The difference between images and answers with Dual Energy CT

Dual Energy spectral imaging

Dual Energy spectral imaging provides clinical answers that let you move to functional imaging by offering clinical information beyond morphology.

In contrast to standard computed tomography scanners, Dual Energy CT scanners produce image sets with two different X-ray spectra to characterize materials with precision while highlighting abnormalities in the body.

This enables early detection of diseases to enable healthcare providers to initiate treatment.

Dual Energy CT supports all clinical fields with dedicated applications that are fine-tuned for your specific clinical questions.

These include — but are not limited to — quantifying iodine concentrations of oncological lesions, assessing lung perfusion defects, differentiating brain hemorrhages, visualizing bone marrow edemas, and quantifying gout.

Expanding precision medicine requires us to adapt technology to diverse patients by adjusting to their size and age. This introduces a huge variety of challenging clinical questions.

With powerful Dual Energy CT solutions from Siemens Healthineers, patients benefit from personalized protocols without extra dose, providing reliable clinical answers.

At the same time, you benefit from the automatic selection and the right combination of the scan settings. Multiple kV levels let you adapt to the patient's size,with a large spectral separation means even the most demanding exams, like visualizing bone marrow edemas, are possible. The dose level of a Dual Source CT scanner is comparable to a single-source acquisition, but the built-in tin filter enables even lower doses than a conventional 120 kV CT scan.

TwinBeam Dual Energy (TBDE) CT allows simultaneous acquisition of high and low kV datasets in a single spectral CT scan by splitting the X-ray beam with two filters, one made of gold and the second made of tin, before it reaches the patient, enabling high-contrast dynamic applications.

Available for SOMATOM X.cite and SOMATOM go.Top.

Image quality is crucial for reliable DECT imaging since dual energy data processing is sensitive to small changes of the Hounsfield units. Relevant criteria comprise the spectral separation and temporal coherence of the low and high energy data, as well as the temporal and spatial resolution of the CT images, but of course also the dose efficiency or the workflow aspects play an important role in enabling efficient DECT imaging in daily routine.

Acquisition methods have unique levels of spectral separation. Techniques that can incorporate additional dedicated beam filtration (e.g. Dual Source Dual Energy CT or TwinSpiral Dual Energy CT) have considerably improved spectral separation necessary for challenging spectral imaging tasks such as the differentiation of bone marrow edema. This is also directly related to radiation dose: with better spectral separation, a lesser dose is required to obtain the same image quality.^1,2

The single energy gray-scale image (indicated on the left) does not allow for the differentiation of the two materials. Spectral imaging with inferior spectral separation (middle image) allows material differentiation but with limited differentiation (resulting in noise in the green/orange material space). As indicated by the right image, using Dual Source Dual Energy CT or TwinSpiral Dual Energy results in excellent spectral separation with clear differentiation.

Dual Energy spectral imaging can provide additional diagnostic information, but this should not come at the expense of an increased patient dose compared to a conventional single energy examination. Siemens Healthineers Dual Energy CT solutions incorporate all state-of-the-art dose reduction features like tube current modulation or iterative reconstruction to allow dose-neutral spectral imaging acquisitions. 

Spectral separation also plays an important role since systems with dedicated filtration achieve the highest spectral separation without a dose comprise^1,2

Dual Energy is available across the portfolio of Siemens Healthineers CT scanners, helping you to provide better outcomes for your entire patient population – regardless  of operational, financial, or clinical constraints. Dual Energy spectral imaging offers you automation, control and choice. Your selected combination of spectral series is processed and transferred to your PACS completely automatically, meaning the results are available where you need them, when you need them – even for retrospective analysis.

By fusing low- and high-kV data into the DICOM conformant spectral imaging data format, Spectral Post-Processing (SPP), data and transfer times to PACS are reduced. In your PACS, the SPP dataset shows a single DICOM dataset either as Mixed or Monoenergetic Plus images while keeping the low and high Dual Energy information intact. SPP also enables Interactive Spectral Imaging and gives the user retrospective access to the encapsulated spectral data at any time.

myExam Companion smoothly navigates users through spectral imaging CT examinations by sharing built-in expertise, characterizing real-time patient input, and adjusting key parameters to each patient. It also guides you to Dual Energy reconstructions, such as Iodine Maps or Virtual Non-Contrast, which are PACS-ready. This is valuable for radiologists, giving them additional information to work with.

Benefit from the speed of Dual Energy CT reconstructions calculated directly on the IRS based on the spectral information available in the raw data while reducing data and transfer times to PACS.

Recon&GO offers full freedom of recon parameters (e.g. kernels; recon options, such as different orientations, including oblique), further multiplanar reconstructions, and quantification of DE-related parameters.

Available for Mixed, Monoenergetic Plus, VNC (Virtual Non-Contrast), and Iodine Maps.

syngo.CT Dual Energy allows for retrospective interaction of Dual Energy data and empowers users to customize the Dual Energy analysis to the clinical question by, for example, changing keV levels or the display of Fat Maps.

By enabling customization, syngo.CT Dual Energy allows users to create their own application classes for even more advanced research questions.