Testing items
Physical Properties
- Conductivity and osmolality are measured using electrochemical methods.
- Color and turbidity can be manually input or automatically acquired through integrated systems.
Dry Chemistry
- Utilizes the colorimetric analysis method.
- Chemical reagents on test strips react with urine components, producing color changes.
- These changes are measured photometrically to determine the concentration of specific analytes.
Morphology
- Uses automated morphological microscopy enhanced by artificial intelligence and machine vision.
- Capable of identifying, classifying, and counting all urinary formed elements.
- Red blood cell morphology is analyzed using phase contrast techniques, generating scatter plots and curve analyses to support clinical diagnosis.
Extended Functions
The same analysis techniques can be adapted for other bodily fluids, including:
- Pleural fluid
- Peritoneal fluid
- Cerebrospinal fluid
- Gastric fluid
- And others
Detection Principle
Formed Elements Analysis
- Employs artificial intelligence (AI) and machine vision technology to automatically identify, classify, and count urinary formed elements.
- Utilizes automated morphological microscopy to enhance precision in detecting cellular structures and microscopic components.
- Provides high accuracy in urinary sediment analysis, improving diagnostic reliability.
Dry Chemistry Detection
- Detects chemical components in urine using colorimetric analysis for precise measurement.
- Applies optical photometry to quantify analytes based on their color intensity and concentration.
- Supports early detection of urinary tract infections, metabolic disorders, and other renal conditions.
Product feature detail diagram
Product Features
Instant Staining
Conveyor-Line Operation: Implements a continuous staining workflow, where specimens are stained immediately upon arrival, eliminating idle time and boosting overall work efficiency.
Time-Saving & Streamlined: This approach reduces bottlenecks and ensures a steady throughput, ideal for high-volume laboratories or clinical settings.
Integrated Automation: Often paired with automated slide transport and exit systems, it minimizes manual handling and supports standardized, high-quality staining results.
Fast and Convenient
Streamlined Operation: Designed for simple, intuitive use, allowing operators to perform tasks with minimal training or manual intervention.
Rapid Staining Process: Delivers quick and consistent staining, significantly reducing turnaround time and enhancing lab productivity.
Automatic Slide Exit: Once staining is complete, slides are automatically ejected, eliminating the need for frequent opening and closing of the instrument compartment, which improves workflow efficiency and reduces contamination risk. This setup is ideal for high-throughput environments where speed, consistency, and ease of use are essential.
Standardized and Precise
Standardized & Regulated Staining Process: Each staining step is precisely controlled and fully standardized, minimizing technician-dependent variability and ensuring consistent, high-quality results across all specimens.
Automation Enhances Reproducibility: By eliminating subjective manual steps, the system delivers uniform staining intensity and clarity, which is critical for accurate interpretation and diagnosis.
Quality Assurance: This approach aligns with best practices in clinical diagnostics, supporting reliable and reproducible outcomes in high-throughput laboratory environments.
Intelligent and Efficient
One-Button Operation: Initiates the entire workflow—slide transport, staining, and cleaning—with a single command, streamlining the process and minimizing user input.
Automatic Slide Transport:Â Seamlessly moves slides through each stage of the staining cycle, reducing handling time and potential for error.
Automated Staining & Cleaning: Ensures consistent staining quality and maintains system hygiene through automated cleaning protocols, reducing contamination risks and maintenance demands.
Enhanced Efficiency: This integrated automation significantly improves work efficiency and reduces manual labor, making it ideal for high-throughput laboratories.
Clear and Reliable
Precise Staining Control: The system finely regulates staining time and reagent volume, ensuring even coloration across the slide and enhancing cell morphology clarity.
Consistent & Reliable Results: By eliminating variability in manual staining, it delivers uniform and reproducible outcomes, which are critical for accurate microscopic observation.
Enhanced Diagnostic Confidence: Clear visualization of cellular structures supports faster interpretation and more confident clinical decisions.
Safe and Clean
Fully Enclosed Specimen Handling: Ensures that all specimen processing occurs within a sealed environment, minimizing exposure and protecting laboratory personnel from biohazardous materials.
Automatic Waste Liquid Collection: Integrates a closed-loop system that collects waste liquids in real time, directing them to a centralized disposal unit for safe and compliant handling.
Contamination & Pollution Prevention: This design significantly reduces the risk of staff contamination and environmental pollution, aligning with biosafety and sustainability standards.
