Vantage Atlas 1.5T / Clinical Image Gallery
Head Imaging
Sensitivity of brain stem lesion compared on both FSBB and FE sequences
Head Imaging
The Atlas SPEEDER technology used at Kosair Childrens Medical Center allows for quick high resolution images on pediatric patients.
Head Imaging
High resolution DWI with automatic post processing of ADC map.
Head Imaging
IAC evaluation with high resolution 3D FASE T2 showing small detail of the auditory canals.
Head Imaging
3D TOF MIP image together with Flow Sensitive Black Blood imaging allows for visualization of slow flowing vessels in the periphery of the brain.
Head Imaging
V-TRACE is a dual echo sequence which combines both 3DTOF and FSBB. Additionally, the source images of the 3DTOF echo are T1 weighted without background suppression. In the scan time of one 3DTOF, V-TRACE provides TOF, FSBB, combination of both plus T1W information.
Head Imaging
Pre and post high resolution imaging of the pituitary.
Head Imaging
AVM: FSBB, by applying MPG pulses, can depict the detailed structure of small vessels, while FIBB highlights microbleeds and susceptibility lesions.
Head Imaging
The abnormal vessels around a tumor (glioma) as depicted by FIBB and FSBB, can provide useful information for evaluating the characteristics and grade of the tumor. FIBB images highlight susceptibility signal around the tumor, while FSBB images display abnormal blood vessels that have developed around the tumor.
Head Imaging
Thin slice axial, sagittal and coronal T1 post contrast images through the pituitary
Body Imaging
Body Vision is Diffusion Weighted Imaging for the whole body. Body Vision shows high sensitivity to malignant tumors without the use of a contrast medium.
Body Imaging
Single Shot Fast Advanced Spin Echo captures fetal detail while limiting motion.
Body Imaging
Sequences using FASE and SSFP with non-contrast Time-SLIP MRA on a patient with polycystic disease.
Body Imaging
Toshiba’s Body Imaging package provides a complete compliment of imaging techniques and functions: In and out of Phase, Homogeneous FatSat, Respiratory Comp, Diffusion Weighted and 3D dynamic breath hold.
Body Imaging
MIP image of abdominal vasculature and MRCP using SSFP.
Body Imaging
FASE source images can be used to evaluate distended ureters and bladder slice by slice or as a MIP projection
Body Imaging
A combination of the Atlas SPEEDER body coil and the integrated spine array coil provides signal to noise that is exceptional for visualizing small details.
Body Imaging
High-quality imaging of the prostate gland using Toshiba's Fat Free imaging technique.
Body Vision
The 16-element Body SPEEDER coil allows for consistent Fat Free imaging while accurately depicting changes caused by inflammatory responses.
Body Vision
Body Vision image acquired coronally depicts the changes caused by inflammation in the case of enteritis.
Body Vision
Body Vision provides additional information in this case of intussusception.
Body Vision
Small lesions that may be masked in surrounding tissue signal intensities become obvious with Body Vision and Fusion techniques.
Body Vision
Specialized sequences and protocols employed by Body Vision complement abdominal studies, allowing a more confident diagnosis.
Body Vision
Diffusion color overlay of a non-cystic renal mass in a patient with right posterior flank pain makes it easier to evaluate an abnormal region.
Body Vision
Whole body diffusion creates a unique contrast that shows promise in whole body metastatic evaluation.
Body Vision
Male patient presented with a nonspecific palpable mass in the lower right thigh. Body diffusion assists in localizing the suspected mass.
Body Vision
Body Diffusion reveals extensive lymphadenopathy of the trunk and suggests lower extremity involvement.
Breast
Radial reconstruction of isotropic dynamic data sets allows the radiologist to visualize lesion and ductal morphology.
Breast
Toshiba's PASTA technique and uniformity of fat suppression better differentiate between silicone and normal breast tissue, assisting the radiologist in detection of silicone leaks
Breast
Toshiba's Radiance Plus package combined with industry leading Fat Free imaging with the Sentinelle breast coil was used for this mid-dynamic high resolution MIP.
Breast
Multiplaner reconstruction of suspect lesion allows the Radiologist and Surgeons a complete understanding of localized involvement.
Breast
Sentinelle's variable coil technology allows for scanning large patients without compromising image quality or patient comfort.
Breast
CAD post processing on the Aegis of high resolution dynamic data continues to be an aid to radiologists in detection and characterization of suspect tissue.
Breast
Bilateral 3D FFE Quick dynamic and diffusion weighted imaging of the breast with fused image.
Breast
FBI allows vascular studies of the breast without contrast injection. In this comparison the enhancing volume is similar in the FBI and DCE sequences.
Breast
Post-processed Dynamic Contrast Enhanced images.
Cardiac
Delayed Enhanced, time-resolved and SSFP cine images acquired on a 450lb patient using the Titan 1.5T open bore MRI system.
Cardiac
SSFP time-resolved Rest/Stress with delayed enhancement imaging.
Cardiac
FASE black blood images acquired in a single breath hold.
Cardiac
Real time cine imaging with the dedicated 32 element cardiac coil allows 60ms temporal resolution
Spine
Whole spine imaging using the Integrated Altas spine array coil
Spine
Cervical spine T2 FSE sagittal and T2 SSFP axials depict fine nerve detail.
Spine
3D SSFP WET technique allows for source images to be reconstructed as a MIP or viewed individually to better appreciate nerve root detail.
Spine
3D myelography demonstrating nerve roots.
Spine
3D WET SSFP high resolution axial cervical spine imaging
Spine
Sagittal Lumbar Spine: FSE T2, SE T1, and FSE STIR. Providing a range of imaging techniques for differentiating pathology
Spine
The Toshiba integrated Atlas coil technology allows for a large coverage area without moving the patient which is especially useful when imaging pediatric sedation cases.
Spine
Thoracic spine T2 FSE Sagittal and T2 SSFP axials.
Spine
Integrated Atlas SPEEDER coils enhance throughput for routine lumbar spine imaging.
Upper Extremities
Axial T2W FSE of the shoulder with homogenous off-center Fat Saturation.
Upper Extremities
Routine imaging protocol of the shoulder
Upper Extremities
Homogenous off-center Fat Free imaging demonstrating a supraspinatus muscle tear
Upper Extremities
Shoulder arthrogram with T1W Fat Free imaging
Upper Extremities
Wrist images acquired with the Atlas SPEEDER wrist coil with arm to patient's side.
Upper Extremities
Elbow images demonstrating homogeneous Fat Free off-center imaging.
Upper Extremities
Coronal images of the hand and wrist region acquired with the Atlas SPEEDER wrist coil.
Upper Extremities
Small FOV, high resolution, Fat Free imaging using the Atlas SPEEDER wrist coil.
Lower Extremities
Routine unilateral hip with high resolution and homogeneous Fat Free imaging
Lower Extremities
Coronal T1 and T2 weighted images demonstrating large field of view and homogeneous Fat Free imaging.
Lower Extremities
Homogeneous Fat Free imaging provides confidence in diagnosing distal foot pathology.
Lower Extremities
Sagittal PD ankle view demonstrating homogeneous Fat Free imaging
Lower Extremities
Whole foot and ankle imaging using the QD knee/foot
Lower Extremities
Sagittal PD and PD fat sat demonstrating clear visualization of the ACL. The large knee coil is excellent for imaging your largest to smallest patients.
Lower Extremities
Routine sagittal and coronal PD and PD fat sat views of the knee demonstrating ACL and meniscus detail.
Lower Extremities
Uniform signal of T1 pre and T1 fat sat post contrast sequences.
Lower Extremities
4-channel flex coil provides a variety of solutions to extremity imaging.
Lower Extremities
Visualization of patella cartilage made possible with Fat Free Water Excitation Technique.
Lower Extremities
Pediatric patient with recurrent tibia fracture imaged through cast using the flexible Atlas coil technology and selective Fat Free imaging post contrast.
Metal Imaging
Metal artifact is minimized with MSOFT technique.
Metal Imaging
Sagittal and coronal knee images demonstrating minimal amount of artifact surrounding metal hardware.
Metal Imaging
Sagittal cervical spine imaging of a patient with a metal plate.
Metal Imaging
Coronal STIR, Fat Free axial T2W, T2W without fat suppression and T1W Fat Free imaging with contrast on a thigh with metal implant.
Metal Imaging
Sagittal lumbar spine with metal hardware
Metal Imaging
Sagittal STIR images of lumbar spine with metal hardware
Vascular Non-Contrast-Fresh Blood Imaging
MIP reconstruction of hand vessels acquired using non-contrast Fresh Blood Imaging.
Vascular Non-Contrast-Fresh Blood Imaging
Multi-station runoff from the renal arteries to the feet, acquired using non-contrast Fresh Blood Imaging.
Vascular Non-Contrast-Fresh Blood Imaging
Whole body non-contrast imaging utilizing Toshiba's exclusive advanced imaging techniques.
Vascular Non-Contrast-Fresh Blood Imaging
Fresh Blood Imaging is able to provide visualization of both arterial and venous slow flow in the lower extremities.
Vascular Non-Contrast-Fresh Blood Imaging
FBI run-off captures slow collateral flow around femoral stenosis.
Vascular Non-Contrast-Fresh Blood Imaging
Flow Spoiled- Fresh Blood Imaging is especially useful when imaging feet in the diabetic patient. This is an improved FBI technique also known as Contrast Free Improved Angiography (CIA).
Vascular Non-Contrast-Fresh Blood Imaging
Angiographic foot imaging is often difficult, but not with Toshiba’s FBI technique. Post-processed volume data provides valuable anatomical detail.
Vascular Non-Contrast-Fresh Blood Imaging
A MIP of the hand vessels using the non-contrast FBI technique
Vascular Non-Contrast-Fresh Blood Imaging
FBI MRV lower leg with varix of the right great saphenous vein.
Vascular Non-Contrast-Time SLIP
Axial MIP and source images of the renal arteries reveal fine detail of arterial vessels in the renal parenchyma.
Vascular Non-Contrast-Time SLIP
Extraordinary details of the peripheral renal artery branches are shown using the contrast free Time-SLIP technique.
Vascular Non-Contrast-Time SLIP
Carotid non-contrast usingTime-SLIP with a 1200 BBTI time.
Vascular Non-Contrast-Time SLIP
Renal, portal, and splenic vasculature was visualized using Time-SLIP. This allows for imaging of in-flow and out-flow which is useful for multi-directional flow patterns.
Vascular Non-Contrast-Time SLIP
Time-SLIP, a non-contrast technique, depicts complex flow
Vascular Non-Contrast-Time SLIP
Time-SLIP MRA of a renal transplant. Post transplant patients can be spared additional contrast injections when using the Time–SLIP sequence.
Vascular Non-Contrast-Time SLIP
The vasculature of this renal transplant patient was able to be evaluated without the use of a contrast medium by using Time-SLIP, a Toshiba non-contrast technique based on arterial spin labeling.
Vascular Non-Contrast-Time SLIP
The arteries and veins were acquired separately using Time-SLIP.
Vascular Non-Contrast-Time SLIP
The peripheral arteries and veins associated with the tumor in the apex of the right lung are clearly visualized.
Vascular Non-Contrast-Time and Space Angio
Time and Space Angiography combines arterial spin labeling with advancing delay times to create a fluoro effect.
Vascular Non-Contrast-Time and Space Angio
Advancing the delay time allows Physicians to visualize the filling pattern of this carotid aneurysm.
Vascular Non-Contrast-Non-Contrast vs. Contrast Comparison
TSA and DSA studies show blood flow into a left carotid aneurysm
Vascular Non-Contrast-Non-Contrast vs. Contrast Comparison
Comparison between FBI non-contrast MRI and DSA of claudication in the lower leg.
Vascular Non-Contrast-Non-Contrast vs. Contrast Comparison
Non-contast SSFP with RMC allows imaging of the most complex flow anomalies. The coarctation is compared with CEMRA.
Vascular Non-Contrast-Non-Contrast vs. Contrast Comparison
DSA of the distal femoral artery confirms FBI findings on this post stent placement
Vascular Non-Contrast-Non-Contrast vs. Contrast Comparison
CE-MRA (left) and non-contrast SSFP (right) of the aortic arch yield comparable results.
Vascular Non-Contrast-Non-Contrast vs. Contrast Comparison
Imaging of the distal extremity renders similar findings in both FS-FBI and DSA studies.
Vascular Non-Contrast-Non-Contrast vs. Contrast Comparison
3-station FBI runoff findings are validated with DSA
Vascular Non-Contrast-Non-Contrast vs. Contrast Comparison
CE-MRA corroborates findings of renal artery stenosis on non-contrast Time-SLIP MRA
Vascular Non-Contrast-Non-Contrast vs. Contrast Comparison
Non-contrast FBI images of lower leg occlusion are confirmed with DSA study.
Vascular Contrast Enhanced
Contrast Enhanced MRA of the thorax using the Atlas SPEEDER Body coil in combination with the Atlas SPEEDER Spine coil.
Vascular Contrast Enhanced
Contrast Enhanced MRA of the thoracic aorta timed correctly using Visual Prep.
Vascular Contrast Enhanced
Contrast enhanced carotid artery imaging utilizing the integrated neurovascular coil.
Vascular Contrast Enhanced
Contrast enhanced peripheral vascular MRA using Advanced Moving Bed
Pediatric
Coronal T1 and T2 weighted images reveal extensive mid-brain pathology.
Pediatric
Fat Free 3D T1 FFE and T2 axial reveal ocular lesion in this pediatric patient.
Pediatric
FASE source images can be used to evaluate distended ureters and bladder slice by slice or as a MIP projection
Pediatric
Coronal T1 and T2 weighted images demonstrating large field of view and homogeneous Fat Free imaging.
Pediatric
The Toshiba integrated Atlas coil technology allows for a large coverage area without moving the patient which is especially useful when imaging pediatric sedation cases.
Pediatric
Posterior brain pathology demonstrated on T1 weighted post contrast sagittal and axial views.
Pediatric
Pediatric patient with recurrent tibia fracture imaged through cast using the flexible Atlas coil technology and selective Fat Free imaging post contrast.
Pediatric
The Atlas SPEEDER technology used at Kosair Childrens Medical Center allows for quick high resolution images on pediatric patients.
Pediatric
Homogeneous Fat Free imaging reveals diffuse pathology in this pediatric knee.
