Tech+

Level up your image quality with AIR™ Recon DL

AIR™ Recon DL challenges the inherent trade-off between SNR, scan time and image resolution. Using a deep-learning based reconstruction algorithm, AIR™ Recon DL improves SNR by making use of the raw data to remove image noise and ringing. You can now produce high-quality images with shorter scan times, enabling greater patient throughput and increased return on investment.

An award-winning, industry first. With overlapping, ultra-light, flexible coil elements at their heart, AIR™ Coils deliver an MR experience that gets closer to your patient, so you get closer to the truth. Representing a new standard in coil innovation, AIR™ Coils enable a simplified, faster workflow while maintaining excellent image quality. Scan complex anatomies and complicated conditions in a variety of patient sizes with exceptional results.

Using innovative AI, AIR™ Workflow builds off of our innovative AIR™ Coils with AIR Touch™ and AIR x™, two automated applications that make a clinically impactful difference through a simply better* workflow.

There is a clinical need to visualize blood flow and vessel wall structures in the diagnosis of various vascular diseases. Also, it is believed that the vessel architecture can be an important indicator for lesion or disease assessment. Traditionally, Angiography, CT scans or MRI scans are used for this purpose. However, these modalities are more costly, access may be limited, and some use ionizing radiation and/or expensive contrast agents

GE Healthcare has designed its advanced cSound™ Architecture to put the latest ultrasound technology in the hands of clinicians. It combines the power of XDclear™ probes with a new cSound Imageformer to enable confident diagnoses, provide comprehensive tools, and support concise workflow.

Tissue stiffness is often related to underlying disease. For millennia, physicians have used palpation as a diagnostic tool to detect various ailments such as lesions, aneurysms, and inflammation. Stiff masses found during routine physical exams can be an early indication of disease, as in the cases of breast and prostate cancer. In some ailments, such as liver fibrosis, disease progression is marked by a gradual change in tissue stiffness. The ability to noninvasively measure tissue stiffness can therefore be a valuable tool in the diagnosis, staging, and management of disease.