In March 2025, the world’s first dynamic ecosystem demonstration center for high-end medical equipment—the China Innovation and High-Quality Development Exchange Center for High-End Medical Equipment—will officially open in Changping, Beijing. This landmark project marks a strategic leap for China’s medical device industry, shifting its focus from “product display” to “ecosystem collaboration.” As an industrial hub that integrates core functions such as scenario-based product demonstrations, hands-on training, and international matchmaking, the center features 1:1 clinical-scenario replication and end-to-end innovation services. It seamlessly connects Changping’s “Life Valley” cluster advantages with global demand for medical innovation, thereby establishing a brand-new platform for the R&D translation, showcasing, and promotion of high-end medical devices.

In such an exhibition space that focuses on “dynamic interaction” and “professional depth,” How can we make sophisticated interventional device technologies intuitively perceptible? How can we ensure that clinical value and technological advantages resonate powerfully with one another? The answer lies in the professional articulation of details. A simulated vascular model is undoubtedly a key element in exhibition hall design, highlighting professional expertise and enhancing the overall display effect. It provides an intuitive simulation of the human vascular environment, enabling visitors to gain a clearer understanding of how interventional devices function and perform in real-world clinical settings, thereby significantly enhancing the persuasiveness and professionalism of the exhibit. By establishing a simulated procedure area within the exhibition hall, equipped with realistic vascular models and interventional instruments, visitors can, under the guidance of trained professionals, personally experience the step-by-step workflow of an interventional procedure, gaining firsthand tactile feedback and performance insights into the devices. This immersive, interactive experience allows visitors to develop a deeper understanding of the products while strengthening their trust in and appreciation for the brand. Meanwhile, the combined solution of Derui Medical’s simulation models and its patented intelligent blood-flow platform is elevating this kind of professional presentation to new heights, making it a “technology highlight generator” for the ecosystem demonstration center.

DeWei Medical has been deeply engaged in the medical simulation field for many years. Its core solution—the simulated vascular model paired with a patented intelligent blood-flow platform—leverages multidimensional technological innovation to enhance the immersive experience of interventional device visualization. Evolving from “static observation” to “dynamic immersion” This system is modeled based on real clinical vascular data and utilizes a proprietary, patented soft silicone material to precisely control the elastic modulus of the vessel wall (1.2–8.5 MPa), achieving a high degree of realism in both vascular anatomy and mechanical properties. It provides a near-clinical foundational environment for the demonstration and testing of interventional devices. In the scenario at the Changping Ecological Demonstration Center, it Five Core Functional Modules Reimagining the user experience logic for interventional devices:

Real-time hemodynamic simulation is the technical core of this system.

Equipped with a built-in dual-heart pulsatile pump and an intelligent fluid-control system, the platform can accurately replicate blood flow velocity, pressure, and pulse frequency under various physiological states of the human body. Visitors can directly observe how interventional devices achieve precise positioning, navigate through vascular pathways, and perform therapeutic procedures within “flowing blood.” This dynamic simulation makes abstract performance metrics such as “device navigability” and “procedural stability” tangible and comprehensible. In a collaborative demonstration case between WanSi Medical and Philips, the system vividly showcased the entire workflow of cardiovascular intervention, serving as a pivotal presentation tool that helped forge mutual agreement and collaboration.

Philips DSA Interventional Suite + Panvascular Interventional Robot + Intelligent Blood Flow Simulation Platform

Dynamic mapping of pathological features enhances the realism of disease treatment scenarios.

The system features a modular design that enables rapid switching among common lesion models, such as vascular stenosis, aneurysms, and thrombi, while dynamically adjusting blood flow conditions to accurately replicate the challenges of treatment under various pathological scenarios. In the hands-on demonstration area, visitors can personally experience how a microguidewire navigates through a stenotic vessel and how a aspiration catheter removes a thrombus. This “direct engagement with the lesion” is far more impactful than textual descriptions and provides direct validation of the devices’ clinical suitability.

Multimodal imaging integration demonstrations further enhance the depth of professional presentations.

The system seamlessly integrates with imaging equipment to deliver real-time image visualization throughout the interventional procedure, perfectly replicating the entire clinical workflow of “image guidance—instrumentation—treatment outcome assessment.” This presentation approach, which aligns with the logic of clinical diagnosis and treatment, not only satisfies the in-depth technical curiosity of professional audiences but also helps non-specialist visitors grasp the precision and complexity of interventional therapy, thereby striking a balance between “technical depth” and “broad outreach.”

The real-time data feedback system lends quantitative persuasiveness to the presentation.

During simulated procedures, the platform can simultaneously capture key metrics such as device delivery force, vascular wall stress, and hemodynamic changes, and present them in real time via a visual interface. As visitors operate different interventional devices, the resulting data differences intuitively highlight each product’s performance advantages. This dual validation—combining hands-on operational experience with data-driven evidence—enhances the scientific rigor and credibility of demonstrating product competitiveness, while providing an objective platform for comparative demonstrations against competing products.

The personalized interactive teaching module, in turn, enhances the practical value of the display space.

DeWei Medical rejects “standardized templates,” instead leveraging end-to-end customization capabilities to meet diverse needs. Tailored to the specific requirements of different audiences, the system can be customized to cover everything from basic anatomical understanding to complex surgical procedure simulations. Personalized Experience Plan For clinicians, the system can be configured to simulate high-difficulty lesion-management procedures; for R&D personnel, it can provide realistic scenarios for evaluating device performance; and for international buyers, it enables rapid demonstrations of how the product can meet a wide range of clinical needs. Beijing Tiantan Hospital has previously leveraged a similar system to conduct nursing training on vascular interventional robots, significantly enhancing the efficiency of hands-on training—an advantage that also holds tremendous value in the Eco-Center’s international training and exchange programs.

Customized lesion types: It can simulate five major clinical specialties—coronary heart disease, stroke, peripheral vascular disease, and others—and more than 30 types of typical lesions, while supporting personalized modeling of complex, mixed lesions (e.g., stenosis combined with calcification) and rare conditions (e.g., vascular malformations).

Posture simulation customization: It provides a variety of procedural positioning models, including femoral and radial arterial access, and can even accommodate specially designed angles tailored to the characteristics of the device (e.g., a 45° angulation at the renal artery ostium).

Brand Visual Integration: Incorporate corporate VI elements into details such as model stands and vascular signage, and integrate brand logo displays to enhance visual consistency across the exhibition environment.

Notably, the value of this solution extends far beyond mere exhibition displays, establishing end-to-end capabilities that span “display, R&D, and validation.” In the early R&D phase, companies can leverage its standardized platform to optimize core algorithms and validate operational workflows, thereby shortening the development cycle. During exhibition presentations, its immersive experience reinforces the brand’s professional image, while in competitive benchmarking scenarios, objective simulation data and real-time operational feedback further highlight the product’s unique differentiating advantages. Just as the Changping Ecological Center has built a full-chain innovation ecosystem, Dewei Medical’s technological solutions have likewise evolved from “product demonstration tools” to “innovation-supporting infrastructure.”

With the Changping Dynamic Medical Equipment Ecosystem Center now operating on a regular, sustained basis, such cutting-edge demonstration technologies will serve as a vital bridge connecting innovation with the market and technology with clinical practice. As “blood” begins to flow through simulated vascular models, as the tactile feedback of interventional devices is accurately replicated, and as abstract medical technologies are transformed into tangible clinical value, the story of innovation in China’s high-end medical device sector gains a more vivid and compelling voice. Amid this wave of industrial upgrading, detail-driven innovations—led by simulation technology—are quietly reshaping the pathways and exhibition paradigms for medical-device innovation, injecting a steady stream of specialized momentum into Changping’s mission to become a global hub for medical-equipment innovation.

Conclusion: When “Presentation” Becomes the Front Line of Technological Implementation

The development of an interventional device exhibition hall is a systematic undertaking that requires meticulous planning and execution across multiple dimensions, including positioning, design, and user experience. A high-quality simulated vascular model can infuse the exhibition hall with professionalism and dynamism, serving as a key factor in attracting visitors and enhancing the overall presentation.

Today, as “technological homogenization” intensifies in the interventional device industry, Leveraging its simulated vascular models as a strategic fulcrum, DeWei Medical has unlocked a “second growth curve” for the value of its exhibition space: it serves not only as a “showcase” for products, but also as a “translator” of technology, an “incubator” for immersive experiences, and a “catalyst” for collaboration.

From the cross-border collaboration between Wanshi Medical and Philips to the technology debut by the Kaile Group, an increasing number of industry leaders are choosing to reinvent their brand narratives through “perceptible technology.”

Looking ahead, Dewei Medical will continue to deepen its expertise in independently developed silicone materials and 3D-printed simulation technologies, ensuring that every exhibition hall serves as the “frontline” of medical innovation. Dewei Medical looks forward to collaborating with more medical-device manufacturers to co-create impactful interventional-device exhibition spaces, thereby driving innovation and advancement in medical technology.