Description

Boundless Platform
NeuMR Rena is a renowned MRI system featuring an innovative boundless platform. It is equipped

with fiber distributed spectrometer, full-digital gradient chain, AIM RF chain and a series of advanced applications,

realizing platform-based innovation that integrates software and hardware.

Fiber Distributed Spectrometer
For research platforms, the fiber distributed spectrometer can offer more diversified research solutions. Based on fractal spectrometer

and the PRIDE platform, external research interfaces for sequencing and reconstruction have been opened up, allowing researchers to

conduct research on the machine with only innovative ideas and an understanding of MRI.

Stronger real-time performance
Higher SNR
Wider scalability
Broader openness
Full-digital Gradient Chain
Full-digital gradient chain
The ARM gradient system adopts embedded cooling design in the gradient coil design, achieving 360-degree full coverage cooling. This cooling method greatly improves cooling efficiency and reduces the impact of heat generated during gradient work on gradient performance.

Realize 360-degree full coverage coil cooling

Super-high Gradient Strength and Slew Rate

Ensuring high-quality image and reducing
scanning time

MUSIC-HDDWI Technology
The gradient system is one of the core components of MRI. The performance of the gradient directly determines the system’s resolution and scan time. Hence, a brand new full-digital gradient chain design has been adopted.

Gradient strength: 46mT/m

Slew rate: 160T/m/s

Higher resolution
Faster scanning speed

Better functional imaging

Full-digital gradient chain
The ARM gradient system adopts embedded cooling design in the gradient coil design, achieving 360-degree full coverage cooling. This cooling method greatly improves cooling efficiency and reduces the impact of heat generated during gradient work on gradient performance.

Realize 360-degree full coverage coil cooling

Super-high Gradient Strength and Slew Rate

Ensuring high-quality image and reducing
scanning time

MUSIC-HDDWI Technology
The gradient system is one of the core components of MRI. The performance of the gradient directly determines the system’s resolution and scan time. Hence, a brand new full-digital gradient chain design has been adopted.

Gradient strength: 46mT/m

Slew rate: 160T/m/s

Higher resolution
Faster scanning speed

Better functional imaging

All-rounder

High Resolution
VAST-Variable flip Angle iSotropic Turbo spin echo
High resolution scanning
VAST can achieve 3D isotropic high-resolution imaging for T1, T2, FLAIR and PD, ensuring distortion-free MPR reconstruction.

Whole body application
Brain, joints, MRCP and angiography, etc.

Nerve scanning
Neurological scans of the intracranial nerves, including facial nerve, trigeminal nerve imaging and brachial plexus imaging, etc.

MUSIC-HDDWI Technology

EPI Sequence
During a stimulated acquisition, both imaging echoes and navigational echoes were collected. Real phase information was obtained through the navigational echoes, and phase differences between each shot were corrected. This led to the reconstruction of high resolution diffusion images.

High SNR, High Resolution, Artifact Free
The higher b value, the higher performance requirements for the equipment. MUSIC sequence provides high spatial resolution and clear anatomical details.

VAST-Variable flip Angle iSotropic Turbo spin echo
High resolution scanning
VAST can achieve 3D isotropic high-resolution imaging for T1, T2, FLAIR and PD, ensuring distortion-free MPR reconstruction.

Whole body application
Brain, joints, MRCP and angiography, etc.

Nerve scanning
Neurological scans of the intracranial nerves, including facial nerve, trigeminal nerve imaging and brachial plexus imaging, etc.

MUSIC-HDDWI Technology

EPI Sequence
During a stimulated acquisition, both imaging echoes and navigational echoes were collected. Real phase information was obtained through the navigational echoes, and phase differences between each shot were corrected. This led to the reconstruction of high resolution diffusion images.

High SNR, High Resolution, Artifact Free
The higher b value, the higher performance requirements for the equipment. MUSIC sequence provides high spatial resolution and clear anatomical details.

Ultra Fast Speed
Fast BrainQuant

Faster
Accurate
Better
11 contrasts image

DEEP R-AI acceleration technology
Fast and fidelity

Time has been reduced 45%
Improving the SNR through noise reduction isa faster acceleration technique compared to conventional methods, provided that the SNR remains the same.

Dual-domain fidelity
The dual-domain fidelity module ensures the authenticity of the data during the image reconstruction process as well as the stability of the reconstructed image.

Artificial Intelligence
The core of denoising ability is to progressively discriminate the image using artificial intelligence, accurately remove noise signals, select real and effective signals, and obtain high-quality images through image reconstruction.

Fast BrainQuant

Faster
Accurate
Better
11 contrasts image

DEEP R-AI acceleration technology
Fast and fidelity

Time has been reduced 45%
Improving the SNR through noise reduction isa faster acceleration technique compared to conventional methods, provided that the SNR remains the same.

Dual-domain fidelity
The dual-domain fidelity module ensures the authenticity of the data during the image reconstruction process as well as the stability of the reconstructed image.

Artificial Intelligence
The core of denoising ability is to progressively discriminate the image using artificial intelligence, accurately remove noise signals, select real and effective signals, and obtain high-quality images through image reconstruction.

Precise Quant
KneeQuant
Molecular imaging
Joint cartilage molecular imaging can be achieved through KneeQuant.

Clinical significance
A noninvasive method to evaluate the biochemical changes of cartilage and meniscus in patients with early-stage osteoarthritis.

Liver Quant

Six Echoes
Through one acquisition and six echoes can obtain six contrast images.

Assessing Fatty Liver
Precise Quantification of Hepatic Fat & Analysis of Iron Deposition.

KneeQuant
Molecular imaging
Joint cartilage molecular imaging can be achieved through KneeQuant.

Clinical significance
A noninvasive method to evaluate the biochemical changes of cartilage and meniscus in patients with early-stage osteoarthritis.

Liver Quant

Six Echoes
Through one acquisition and six echoes can obtain six contrast images.

Assessing Fatty Liver
Precise Quantification of Hepatic Fat & Analysis of Iron Deposition.

Clinical Images

LiverQuant

Nerves and Blood vessels

Pelvis

Total Neuro

Knee

KneeQuant

LiverQuant

Nerves and Blood vessels

Pelvis

Total Neuro

Knee

KneeQuant