EHBT-75

The EHBT-75 is a next-generation hematology and morphology analyzer combining CBC counting with AI-powered cell imaging. Delivering ~75 samples/hour, the system integrates Swissoptic high-resolution optics, sub-micron precision mechanics, and an AI algorithm trained on 40M+ samples. It automatically classifies red cell abnormalities, white cell subsets, and platelet morphologies, while offering expansion into urine and feces formed elements analysis. With its global deployment (50,000 units installed) and WAIC-recognized AI, the EHBT-75 provides a powerful, accurate, and scalable hematology solution for hospitals, diagnostic centers, and research institutions worldwide.

System Concept

EHBT-75 is an AI-powered hematology and cell morphology analyzer that goes beyond traditional CBC.
Integrates artificial intelligence, high-resolution optics, and automated imaging for accurate blood cell classification.
Designed to enhance diagnostic precision in routine hematology while enabling detailed morphology analysis.

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Core Features & Specifications
Principle: AI-enhanced digital morphology + traditional CBC methods.
Microscopy + impedance + flow cytometry + AI cell morphology.
Optics: Swissoptic® customized lens, 4M resolution, 50 fps imaging.
Repeatability/Precision: Positioning accuracy <1 μm.
AI Algorithms:
Based on 40M sample training set.
WAIC-recognized deep learning model for blood cell morphology.
Parameters: CBC + extended morphology flags (schistocytes, echinocytes, teardrop cells, NRBC, RET, etc.).
Sample Types: Whole blood (primary), with modules extending to urine and feces formed element analysis.
Throughput: ~75 samples/hour (based on naming convention and product class).
Connectivity: LIS/HIS integration; cloud-ready with IoT data transfer.
Advantages
AI-powered accuracy: morphology interpretation supported by WAIC-recognized algorithms.
Comprehensive reporting: CBC + morphology, platelet aggregates, NRBC, abnormal lymphocytes.
Optical precision: Swiss-made optics ensure sharp imaging for reliable AI classification.
Automation: reduces manual microscopy burden, improving lab efficiency.
High clinical relevance: supports red cell shape classification (schistocytes, target cells, teardrops, etc.), WBC differentiation, platelet morphology.
Versatile testing: expansions into urine and feces formed elements.
Applications
Hospitals and diagnostic labs needing advanced CBC with morphology.
Hematology departments for anemia, leukemia, or platelet disorder studies.
Oncology and transplant centers monitoring abnormal/immature blood cells.
Primary care networks benefiting from cloud connectivity and AI-driven remote consultation.
Research labs leveraging digital morphology datasets for training and validation.