Molecular imaging has the distinct ability to make visible what could normally be invisible. Beyond that, it has the ability to measure it. This combination is what makes molecular imaging uniquely positioned to enable the search for true discovery. A true discovery is different. It provides reproducible evidence to permit greater understanding. More than an observation, it is proof. And because it is reproducible, it is relatable, which means it could potentially transcend an individual and have a lasting impact for all. To make a true discovery in nuclear medicine, the applications you use to interpret and communicate information are just as important as the tracers used to highlight that information and the technology used to capture it. In fact, it's these final measurable results that you ultimately require. To make the true discovery that helps you deliver the best outcome to the patient, or potentially impact the standard of care for all patients, you need the accuracy and consistency of absolute quantitation. XelerisTM 4.0 is the next generation of our proven workstation for nuclear medicine. In the past, Xeleris led the way with mobilized capabilities that gave you accessible, easy-to-use tools to enhance productivity. With your guidance, we designed Xeleris 4.0 to deliver modern, quantitative applications for nuclear medicine; applications that give you the certainty of absolute quantitation in customizable, easy-to-read reports across multiple care areas.
ffortless quantitative tracer uptake across any lesion or organ with Q.Volumetrix MI I Accurately diagnose neurodegenerative diseases with Q.Brain I Diagnose pulmonary embolism by identifying V/Q mismatch with Q.Lung I Confidently classify patients eligible for lung resection surgeries with Q.Lung I Leverage the power of CZT to calculate blood flow measurements with Alcyone CFR I Improve neurologic SPECT workflow with fast, reproducible and accurate quantitation of 123I-loflupane SPECT data with DaTQUANTTM I Plan radioisotope therapy by measuring changes in tracer absorption over time with Dosimetry Toolkit