by Editorial Team | Jul 30, 2025 | Investors
The Valencia-based company is backed by strategic investors such as Fernández Sierra and Alonso Senent to advance its mission to revolutionise magnetic resonance imaging with accessible, state-of-the-art technology.
PhysioMRI, a leading Spanish company in the development of portable magnetic resonance imaging, is capturing the attention of the medical and technological community thanks not only to its innovation, but also to the backing of strategic investors who bring experience, vision and a strong commitment to the transformation of the healthcare sector. Among them are figures such as Sergio Fernández Sierra and Jorge Alonso Senent, leaders in the entrepreneurial and healthcare ecosystem.
Sergio Fernández Sierra, founder of Servicios Hospitalarios S.L., brings to PhysioMRI a valuable perspective from the field of hospital management. With an extensive track record in the implementation of technological solutions in clinical environments, Fernández Sierra has been instrumental in identifying real needs in hospitals and diagnostic centres, which has allowed PhysioMRI to adapt its developments to practical and operational contexts. His knowledge of the inner workings of the Spanish healthcare system makes him a strategic ally for product validation and scaling.
Jorge Alonso Senent, managing partner of Evalue Innovación S.L., comes with a strong specialisation in R&D&I financing. His company has established itself as a benchmark in advising on how to obtain public aid and tax deductions for innovation projects. Alonso Senent brings not only capital, but also a network of institutional contacts and technical knowledge to maximise the available resources and accelerate the company’s growth. Thanks to his participation, PhysioMRI has been able to optimise its innovation strategy and access key lines of financing for its technological development.
The backing of experts with proven experience in complementary areas – hospital management and innovation – strengthens the viability of the Valencian company’s projects and opens up new opportunities for public-private collaboration. This backing is one of the factors that has enabled PhysioMRI to position itself as one of the most promising start-ups in the field of medical technology, and to make progress in the development of promising alternatives to conventional diagnostic imaging devices, such as its portable MRI.
In a context where accessible medical care is more urgent than ever, PhysioMRI is steadily advancing towards its goal: democratising access to high quality imaging diagnostics. The support of investors such as Fernández Sierra and Alonso Senent not only validates the technological proposal, but also propels it towards a real application with direct social impact.
by Editorial Team | Jul 22, 2025 | NextMRI
From non-ferromagnetic chassis to software integration: this is how the next generation of medical imaging is built
The NextMRI project, led by Spanish medtech company PhysioMRI, marks a milestone in the evolution of portable magnetic resonance imaging with the development of a compact, efficient and accessible device. The prototype assembly process is a critical phase that combines precision engineering, design and strict biomedical safety standards.
Assembly begins with the main structure, a lightweight but robust chassis that supports the low-power permanent magnet, the functional core of the system. This chassis is manufactured from non-ferromagnetic alloys to prevent interference and ensure magnetic field stability. Its design allows for quick adjustments during the validation phase and facilitates future iterations of the prototype.
Once the base structure and main magnet have been installed, the team proceeds to assemble the gradient system and radiofrequency (RF) coils. These coils are integrated using supports that ensure geometric precision and signal optimisation. Initial calibration is performed during assembly, ensuring that each coil meets the field uniformity required for quality images.
The next step involves installing the electronic system, which includes RF amplifiers, control modules, power supplies, and the data acquisition board. Each component is assembled under electromagnetic compatibility protocols to minimise noise and maximise signal stability. Connectivity between modules is organised using cabling and internal channels that optimise both safety and ease of maintenance.
Once the hardware has been integrated, the control and reconstruction software is implemented and tested directly on the assembled device. This allows communication between sensors, actuators, and the central processing system to be verified.
Finally, the NextMRI prototype undergoes functional verification and safety testing to ensure that the assembly complies with international medical device regulations.
The result is an innovative portable magnetic resonance imaging system, the product of meticulous assembly that reflects PhysioMRI’s commitment to technological excellence and the democratisation of diagnostic imaging.

by Editorial Team | Jul 10, 2025 | General News
The first portable magnetic resonance imaging device, developed with technology from the Valencian company and backed by prominent investors such as Claver and Rodrigo del Prado, is expected to go on sale in 2027
The Spanish company PhysioMRI, specialized in research and development of portable magnetic resonance imaging (MRI) technologies, has been officially launched with its innovative tech-medical initiative, aiming to radically transform access to and application of MRI in clinical, research, and hard-to-reach settings, such as field hospitals.
The launch event, held at the Veles e Vents building in Valencia, brought together prominent professionals from the medical, technological, and scientific fields, as well as project investors. Among the attendees were Rodrigo del Prado, founder of the Spanish tech brand BQ, Víctor Claver, former player of Valencia Basket and the Spanish National Basketball Team, and Dr. Luis Martí Bonmatí, Director of the Medical Imaging Clinical Area at the University and Polytechnic Hospital La Fe in Valencia. Four of PhysioMRI’s co-founders also took part in the event: Alfonso Ríos (CEO), José María Benlloch, Joseba Alonso, and Jonatan Fatelevich.
During his speech, Alfonso Ríos addressed several key aspects of the company, such as financial management — where audits and project verification are conducted — and the MRI manufacturing and production environment, emphasizing that “this is the place where all the reception and assembly processes take place.” He also pointed out that all the MRI machines they’ve built so far “function the same way.” Furthermore, he highlighted the Quality System division, where certifications are obtained, including the official certification required for the manufacturing of medical devices.
In his turn to speak, José María Benlloch stated: “We are looking at a technology that can bring MRI to every clinic, every hospital, every corner of the world where it is currently inaccessible. This is not an evolution — it’s a revolution in access to medical diagnostics.”
Meanwhile, Joseba Alonso offered a more detailed perspective on the development of the MRI system. He explained how this new generation of portable scanners integrates advanced ultra-low magnetic field technologies, custom acquisition electronics, and image reconstruction algorithms based on artificial intelligence. Alonso also highlighted another vital feature of PhysioMRI’s new machines: portability. “What would be needed to transport the MRI to places like a village in Africa? You’d need a trailer, anchors, stabilizers, or a ramp to lower the device and perform MRIs outside the trailer itself.”
During Alonso’s presentation, a technical demonstration of the functional prototype of the medical device was carried out, sparking great interest among attendees, especially due to its compact design, intuitive interface, and ability to acquire clinically relevant images in a matter of minutes.
Lastly, Jonatan Fatelevich, who oversees the strategic and commercial side of the project, stated: “We want to place our MRI in every clinic in the world.” He also emphasized their goal to adopt a “pay-per-use” model, referring to the payment system used for photocopiers, at a much lower cost than traditional MRI scans. Based on this strategy and calculations, he noted that if a clinic performed 10 MRIs per day for 22 days a month, the investment in the medical device would be recovered in about six months.
In this way, PhysioMRI reaffirms its position as a European leader in portable MRI technologies, betting on disruptive innovation in the service of healthcare and science.
by Editorial Team | Jun 30, 2025 | ELLIMRI
The development of this new MRI implements features such as portability, low magnetic intensity magnets or AI for medical image reconstruction.
Medical technology is progressing rapidly day by day, and one of the areas that has undergone a significant transformation in recent years is magnetic resonance imaging (MRI). In this context, the Spanish company PhysioMRI, dedicated to the research and development of innovative solutions in the field of portable MRI, has started to develop its latest product: ELLIMRI, a low-field MRI system designed to offer accessibility, efficiency and portability without compromising diagnostic quality.
Unlike traditional MRI scanners, which require complex facilities, dedicated spaces and high-intensity magnetic fields, this portable MRI is based on a low-field magnet design, which significantly reduces its size, operating cost and infrastructure needs. Thanks to its compact construction, the new device can be easily transported and installed in a variety of environments, including rural clinics, mobile units and even in emergency or low-resource settings.
One of the most innovative aspects of this MRI device is its true portability. The system has been designed with mobility in mind, allowing it to be moved by a single person or by light transport equipment. This opens up the possibility of performing MRI studies in places where it was previously unfeasible, extending access to this technology to patients who, for geographical or logistical reasons, could not benefit from a traditional MRI.
Despite operating in a lower magnetic field range, the new medical device maintains image quality suitable for medical studies, especially in musculoskeletal and emergency medicine. Its image reconstruction software, optimised by advanced artificial intelligence algorithms, compensates for the typical limitations of low-field systems, enabling clear and diagnostically useful images.
In addition, the portable MRI stands out for its energy efficiency and low operating cost. As it does not require cryogenic cooling systems or expensive magnetic shielding, it represents a sustainable and cost-effective solution, ideal for healthcare facilities with limited resources or those looking to reduce their energy footprint.
With this project, the Spanish company not only proposes an innovative technological solution, but also drives a paradigm shift in the way MRI is conceived: from a centralised, high-cost tool to an accessible, flexible and decentralised care-oriented device. PhysioMRI is thus positioning itself as a benchmark in the democratisation of diagnostic imaging, bringing high-precision healthcare to every corner of the world.

by Editorial Team | Jun 23, 2025 | NextMRI
The post-processing software developed by PhysioMRI optimises images obtained with low-intensity MRI scans, ensuring high-quality clinical results.
The Valencian company PhysioMRI is at the forefront of the development of truly portable magnetic resonance imaging (MRI) systems. As part of its NextMRI project, it has incorporated state-of-the-art post-processing software designed to maximise the diagnostic quality of images acquired with low-intensity magnetic fields.
This software is not limited to mere basic adjustments: it incorporates an interface that allows the clinical operator or technician to intuitively intervene on artifacts, noise, segmentations, and reconstructions. In the case of the new MRI, given that the scanner works with a reduced magnetic field compared to conventional systems, the presence of noise and the lower signal-to-noise ratio constitute a key challenge.
Main features of post-processing software
- Module differences: the software has different sections that handle specific tasks, such as image data, image processing, and image post-processing, among others.
- Accessible user interface: Designed for technicians and radiologists, the interface features intuitive control panels for visual review of slices, adjustment of image noise filters, contrast scaling, or review of motion artifacts.
- Export and integration: The system allows exporting in standard format (DICOM) and integration with PACS systems, facilitating the inclusion of these images in routine clinical workflows.
Impact on clinical practice
Thanks to this post-processing software and the NextMRI portable platform, smaller healthcare centers or those located in rural areas will be able to access diagnostic-quality MRI images without relying on traditional large scanners. This speeds up diagnosis, improves accessibility, and reduces structural costs.
With this approach, PhysioMRI not only offers portable hardware but also a robust software ecosystem that enables its use in a variety of clinical settings, with control that reinforces diagnostic reliability in ‘in situ’ conditions.

by Editorial Team | May 27, 2025 | Check Health
Check Health combines advanced technology and portability to transform cancer prevention into health.
The Spanish company PhysioMRI, a pioneer in the development of portable magnetic resonance imaging, has presented its new Check Health project, an initiative aimed at revolutionising cancer prevention and monitoring through accessible, non-invasive and low-cost medical imaging technologies.
One of the project’s main strengths is its ability to facilitate early cancer detection in resource-limited settings. Thanks to a portable, affordable and energy-efficient design, the MRI scanner can be deployed in rural health centres, community clinics and hospitals with limited infrastructure. This overcomes geographic and economic barriers that have historically prevented access to advanced diagnostic technologies. By bringing this tool to vulnerable communities, it expands opportunities to identify cancer in its early stages, when the chances of successful treatment are significantly higher.
Another key aspect of the project is its focus on non-invasive, high-precision diagnostics. Check Health incorporates artificial intelligence and advanced image processing techniques to deliver high-quality diagnostic results at a fraction of the cost of conventional MRI scans. This allows for more accurate detection of abnormalities without the need for invasive procedures, reducing risks to the patient and optimising care times. This combination of accessibility and accuracy makes Check Health a powerful tool for improving the quality of cancer diagnostics in settings where such resources have not traditionally been available.
Other objectives of the company with its new MRI are: to contribute to the sustainability of the global healthcare system by reducing the operational costs associated with traditional MRI, thus facilitating its use in different clinical settings; to strengthen the global response to cancer by increasing the chances of early detection in rural areas or areas with limited medical infrastructure, thus helping to save lives and improve the well-being of patients.
Check Health‘s value proposition is based on three key pillars: accessibility, personalisation and prevention. Using low magnetic field technology with artificial intelligence algorithms for image reconstruction and automated analysis, the system enables fast, safe and repeatable scans in any environment, from primary care centres to mobile clinics.
With Check Health, PhysioMRI reaffirms its vision of democratising MRI and extending its impact beyond hospital diagnosis. By putting the power of medical imaging at the service of prevention, the company marks a decisive step towards a more proactive, accessible and people-centred healthcare model.
