segment of Medical Devices. Medical/Biomedical Imaging is a major segment of Medical Devices. This area deals with enabling clinicians to directly or indirectly "view" things not visible in plain sight (such as due to their size, and/or location). This can involve utilizing ultrasound, magnetism, UV, other radiology, and other means.
Pharmaceutical/Biomedical Imaging is a major segment of Medical Devices
This area deals with enabling clinicians to directly or indirectly "view" things not visible in plain sight (such as due to their size, and/or location). or profile something that is not visible to the naked eye (e.g., because of size, or location). The process involves ultrasound, magnetism, ultraviolet light, radiology, and other fields
An MRI scan of a human head, an example of a biomedical engineering application of electrical engineering to diagnostic imaging. Click here to view an animated sequence of slices.Example: An MRI scan of a human head, an example of a biomedical engineering application of electrical engineering to diagnostic imaging. Click here to see a high-resolution slide show
Imaging technologies are often essential to medical diagnosis, and are typically the most complex equipment found in a hospital including:Imaging technologies are often essential to medical diagnosis, and are typically the most complex equipment found in a hospital, including:
Fluoroscopy Magnetic resonance imaging (MRI) Nuclear medicine Nuclear medicineNuclear medicine
Magnetic resonance imaging (MRI)
Positron Emission Tomography (PET) PET scans PET-CT scans||||PET scans or PET-CT scans Projection Radiography such as X-rays and CT scans Radiography such as X-rays and CT Tomography X-ray tomography Ultrasound Electron MicroscopySweat, I'm tired, although I studied medical and biology abroad, but it's really too long
Well, it's a good thing I know all the words.
See how hard I've been working?