Aert Medical
Aert Medical
Explore our premium custom solutions and medical instrumentation engineered for high-performance settings.
The medical diagnostics and industrial inspection sectors are undergoing an unprecedented shift. Historically, clinical environments were exclusively dominated by high-field superconducting magnetic resonance imaging (MRI) systems (operating at 1.5T, 3.0T, or higher). While these systems provide incredible signal-to-noise ratios (SNR), they carry massive vulnerabilities: reliance on a finite, volatile global supply of liquid helium, high energy footprint, mandatory RF-shielded facility construction, and multimillion-dollar initial capital requirements.
Today, the rise of Low-Field and Ultra-Low-Field Permanent Magnet Imaging Solutions is disrupting this status quo. Driven by high-performance Neodymium-Iron-Boron (NdFeB) configurations, modern permanent magnet systems do not require active liquid helium cooling. This drastically lowers both operational overhead and setup complexity. These systems enable highly localized, Point-of-Care (POC) imaging within neurological units, orthopedic practices, and mobile diagnostics vehicles.
Superconducting systems require millions in infrastructure. Permanent magnet designs plug directly into standard wall outlets, unlocking imaging access for underserved clinics.
With global helium shortages raising prices, zero-helium permanent magnets safeguard critical diagnostic pipelines from supply-chain choke points.
Leading-edge manufacturers leverage computerized magnetic field shimming and custom gradient design to bring 0.05T–0.5T systems up to clinical equivalence.
Serving as a premier high-tech pillar in the intelligent diagnostics paradigm, Wenzhou Aert Medical Co., Ltd. represents a highly integrated enterprise focusing on the absolute forefront of mobile CT, mobile MRI, and digital X-ray detectors. Headquartered in Wenzhou, Zhejiang Province, our organization coordinates multiple advanced research and development centers. By partnering with leading domestic and international scientific research institutes, we bridge the gap between academic physics and patient-centered, commercial-grade hardware systems.
Figure 1: Wenzhou Aert Medical's advanced diagnostic device assembly and manufacturing facility.
Our manufacturing ethos blends technological breakthroughs with structural integrity. We realize that the backbone of any permanent magnet system relies on precision engineering—from robust MRI-compatible stainless steel components to tailor-made RF coils. Our dedicated product lines provide highly integrated, plug-and-play medical hardware to hospital bedslides, trauma ambulances, tactical military vehicles, and remote medical stations.
In traditional clinical workflows, patients must be physically transported to the radiology department, risking stability issues in critically ill individuals. Wenzhou Aert Medical has systematically solved this limitation through our independently developed "LingTong" and "Ark" mobile CT and MRI series. These configurations represent distinct, highly engineered paths toward portable clinical diagnostics.
Elevating CBCT spatial reconstruction to match 64-slice spiral CT diagnostics.
Advanced permanent magnet shimming eliminates high-maintenance cryogenics entirely.
Low-dose radiation architectures optimized for bedside safety and multiple scans.
Optimized pulse sequences engineered for hyper-acute stroke intervention window.
A standout innovation is our proprietary "Automation Balance System". This technology bridges the gap between Cone Beam Computed Tomography (CBCT) and helical spiral CT scanning. Historically, CBCT systems provided excellent bone resolution but suffered from scatter artifacts and poor soft-tissue contrast. By integrating spiral acquisition geometry and custom scatter-reduction algorithms, our system elevates mobile CBCT outputs to match the diagnostic precision of standard 64-slice spiral scanners.
Concurrently, our low-field mobile MRI units provide complete scanning sequences with rapid acquisition cycles. Optimized for neurological, spinal, extremity, and breast imaging, these mobile scanners can be rolled into the ICU or a battlefield field hospital, enabling real-time navigation and diagnostic feedback.
For global medical equipment distributors, medical groups, and scientific research institutes, off-the-shelf equipment rarely meets specific local regulatory or diagnostic requirements. Wenzhou Aert Medical offers comprehensive OEM and ODM customization pathways for permanent magnet configurations, RF subsystems, and structural components.
Our precision medical engineering team develops custom-shimmed magnet arrays, designed to operate in challenging environments with high ambient electromagnetic interference (EMI). Whether integrating highly specialized MRI breast coils, developing targeted MRI neck coils, or sourcing certified MRI-compatible stainless steel brackets, we work closely with our partners' engineering teams.
By maintaining complete control over our manufacturing processes—from high-layer-count high-speed PCBs to advanced mechanical housings—we ensure that every custom scanner features the exact physical and electrical properties required for its designated clinical environment.
A diagnostic imaging scanner is only as good as its sensors. To maintain an E-E-A-T-compliant, world-class standard, Wenzhou Aert operates a specialized subsidiary: Wenzhou Aert Microelectronics Technology Co., Ltd. This division focuses exclusively on the engineering and design of advanced semiconductor-based image sensors.
Currently, the subsidiary is developing next-generation CMOS flat-panel detectors that act as the structural sensing core of our mobile CT solutions. Beyond standard CMOS, our R&D roadmap includes highly advanced Photon Counting Detectors (PCDs). Traditional energy-integrating detectors convert X-rays to light via a scintillator before conversion to electrical signals, introducing geometric scatter and limiting spatial resolution. In contrast, Photon Counting Detectors directly capture individual X-ray photons and measure their exact energy spectrum, drastically reducing the patient's radiation dose while elevating spatial resolution to the sub-millimeter level.
Our long-term strategy responds proactively to the global "Healthy China" initiative and international programs seeking to democratize premium healthcare. By providing affordable, mobile, and highly robust CT and MRI options, we aim to build strong regional medical alliances and promote high-efficiency teleradiology networks.
Figure 2: The conceptual layout and high-integration design of Wenzhou Aert's smart medical cloud connectivity.
Looking forward, Wenzhou Aert Medical combines continuous technological breakthroughs with clinical empathy. Our future technology roadmap includes integrating AI-based deep learning reconstruction algorithms directly onto the edge computing nodes of our mobile systems. This allows real-time denoising, artifact reduction, and automatic region-of-interest (ROI) marking, enabling doctors to make decisions faster. We will continue to build upon our core philosophy of "Excellence in Medical Devices, Integrity in Protecting Life," positioning ourselves as a leading global manufacturer in mobile clinical diagnostics.
Addressing the key scientific, technical, and logistical questions for clinical procurement teams.
Complete your diagnostic workflows with our high-grade auxiliary hardware, edge devices, and clinical accessories.
