Clinicians need clearer imaging to improve patient outcomes, but disconnected technologies often create workflow friction. At DMHC 2025, we presented solutions that address these challenges directly.
At DMHC 2025, we introduced flagship medical displays, highlighting our commitment to advancing medical imaging with enhanced clarity, precision, and a workflow-driven design that meets the demands of modern digital healthcare.
From August 22–24, 2025, our team participated in the Digital Medicine & Health Conference (DMHC 2025)1 in Nanjing. The event provided an invaluable platform to present our latest innovations in medical-grade displays2 and engage directly with the healthcare community. Over three days, we held deep-dive conversations with surgeons, radiologists, biomedical engineers, and hospital IT leaders about imaging fidelity and operational sustainability. A consistent theme emerged: image quality must travel hand-in-hand with interoperability and day-2 operations. We demonstrated how purpose-built displays reduce glare in bright ORs, keep grayscale accuracy within DICOM tolerances over time, and offer one-click layouts that place multiple sources in view without constant window juggling. These scenario-based demos—OR procedures, PACS reading, and multi-site collaboration—showed a practical path from “better pixels” to “fewer steps,” reinforcing our mission to convert complex imaging workflows into predictable, repeatable outcomes.
Product Highlights: Innovation on Display
Display technology often fails to keep pace with the needs of modern operating rooms and radiology departments. Generic screens lack the precision and durability required for clinical use.
During the exhibition, we showcased our latest lineup, emphasizing tailored solutions for surgical, diagnostic, and clinical review environments. These innovations drew significant attention and reinforced our role as a trusted partner.
At our booth, we featured a focused set of flagship models—A430S, A240ST, and MS322PB—to anchor three clinical scenes: surgical visualization, multimodality review, and everyday clinical reading. Rather than cataloging specifications, we highlighted what matters at the point of care: stable luminance3 for consistent perception, anti-reflection optics for high-light environments, and multi-source layouts (PIP/PBP/3-split/4-split) that raise information density without adding clicks. For OR teams, live demos showed a single screen combining endoscopic video with vitals/ultrasound in parallel to improve situational awareness. For radiology, we emphasized DICOM-calibrated grayscale4 with ambient-light compensation and long-term brightness stabilization, illustrating why monitors are diagnostic instruments—not just displays. The takeaway was simple and concrete: fewer hand movements and fewer toggles, with more clinically relevant detail in view.
Engagement at the Conference: Dialogue and Collaboration
Siloed development often leads to products that don’t fit real-world clinical needs. Without direct feedback from users, technology can fail to solve the right problems effectively.
Our booth became a hub for discussions on medical display technology. The open dialogue with clinicians, IT professionals, and partners provided valuable feedback on performance, reliability, and interoperability.
Conversations quickly turned into practical checklists. Surgeons asked for anti-glare performance5 under surgical lights and split-screen presets they could invoke with one press during critical moments. Radiologists focused on GSDF tracking, grayscale visibility in dense tissue, and how auto-calibration keeps perceptual consistency within tight DICOM Part 14 tolerances across years of use. Biomedical engineers pressed on maintainability—remote QA dashboards, drift alerts, and documentation that fits hospital QC policy. IT leaders explored PACS interoperability6, auditability, and identity-aware access so that images render the same way, for the right person, every time. We left with prioritized requests that map directly to product and software roadmaps, ensuring what we ship aligns with the realities of the reading room, the OR, and the network.
Looking Ahead: Commitment to Healthcare Innovation
The digital transformation of healthcare is accelerating, but technology adoption can be a challenge. Hospitals need partners who understand their long-term goals and can deliver reliable, future-proof solutions.
Our participation at DMHC underscored our vision to support this transformation. By aligning our technology with hospital needs, we deliver displays that meet the highest standards of accuracy, consistency, and usability.
We frame innovation around four durable pillars:
(1) Perceptual accuracy—DICOM-compliant grayscale with brightness stabilization and ambient-light compensation to preserve “today = tomorrow” image appearance;
(2) Presentation ergonomics—low-reflection optics and motion handling that keep teams aligned, even at oblique angles and under strong lighting;
(3) Workflow density—multi-signal layouts and quick presets that compress steps during procedures and reviews; and
(4) Operational resilience—calibration, QA visibility, and cleanable, sealed fronts that stand up to clinical use. By building on these pillars, our diagnostic and surgical lines form a consistent platform that scales from single rooms to regional networks—without re-training clinicians at every handoff.
Actions & Future Directions
A successful event is one that inspires concrete action. The feedback and insights gathered at a conference must be translated into a clear and focused development plan for the future.
Following DMHC 2025, we have identified three key directions: expanding our surgical display portfolio, enhancing diagnostic monitor intelligence, and strengthening partnerships to explore AI and remote collaboration solutions.
- Surgical visualization at higher brightness and density. We will broaden large-screen and cart-mounted options with pre-tuned split-screen presets (endoscopy + vitals + prior), low-latency processing, and robust signal paths—so teams can run multiple 4K sources without friction.
- Smarter, quieter QC for diagnostics. We’re advancing auto-calibration, luminance stabilization, and ambient sensing into a “set-and-trust” loop, paired with remote QA views for clinical engineering—reducing manual checks while keeping displays inside diagnostic tolerances.
- Interoperability & collaboration partnerships. We’ll deepen work with PACS and imaging ecosystem partners to ensure standards-first deployment, and explore AI-assisted review and remote consult tooling that preserves audit trails and consistent rendering across sites.
Conclusion
Our successful presence at DMHC 2025 demonstrated our commitment to advancing medical imaging, and we look forward to shaping the future of digital healthcare through continued innovation and collaboration.
👉 If you’d like a post-DMHC 2025 follow-up, a demo, or tailored recommendations, contact Martin at martin@reshinmonitors.com — we’re excited to continue the conversation.
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Exploring insights from DMHC 2025 can enhance your understanding of the latest trends in digital medicine and health. ↩
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Discovering the advantages of medical-grade displays can help improve imaging quality and operational efficiency in healthcare settings. ↩
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Understanding stable luminance is crucial for ensuring consistent perception in clinical settings, enhancing diagnostic accuracy. ↩
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Exploring DICOM-calibrated grayscale will reveal its significance in medical imaging, ensuring precise and reliable diagnostics. ↩
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Understanding anti-glare performance can enhance surgical precision and patient safety, making it crucial for medical professionals. ↩
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Exploring PACS interoperability can improve image sharing and collaboration in healthcare, leading to better patient outcomes. ↩
