Recent Innovations in Diagnostic Imaging Technology

Posted on May 4, 2018


Whether you're a medical professional or a patient, it’s useful to know the innovations in diagnostic imaging technology. Improved diagnostic imaging increases accuracy, reduces errors, and produces high-quality diagnostic images. Here are a few innovations to be on the lookout for.

Mammography- Digital Breast Tomosynthesis (DBT)

This is also known as 3D mammography which is a new, advanced diagnostic imaging in Long Island, NY, that has undergone impressive improvements regarding early cancer detection and lesion visibility. A sequence of images is generated alongside the breast rather than combining two projections of images. With DBT, radiologists are able to look at each layer of tissue independently, which decreases the amount of medical errors. By combining MRI, ultrasound, and DBT, diagnostic accuracy is enhanced.

3D Ultrasonic Holography

Diagnostic imaging centers in Long Island, NY, have begun to use this type of technology in the past year. This is an effective solution for breast cancer patients who are doing preventative and post-op exams since ultrasonic holography does not use dangerous radiation. The images that are produced from 3D ultrasonic holography are of better quality than those that come from traditional ultrasounds. Also, this enables optima diagnostic imaging by using automated computer-based data interpretations and images that can be easily reproduced.


Digital Photon Counting PET

PET scans which are also known as positron emission tomography are 3D images that allow medical professionals that conduct diagnostic imaging in Long Island, NY, to get a better understanding of what’s going on inside of an individual’s body on cellular and molecular levels. The procedure is comprised of injecting a small amount of radiotracer into a patient and allowing it to accrue in the organs and tissues. The PET detector picks up pairs of protons that are expended throughout the decay process so that an image can be produced.

Spectral CT

CT, which is also known as computed tomography, has been entrenched in the imaging world for quite some time. With IQon Spectral CT, it’s the first spectral-detector CT system globally. The spectral-detector can pick up the difference between X-ray photons of various energy levels. A diagnostic imaging center in Long Island, NY, can look at grey-scale images while also identifying structures based on their bodily design in a single scan with the help of the new dimension that was added.


The F-FEDAC PET is a biomarker that can detect the onset of rheumatoid arthritis early on even if an individual is not displaying any symptoms. As an experiment, the F-FEDAC was tested using a mouse model. The outcome revealed an increase in TSPO mRNA and protein expression in activated macrophages. The F-FEDAC in the macrophages that were activated were higher than the macrophages that were not activated. The uptake of F-FEDAC by joints with arthritis was increased early on. The F-FEDAC is a practical solution which leads to early treatment that can decrease the progression of joint destruction.