Cima.X Keyvisual

MAGNETOM Cima.X*

Make the difference.

Cima.X Hero Table

From oncological conditions to neurological disorders, MRI plays a key role in the clinical pathway of many patients. But despite the continuous medical and technological progress, there are still many diseases not fully understood and patients that physicians struggle to help.

That is why we keep pushing the boundaries of high-end 3T MRI to support clinicians and scientists in their mission to address these challenges and ultimately improve patient care. MAGNETOM Cima.X is our strongest 3T MRI system ever that provides deeper insights into the human body. Transforming patient care and science, it features Gemini Gradients with 2001 mT/m at 200 T/m/s for an unparalleled whole-body performance. With MAGNETOM Cima.X you can make the difference.

Eigenschaften & Vorteile

Cima.X Gradient B

Unprecedented gradient strength

Unprecedented gradient strength

Unprecedented whole-body performance of 2001 mT/m at 200 T/m/s in clinical use. See more

Cima.X Knee Scan

Brilliant images 

Brilliant images 

Imaging powerhouse for consistent and precise head-to-toe images. See more

Thor 15 AI-driven acceleration

Faster than ever before

Faster than ever before

Deep Resolve deep-learning based image reconstruction for increased productivity in MRI. See more

Open Recon Collaborative Research

A new reality in science

A new reality in science

The Open Recon3 platform boosts collaboration and customization. See more

myExam Workflow

Intuitive powerhouse 

Intuitive powerhouse 

Intuitive power house for complex scientific work and day-to-day tasks. See more

MAGNETOM Cima.X will introduce groundbreaking Gemini Gradients* with unprecedented whole-body performance of 2001 mT/m at 200 T/m/s in clinical use. Nurtured by years of experience with our Connectom systems and driven by our unique Multi-GPA Technology, these Gemini Gradients will empower clinical care and push the boundaries of MR innovation. 

Gemini Gradients

Introducing the first 2001 mT/m at 200 T/m/s commercially available gradients with the highest gradient strenght in a whole-body scanner. The whole-body gradient coils will bring significant improvement to diffusion-weighted imaging, enabling the visualization of underlying structures that were previously unseeable. This has potential for furthering the understanding of the composition of voxels, delivering more information that can help to increase the understanding of diseases. 

Cima.X Multi Gradient Power Amplifier

The driving force of the gradient system is the gradient power amplifier (GPA). The one-of-a-kind gradient array design in MAGNETOM Cima.X will feature our first Multi-GPA Technology with two separate gradient power amplifiers to deliver the required performance for unmatched gradient amplitude and maximum spatial resolution. And our new direct Liquid Cooling Technology will enable direct thermal contact with the gradient coolant, maximizing thermal energy transfer and dissipation. 

Ultra advanced 3T magnet

The foundation of MAGNETOM Cima.X will be an exceptional 3T magnet that incorporates the knowledge and experience of Siemens Healthineers’ ultra-high field scanners. Our benchmark 3T magnet delivers excellent homogeneity, a large 55 x 55 x 50 cm3 FOV, with a 2,050 mm scan range, and outstanding long-term stability. A dedicated network of sensors in the magnet, so called frequalizers, allow constant adjustment of the transmit and receive parameters for maximum SNR. 

Brilliant images are at the heart of MAGNETOM Cima.X. Its consistent and precise head-to-toe images will deliver the foundation for confidence in diagnosis. Backed by unique hardware components and innovative software solutions, this imaging powerhouse will transform clinical care and paves the way for groundbreaking discoveries and clinical translation. 

“The research that we are currently doing with the diffusion MRI in collaboration with our physicists and mathematicians that work with us has shown that for accurately measure the microscopic dimension using diffusion, we need a gradient amplitude of at least 150 millitesla per meter.”2

Prof. Matilde Inglese
Professor of Neurology, University of Genova, Italy and
Head of the Multiple Sclerosis Center, University Hospital, Genova, Italy

MAGNETOM Cima.X will feature the next generation of Deep Resolve, our deep learning image reconstruction technology. Benefiting from an even broader range of clinical applications and combining many different acceleration technologies for reduced acquisition times and superior image quality. 

Cima.X male Pelvis scan

Deep Resolve is our AI-powered image reconstruction technology that takes advantage of convolutional neural networks to accelerate MRI scans. Deep Resolve’s raw data-to image reconstruction and highly accelerated acquisition times are game changers in MRI, helping generate actionable insights for patients' diagnosis.

Cima.X Head Scan

Acquisition times in MRI are still a challenge for many vulnerable patients. Simultaneous Multi-Slice helps cut exam times, reduces DWI scan times throughout the body, and significantly improves temporal resolution for BOLD fMRI. Compressed Sensing drastically reduces acquisition times and offers new capabilities for 3D imaging, especially in the depiction of dynamic processes of moving organs. 

MAGNETOM Cima.X will pave the way for a new reality in science and boosts collaboration and customization with Open Recon3. Deploy your custom reconstruction algorithms seamlessly into your clinical workflows while fostering open and collaborative innovation. Work with clinicians and scientists worldwide thanks to Open Recon3 and many other solutions that facilitate science. 

Open Recon

Part of the Open MAGNETOM platform, our Open Recon3 inline prototyping allows custom reconstruction algorithms to be easily run and adjusted, enabling seamless workflows. Open Recon also enables standardized inline access via ISMRM raw data format for data transfer and sharing standardized algorithms with other institutions.

“Open Recon3 will enable us to have easier, more effective, more efficient international collaborations and we can extend our global network of research partners in the interest of making a difference.” 2 

Prof. Matthias Stuber, 
Head of CIBM MRI CHUV-UNIL 
Lausanne, Switzerland

Physiologging

MAGNETOM Cima.X will allow phsiologging of time-stamped physiology signals for fMRI data correction. This makes a difference in data precision by simplifying the correlation of physiology and fMRI data. 

MAGNETOM Cima.X will enable you to easily switch between complex scientific work and day-to-day tasks. Benefit from highly automated scan workflows with myExam Companion and our unique BioMatrix Technology that automatically adjusts to patient biovariability. MAGNETOM Cima.X is your key to unrivalled results at all clinical levels and is seamlessly integrated into your scanner fleet. 

BioMatrix Technology

Our unique BioMatrix Technology automatically adjusts to patient variability for more personalized exams and fewer unwarranted variations. This efficiently increases image quality and consistency and improves the overall patient experience. 

myExam Assist

AI-based myExam Companion helps optimize the scan workflow with its intuitive interfaces and intelligent guidance, reducing operational complexity for more consistent results and better patient care. It turns data into built-in expertise that helps users efficiently achieve reproducible results. 

Technische Details

    Overview Technical Details

    Field strength

    3 Tesla

    Bore size

    60 cm

    Helium consumption

    Zero Helium boil-off technology

    Magnet Length

    172 cm

    Shimming

    Passive & Active

    FoV

    55*55*50 cm 

    Coils

    BioMatrix 3T coils

     

    Gradient system

    Gemini Gradients1

    2001/200

    Gradient power amplifier

    Multi-GPA Technology

    Gradient Cooling

    Liquid Cooling Technology

     

    RF technology

    Maximum number of channels4

    204,228

    Number of independent receiver channels that
    can be used simultaneously in one single scan and
    in one single FoV, each generating an independent
    partial image

    64,128

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