Multitom Rax is a Twin Robotic X-ray system that offers unparalleled positioning flexibility, that excels in complex radiographic examinations such as trauma, pediatric, orthopedic and musculoskeletal cases. Benefit from precise insights, efficient workflows, as well as comprehensive diagnosis on a single system – and set new standards in advanced musculoskeletal x-ray imaging.
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Multitom Rax
Move beyond traditional X-ray
Features & Benefits
Twin Robotic X-Ray for complex radiographic examinations
Using traditional X-ray, complex radiographic examinations are often challenging. Whether due to time-consuming manual work, less experienced staff, limited precision in system positioning, or difficult-to-move patients – these exams may result in unsatisfactory diagnostic outcomes. With Multitom Rax, we offer a high-performance system that excels in such examinations, helping you expand precision medicine and improve patient experience. Thanks to its modular design, Multitom Rax can be quickly configured to suit your and your patients' demands. Starting with precision radiography, it also allows 3D bone imaging1 as well as fluoroscopic1 and interventional imaging1 for functional assessment.
Fast, robotic exam setup
RAX detector
Large color touchscreen (10”)
Table
Go even further with True2scale Body Scan1
With True2scale Body Scan1, Multitom Rax offers fully-integrated slot scanning: up to two panoramic images in one run, with the patient standing, seated, or even supine.
Get precise, biplanar, full-body images for high diagnostic confidence and better patient experience.
- Even more anatomical coverage3
Quickly acquire images of the full body with True2scale Body Scan1. With a scan range of up to 190 cm lying and up to 170 cm standing, this acquisition technique enables advanced insights in supine or natural weight-bearing position. - Even greater precision3
Geometrically accurate images, thanks to the slot-scanning technique. No stiching needed. This level of precision is relevant for e.g. scoliosis monitoring, surgical planning, and follow-ups of spinal fusions and knee implants. - Even lower dose3
Powered by slot-scanning technology, adapted to orthopedic cases. You see what you need for diagnostic purposes, while scatter reduction inherent in the beam collimation helps ensure ALADA2 dose.
Precise insights through unique automation
Multitom Rax offers unparalleled precision and flexibility in positioning, allowing projections from nearly all angles and unique automated workflows that make musculoskeletal insights feasible in clinical routine. And all that while saving dose. Improve diagnostic accuracy in daily routine with less effort and low dose.
- Extended3 anatomical coverage
Benefit from unique automation with enhanced RAXortho1 acquisition modes built on the well-known SmartOrtho tilting1 technique. - More precision3
Obtain accurate MSK insights through precise system and patient positioning easily. Twin Robotic arms give you more flexibility through projections from nearly all angles. - Right dose
Use the right dose for every patient. Choose proven technology with dedicated pediatric organ programs for different body regions to help reduce necessary radiation, limit unnecessary radiation and minimize the risk of over-exposure.
Efficient workflows around your patients
Multitom Rax precisely positions and aligns itself, reducing the need for unnatural patient positioning even in challenging situations like trauma cases. It supports staff and offers barrier-free 360°patient access. Optimize the diagnostic experience and increase workforce productivity.
- Reproducible, rapid, robotic exam setup in clinical routine
Let standardized robotic movements speed up your daily routine. Convenient setup is possible by one-touch workflows and virtually unlimited, customizable organ programs that meet your specific requirements. - Refined automated alignment of tube and detector
Thanks to RAXalign and RAXtrack, detector and tube align automatically and stay aligned when repositioning the system. The virtual U-arm movement quickly shifts the system 90° around the patient, ideal for emergency departments. - Less patient repositioning for enhanced care
The system moves around the patient, so repositioning them is no longer necessary. And flexible workflows for wheelchairs, trolleys, and stretchers mean that patients do not need to be transferred onto the system's table at all.
Comprehensive diagnosis with multiple procedures
Thanks to its modular design, Multitom Rax can be quickly configured to suit your and your patients' demands. Starting with precision radiography, it also allows 3D bone imaging1 as well as fluoroscopic1 and interventional imaging2 for functional assessment. Address an even broader range of needs while optimizing clinical operations.
- More informed diagnosis and treatment planning5
Acquire diagnostically relevant Real3D1 bone imaging, adding substantial value to the assessment of bone and joint trauma by detecting or ruling out extremity fractures and fracture-related findings more reliably than conventional radiography. - Expanded5 orthopedic capabilities
Perform fluoroscopy1 and minor interventions1 for functional diagnosis of joints, fracture, and luxation repositioning or needle guidance in musculoskeletal procedures. - Enhanced flexibility5 and independence
By offering 2D and 3D imaging on a single system along with complementary imaging results from fluoroscopic examinations, Multitom Rax gives you more independence.
Advanced Applications
Real3D1 imaging for more insights - See the unseen
Real3D1 is a cone-beam imaging technique. It offers three-dimensional information on the scanned body region – free from magnification and distortion – in sagittal, coronal, and axial views as well as a rendered bone volume. This technique enables table-side image acquisition of the hand/wrist, elbow, foot/ankle and knee, as well as weight-bearing 3D scans of the foot/ankle, knee and lumbar spine. For the upper extremities, Real3D1 Hi-Res offers even better spatial resolution.
Multitom Rax allows to acquire 3D images within the X-ray suite, adding substantial value to the assessment of bone and joint trauma by detecting and ruling out extremity fractures and fracture-related findings more reliably than conventional radiography.
Go even further with True2scale Body Scan1
With True2scale Body Scan1, Multitom Rax offers fully-integrated slot scanning: up to two panoramic images in one run, with the patient standing, seated, or even supine. The geometrically accurate images can improve assessment of skeletal malpositioning – at ALADA dose2.
These geometrically accurate, length extended images of the skeletal system in a.p. and lateral plane, are intended to assess skeletal malposition, such as scoliosis or osteoarthritis secondary to malalignment of the limbs.
True2scale1 Product Video
Go even further with True2scale Body Scan1. Get precise, biplanar, full-body images for high diagnostic confidence and better patient experience. Watch the video.
True2scale1 Demonstration
With True2scale Body Scan1, Multitom Rax makes another step to being the enabler of orthopedic imaging. Watch our product demonstration to learn more.
First experience True2scale1
The University Hospital Carl Gustav Carus in Dresden, Germany, is the first hospital in the world to use True2scale Body Scan1. See how they first experienced True2scale1.
Fluoroscopy1
Fluoroscopy1 and minor interventions1 belong in every radiology department with an orthopedic focus.
Fluoroscopy1 is often used for needle guidance in musculo-skeletal procedures such as arthrography, arthrocentesis, or pain management. Joint injections and interventional spine procedures that do not use image guidance have failure rates of up to 30%, even in large joints like the shoulder.2
With its fluoroscopic and minor interventional capabilities, Multitom Rax delivers what is needed in advanced musculoskeletal imaging – barrier-free access to the patient, positioning flexibility, and isocentric RAXorbit movements – also in a table-free configuration with a wireless footswitch.
Clinical Use
To address the clinical use of 3D imaging1 and slot scanning1 with Multitom Rax, we have created a comprehensive and versatile set of clinical education material, produced with a network of respected clinical experts in the field. Find relevant clinical information to optimize your daily work including clinical talks, white papers, case studies, and educational offerings.
Multitom Rax Training
Get more insights on Multitom Rax. We offer an online training on PEP connect that consists out of different modules. Download the flyer to learn more.
Clinical Case Library
We offer an impressive collection of clinical cases for Real3D1 and True2scale Body Scan1. See how different hospitals use it in their daily clinical routine.
Clinical Workflows
How do clinical workflows look like for Multitom Rax? We made a collection of videos available. Click here to learn more about the clinical workflows.
Clinical Talks
Watch the videos of our customers' experiences with Multitom Rax: clinical talks, webinars and testimonials with experts in the MSK imaging industry.
White Papers
Get more insights about the clinical application of Real3D1 and True2scale Body Scan1 for musculoskeletal imaging. Learn more from our white papers.
Scientific Publications7
Have a look at the scientific results of peer-reviewed journal publications and see how Multitom Rax performs in studies of clinical research institutions.
Clinical Catalog
This 'Clinical Corner' interactive catalog includes all available clinical information on Multitom Rax, in one catalog.
PEP Connect
Start your educational journey and get more insights on Multitom Rax. We offer online trainings on PEP Connect, accessible for everyone. Register now!
X-ray remains an essential modality for musculoskeletal imaging. Multitom Rax adds versatility and flexibility to your imaging fleet. See how it can be applied in emergency care, pediatric care and orthopedic and musuloskeletal care.
Trauma diagnostics in the emergency roomVersatility and space are key in emergency imaging. With Multitom Rax, you can provide an efficient workflow around your patients. You move the system, not the patient, adapting to the situation in the emergency room. To increase the patients' comfort, they can e.g. remain on the stretcher or in their wheelchair for certain acquisitions.
For table-side imaging, our organ programs are designed to minimize patient repositioning.
Emergency rooms are mainly concerned with fractures and joint injuries. In trauma imaging, the 3D information1 can help enable the radiologist to detect and rule out extremity fractures and fracture-related findings more reliably than conventional radiography.
Diagnostics for your most vulnerable patientsPediatric radiology has its challenges. Children differ fundamentally from other patient groups in terms of their emotional and cognitive needs. Siemens Healthineers is redefining the pediatric patient experience.
Multitom Rax is versatile and offers an open system design. In examining children and adolescents in pediatric care, sustaining close contact with the patient and minimizing waiting and transportation time can make all the difference between getting an image or not.
Low-dose imaging is particularly important for your most vulnerable pediatric patients and anyone needing frequent follow-up exams. Scatter reduction inherent in the beam collimation helps ensure ALADA2 dose.
Orthopedic and Musculoskeletal ImagingMultitom Rax offers unparalleled precision and flexibility in positioning, allowing projections from virtually all angles – adapting to patients with limited mobility.
Add advanced application to benefit even more. Real3D1 Hi-Res, exceptional spatial resolution allows for precise insight into the trabeculae and bone marrow. Real3D1 weight-bearing offers assessment of deformities and arthritis in the lower limbs under physiological loading. Combine fluoroscopy1 with Real3D1 for one-stop arthroscopy in the X-Ray room!
In orthopedic imaging, images that are scanned with the patient in an upright position may provide additional information for diagnosis and treatment planning, such as exact positioning of the joints for implant and prosthesis, planning, or malposition of anatomical structures.
Diagnostic imaging supports you in developing your treatment strategy. Multitom Rax has a lot to offer for each musculoskelatal discipline. Discover what you can expect from diagnostic imaging. Please select your speciality.
Weight-bearing assessment of the lower extremities
Assessment of the lower extremities in three dimensions under physiological loading has the potential to improve understanding of various lesions and deformities, as well as surgical planning. For instance, studies have shown an abnormal internal rotation of the talus bone in patients with moderate and severe arthritis, visible in the horizontal plane. A 2D radiograph would not provide insight from that angle, whereas the rotation is only visible in weight-bearing position.8
In syndesmotic injury and detection of syndesmotic instability, standing radiographs can indicate widening of medial (MCS) and tibiofibular clear space (TCS), but will not suffice to show malrotation or a-p shift of the distal fibula within the incisura. MRI can show a ligament lesion but does not allow to assess stability.
Weight-bearing imaging is also beneficial in assessing progressive collapsing foot deformity, as it allows to evaluate the subtalar joint for inclination between the joint facets, angles between the facets and subluxation.Diagnostic imaging for spinal care
Spine surgery sits at the intersection of many interesting problems. From a medical perspective, it is one of the most complex and impactful structures in the body, making spine surgery a delicate discipline that requires many considerations around the current and future life circumstances of a patient.
With innovative instrumentation and surgical strategies comes an increase in procedural cost, that is under scrutiny too prove long-term cost-effectiveness. The debate around health expenditure for spine surgery is fueled by the high incidence of spinal disorders/back pain and subsequent economic burden to society that stems from work absenteeism and other secondary effects. We believe that imaging plays an important role in illustrating treatment options, informing treatment decisions and documenting treatment needs and outcomes.
Precision and versatility are our guiding principles when designing imaging for spinal care. With Real3D1 imaging and True2scale Body Scan1, Multitom Rax offers innovative diagnostic imaging tools tuned for precision, inside a broad spectrum of radiographic and fluoroscopic applications that allow for full utilization. The system is designed to flexibly adapt to patients’ mobility needs. As an imaging company, designing for ALADA2 dose is at the core of our activities.Fracture detection and follow-up imaging
The limitations of conventional 2D radiography in discerning fracture presence, articular involvement, and multi-fragment injuries collide with delays and positioning challenges resulting from referring the mobility-impaired patient to multi-detector CT scan. With Multitom Rax and Real3D1, cone-beam CT imaging of the upper and lower extremities is available on the radiography system with minimal patient repositioning. Sideways extension of the upper limbs spares the trauma patient the adoption of a potentially painful superman position. Several studies have positively assessed image quality - with special consideration of the fine trabecular structures – and radiation dose compared to MDCT, as well as changes in treatment decisions compared to those made solely based on conventional radiography.
High-resolution 3D assessment of small bones and joints
While conventional radiography remains the primary means for fracture diagnosis, subtle fracture detection, ascertaining affliction of the articular surface, and visualization of fracture displacement, as well as surgical planning, benefits from 3D insights.
A study from the University Hospital Würzburg reports changes in treatment decision after cone-beam CT evaluation of the appendicular skeleton in multiple patients. Multitom Rax is a versatile imaging system that allows adding 3D insights after radiography and makes an MDCT examination possible in the same room, courtesy of its Real3D cone-beam CT functionality In the upper extremities, the dedicated Real3D1 Hi-Res protocols are the preferred option for assessing trabecula and bone marrow.
Clinical Images
Needle guidance in musculoskeletal procedures
Real3D1 extremities lying – easier, more comfortable positioning
Real3D1 weight-bearing for greater insights under natural standing positions
Real3D1 extremities lying for comfortable patient positioning
Real3D Hi-Res1 upper extremities designed for greater insights into small joints
A.p. and lateral images of full spine – scan deformities in under 14 seconds1
Female patient, 10 years old
True2scale Body Scan1
spine S AP LAT weight-bearing
0.49 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 3.86
Long leg exams/prosthesis check1
Left image:
Female patient, 81 years old, prostheses
True2scale Body Scan
Leg M AP weight-bearing
1.59 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 31.78
Right image:
Female patient, 81 years old, obese
True2scale Body Scan
Leg L AP weight-bearing
1.99 mAs / 80.7 kV
CU 0.3 DAP [μGy*m2] 72.70
Orthosis imaging in weight-bearing and supine position1
Female patient, 11 years old
True2scale Body Scan1
full-body S AP supine/seated
0.49 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 4.2
Orthosis imaging in weight-bearing and supine position1
Female patient, 11 years old
True2scale Body Scan1
full-body S AP supine/seated
0.49 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 4.2
For well-informed diagnosis and surgical planning1
Female patient, 45 years old
True2scale Body Scan
full-body M AP LAT weight-bearing
1.58 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 24.63
For your most vulnerable patients1
Female patient, 5 years old
True2scale Body Scan
full spine S AP LAT
AP scan
0.49 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 4.42
LAT scan
0.62 mAs / 117 kV
CU 0.3 DAP [μGy*m2] 11.27
Examination of congenital scoliosis in natural weight-bearing position1
Female patient, 21 years old
True2scale Body Scan1
spine S AP LAT, weight-bearing
AP scan
32.34 mAs / 81 kV
CU 0.3 DAP [μGy*m2] 5.11
LAT scan
40.29 mAs / 117 kV
CU 0.3 DAP [μGy*m2] 13.46
Low-dose examination of scoliotic malposition in two planes1
Male patient, 63 years old
True2scale Body Scan
spine S AP LAT, weight-bearing
AP scan
40.18 mAs / 81 kV
CU 0.3 DAP [μGy*m2] 6.32
LAT scan
51.46 mAs / 117 kV
CU 0.3 DAP [μGy*m2] 16.87
Full-body, functional 2D images within seconds1
Female patient, 17 years old
True2scale Body Scan1,
full-body M AP weight-bearing
1.58 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 48.58
Fluoroscopy1 and interventions1 for orthopedic specialists – ideal for a range of indications
Low-dose scoliosis SmartOrtho1 – significantly lower dose due to optimized parameters
SmartOrtho1 lying – up to 4 images performed easily with patient in supine position
SmartOrtho1 standing – up to 4 images performed easily with patient in natural weight-bearing position
Transversal SmartOrtho1 shoulder panorama standing – for panorama stress view
Cross-table SmartOrtho1 lateral – for lateral full spine images of a patient in supine position
High Precision Radiography for MSK examinations Multitom Rax
Trauma imaging with the Virtual U-arm movement
Orthopedic imaging on Multitom Rax with RAXortho1 and SmartOrtho1
Needle guidance in musculoskeletal procedures
Real3D1 extremities lying – easier, more comfortable positioning
Real3D1 weight-bearing for greater insights under natural standing positions
Real3D1 extremities lying for comfortable patient positioning
Real3D Hi-Res1 upper extremities designed for greater insights into small joints
A.p. and lateral images of full spine – scan deformities in under 14 seconds1
Female patient, 10 years old
True2scale Body Scan1
spine S AP LAT weight-bearing
0.49 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 3.86
Long leg exams/prosthesis check1
Left image:
Female patient, 81 years old, prostheses
True2scale Body Scan
Leg M AP weight-bearing
1.59 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 31.78
Right image:
Female patient, 81 years old, obese
True2scale Body Scan
Leg L AP weight-bearing
1.99 mAs / 80.7 kV
CU 0.3 DAP [μGy*m2] 72.70
Orthosis imaging in weight-bearing and supine position1
Female patient, 11 years old
True2scale Body Scan1
full-body S AP supine/seated
0.49 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 4.2
Orthosis imaging in weight-bearing and supine position1
Female patient, 11 years old
True2scale Body Scan1
full-body S AP supine/seated
0.49 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 4.2
For well-informed diagnosis and surgical planning1
Female patient, 45 years old
True2scale Body Scan
full-body M AP LAT weight-bearing
1.58 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 24.63
For your most vulnerable patients1
Female patient, 5 years old
True2scale Body Scan
full spine S AP LAT
AP scan
0.49 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 4.42
LAT scan
0.62 mAs / 117 kV
CU 0.3 DAP [μGy*m2] 11.27
Examination of congenital scoliosis in natural weight-bearing position1
Female patient, 21 years old
True2scale Body Scan1
spine S AP LAT, weight-bearing
AP scan
32.34 mAs / 81 kV
CU 0.3 DAP [μGy*m2] 5.11
LAT scan
40.29 mAs / 117 kV
CU 0.3 DAP [μGy*m2] 13.46
Low-dose examination of scoliotic malposition in two planes1
Male patient, 63 years old
True2scale Body Scan
spine S AP LAT, weight-bearing
AP scan
40.18 mAs / 81 kV
CU 0.3 DAP [μGy*m2] 6.32
LAT scan
51.46 mAs / 117 kV
CU 0.3 DAP [μGy*m2] 16.87
Full-body, functional 2D images within seconds1
Female patient, 17 years old
True2scale Body Scan1,
full-body M AP weight-bearing
1.58 mAs / 80.9 kV
CU 0.3 DAP [μGy*m2] 48.58
Fluoroscopy1 and interventions1 for orthopedic specialists – ideal for a range of indications
Low-dose scoliosis SmartOrtho1 – significantly lower dose due to optimized parameters
SmartOrtho1 lying – up to 4 images performed easily with patient in supine position
SmartOrtho1 standing – up to 4 images performed easily with patient in natural weight-bearing position
Transversal SmartOrtho1 shoulder panorama standing – for panorama stress view
Cross-table SmartOrtho1 lateral – for lateral full spine images of a patient in supine position
High Precision Radiography for MSK examinations Multitom Rax
Trauma imaging with the Virtual U-arm movement
Orthopedic imaging on Multitom Rax with RAXortho1 and SmartOrtho1
Needle guidance in musculoskeletal procedures
Technical Specifications
Multitom Rax is a Twin Robotic X-ray system that thanks to its twin robotic arms for moving tube and detector offers unparalleled positioning flexibility in the X-ray suite. This allows for patient-centric workflows and weight-bearing imaging. Therefore the system is well-suited for MSK and trauma imaging. The system is easy to position around movement-impaired patients (on the table, in a wheelchair, or on a patient trolley/stretcher) even in challenging projections, while offering an ergonomic workflow.
Usability benefits
- Complete system operation with control of generator, tube, and imaging scanner from a single integrated console
- Convenient scanner positioning via connected Remote Control Console1 and one wireless remote control
- Controlled via the selection of organ programs
- The X-ray tube position, generator parameters and collimator settings, including additional filtration as well as image processing parameters, are automatically set via the selected organ program
- Simultaneous movement in up to 10 axes with Twin FAST (Free Axis Simultaneous Travel) Automatic positioning of the X-ray tube and built-in detector into user-defined acquisition positions as preset in the organ program. By pressing the SmartMove button, the X-ray tube and detector stand automatically move to a preset position in accordance with the selected organ program
- The touch-sensitive wireless remote control with SmartTouch helps prevent unintentional system movements - SmartMove buttons are located on the foot kick-switch and on the wireless remote control
- The automatic positioning can be configured in service mode to bypass any obstacles or fixtures in the room through ICP software (ICP = Intelligent Collision Protection)
- RAXtrack: Extensive tracking capabilities of tube and built-in - RAX detector. Tracking of SID, longitudinal, transversal and lateral tube and detector movements as well as tube rotation for patient table projections. Vertical and horizontal tube and detector movement tracking within the room.
- RAXalign: By the push of a button on the detector stand, the X-ray tube is automatically aligned and positioned to the angle and position of the built-in detector while maintaining the center and SID according to the grid used. By pressing the centering button on the tube stand, the detector stand is automatically aligned to the tube‘s central beam while maintaining the centering and SID according to the grid used
- Virtual U-Arm: Automatically moves detector and tube from a.p. to lateral within seconds without the need for patient repositioning
Moreover, Multitom Rax combines classic radiography with optional fluoroscopic capabilities, 3D imaging (Real3D1) and full body slot scanning (True2scale Body Scan1). A multitude of imaging techniques available in one room without patient transfer offers workflow and economic advantages.
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RAX detector with AEC and ACSS –
minimize overexposure and overcollimation
With its dose-saving RAX detector, Multitom Rax helps you to limit ‘dose and collimation creep’ by automatically evaluating and adjusting exposure levels.
With AEC and ACSS, the system always provides the
right exposure parameters for the examined body region and sets collimator and radiation field size according to the respective organ program and SID. This helps ensure a reproducible, optimum exposure for the body region under examination.
Dedicated pediatric organ programs for different body regions
For example, by focusing on vertebral alignment instead of bone structure, the new low-dose scoliosis SmartOrtho organ program lets you significantly decrease dose – ideal for follow-up scoliosis exams.
ALADA dose is particularly crucial for adolescent scoliosis patients, since they are repeatedly exposed to dose.
Limit dose while ensuring image quality – the CARE program
(Combined Application to Reduce Exposure)
The basic CARE (Combined Application to Reduce Exposure) package reduces the radiation dose for patients and staff using dose-free applications, such as:
Careposition: Reduce radiation dose with dose-free patient repositioning.
Careprofile: Reduce radiation dose with dose- free image collimation
The Enhanced CARE package1 for fluoroscopy lets you focus on the patients by ensuring a seamless workflow that allows you to avoid additional radiation dose:
Snapshot mode: Enjoy an immediate low-dose image capture.
Proactive FluoroLoop: Focus on the patients and avoid additional radiation dose.
Histogram dose regulation: Enjoy automatic dose regulation for more efficient workflows.
Digital zoom: Benefit from dose-free zooming in of clinical images.
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Thank you.
Multitom Rax and the features mentioned herein are not commercially available in all countries. Their future availability cannot be guaranteed.
The statements by Siemens Healthineers customers described herein are based on results that were achieved in the customer’s unique setting. Since there is no “typical“ hospital and many variables exist (e.g., hospital size, case mix, level of IT adoption) there can be no guarantee that other customers will achieve the same results.
The customer is employed by an institution that receives financial support from Siemens Healthineers for collaborations.