Mobile X-ray systems are used throughout the hospital from in-patient, to NICU, Operating Room, and Emergency Room imaging. The need for point of care, fast, reliable, and high IQ imaging is growing as technology shifts from analog / CR cassettes to wireless flat panel.
X-Ray is the hospital’s first impression of a patient. Just like first impressions with people, the first image taken helps set the path going forward. With our start-up mentality, we’re focused on reinventing X-Ray to be an intuitive and technologically powerful tool, that helps you deliver greater confidence. Our mind is set on helping you swiftly and carefully determine the right course of action to shape amazing and valuable care — all from that first image.
A mobile C-arm is a medical imaging device that is based on X-ray technology and can be used flexibly in various ORs within a clinic.
Mammography is specialized medical imaging that uses a low-dose x-ray system to see inside the breasts. Amammography exam, called a mammogram, aids in the early detection and diagnosis of breast diseases in women.
Automatic processing is the most commonly used method of processing radiographs. The automatic film processor mechanically transports exposed X-ray film through the developing, fixing, washing, and drying cycles. Automatic processing is quicker than manual processing, and it produces finished radiographs of uniform quality.
A high-quality X-ray illuminator gives quality X-ray view that produce clearer images for more accurate diagnoses
Portable ultrasound is a modality of medical ultrasonography that utilizes small and light devices, compared to the console style ultrasound machines that preceded them. In most cases these mobile ultrasound systems could be carried by hand and in some cases even operated for a time on battery power alone
Ultrasound (also known as diagnostic sonography or ultrasonography) is a diagnostic imaging technique based on the application of ultrasound. It is used to see internal body structures such as tendons, muscles, joints, vessels and internal organs. Its aim is often to find a source of a disease or to exclude any pathology. The practice of examining pregnant women using ultrasound is called obstetric ultrasound, and is widely used.
A computerized tomography (CT) scan combines a series of X-ray images taken from different angles around your body and uses computer processing to create cross-sectional images (slices) of the bones, blood vessels and soft tissues inside your body.
MRI scanners are particularly well suited to image the non-bony parts or soft tissues of the body. They differ from computed tomography (CT), in that they do not use the damaging ionizing radiation of x-rays. The brain, spinal cord and nerves, as well as muscles, ligaments, and tendons are seen much more clearly with MRI than with regular x-rays and CT; for this reason MRI is often used to image knee and shoulder injuries.
In the brain, MRI can differentiate between white matter and grey matter and can also be used to diagnose aneurysms and tumors. Because MRI does not use x-rays or other radiation, it is the imaging modality of choice when frequent imaging is required for diagnosis or therapy, especially in the brain. However, MRI is more expensive than x-ray imaging or CT scanning.
One kind of specialized MRI is functional Magnetic Resonance Imaging (fMRI.) This is used to observe brain structures and determine which areas of the brain “activate” (consume more oxygen) during various cognitive tasks. It is used to advance the understanding of brain organization and offers a potential new standard for assessing neurological status and neurosurgical risk.