Product Name	Automatic biochemistry analyzer
Catalog No.	PS-0089
Description	The automatic biochemistry analyzer is an instrument used to quickly and accurately detect and analyze chemical components in biological samples and is widely used in medical, scientific research and laboratories.
Application	This product is used to detect biochemical indicators in blood and other biological samples.
Operating Temperature	Operate at 4-30°C.
Transportation Condition	Transportation at room temperature.

In the modern landscape of medical diagnostics and scientific research, the demand for rapid, accurate, and efficient analysis of biological samples has become increasingly critical. Healthcare providers, clinical laboratories, and research institutions rely heavily on advanced instruments to detect biochemical indicators in biological samples—such as blood, plasma, serum, and urine—to support disease diagnosis, treatment monitoring, and health evaluation. The automatic biochemistry analyzer emerges as a core tool in this ecosystem, addressing the limitations of traditional manual testing methods, which are time-consuming, labor-intensive, and prone to human error.

Evolution of Diagnostic Technology: Over the past few decades, diagnostic instruments have evolved from semi-automatic systems (requiring manual sample handling and reagent preparation) to fully automated solutions. This shift has been driven by the need to handle growing sample volumes—especially in large hospitals and centralized laboratories—while maintaining high accuracy. Automatic biochemistry analyzers, like the PS-0089, represent this evolution by integrating sample processing, reagent management, reaction monitoring, and result analysis into a single, streamlined workflow.
Critical Role in Multidisciplinary Fields:
In clinical medicine, the analyzer is used to detect key biochemical indicators (e.g., glucose, cholesterol, electrolytes, liver enzymes) that help diagnose conditions such as diabetes, cardiovascular diseases, liver/kidney disorders, and metabolic syndromes. For example, timely detection of abnormal electrolyte levels (sodium, potassium) can be life-saving in emergency care scenarios.
In scientific research, it supports studies on cellular metabolism, drug development, and disease mechanisms by enabling precise measurement of chemical components in biological samples. Research teams investigating microbial strains or mammalian cell lines often use such analyzers to monitor nutrient levels (e.g., lactate, glutamine) and byproduct accumulation in cell cultures.
In public health laboratories, it aids in large-scale screening programs (e.g., population-wide diabetes or lipid disorder screening) by processing hundreds of samples per day, ensuring timely identification of at-risk individuals.
Market Demand for Versatile, Reliable Instruments: Today’s laboratories—whether small clinics, large hospitals, or academic research centers—seek instruments that balance performance with practicality. Factors like compact design (to save lab space), easy operation (to reduce training time for staff), and compatibility with multiple sample types are key considerations. The PS-0089 is engineered to meet these demands, offering a versatile solution that integrates seamlessly into diverse lab environments while adhering to international quality and calibration standards to ensure result traceability.

Wide Sample Compatibility: Designed to analyze multiple types of biological samples, including blood, plasma, serum, and urine. This eliminates the need for separate instruments for different sample types, simplifying lab workflows and reducing equipment costs.
Stable Operating Performance: Operates reliably within a temperature range of 4-30°C, making it suitable for use in various lab environments—from air-conditioned clinical labs to moderately controlled research facilities. It also supports room-temperature transportation, ensuring the instrument remains functional and undamaged during delivery.
User-Friendly Workflow Integration: Features intuitive operation logic that aligns with standard lab protocols. It minimizes manual intervention by automating key steps (e.g., sample aspiration, reagent dispensing), reducing the risk of human error and allowing lab staff to focus on other critical tasks.
Flexible Testing Capabilities: Supports multiple testing methodologies commonly used in biochemical analysis, such as end-point assay, kinetic assay, and two-point assay. This flexibility enables the analyzer to detect a broad range of biochemical indicators, adapting to the diverse needs of clinical diagnostics and research projects.
Efficient Reaction Management: Incorporates a dedicated reaction system that maintains optimal conditions for biochemical reactions (e.g., consistent temperature control for enzyme-based tests). This ensures accurate and reproducible results, even when processing multiple samples consecutively.
Comprehensive Data Management: Equips basic data storage and export functions, allowing labs to record test results (e.g., patient IDs, sample types, indicator values) and export data for further analysis or integration with lab information systems (LIS). This enhances traceability and simplifies compliance with regulatory requirements.

High Accuracy and Reliability: Reduces the risk of result errors compared to manual testing. By automating sample handling and reaction monitoring, it minimizes variations caused by human factors (e.g., inconsistent pipetting) and ensures results are traceable to standard reference methods—critical for clinical diagnosis and research validity.
Time and Labor Efficiency: Accelerates sample processing compared to traditional manual methods. It can handle multiple samples in a single run, reducing the time required to generate results (e.g., supporting rapid diagnosis in emergency care) and cutting down on the labor needed for repetitive tasks like reagent preparation and sample transfer.
Cost-Effective Operation: Lowers long-term operational costs for labs. Its compatibility with a wide range of samples and testing methods eliminates the need to invest in multiple specialized instruments. Additionally, features like optimized reagent usage (to reduce waste) and minimal manual maintenance help control ongoing expenses.
Space-Saving Design: Adopts a compact footprint that fits easily into small to medium-sized labs. Unlike larger, modular analyzers that require dedicated space, the PS-0089 can be placed on standard lab benches, making it ideal for clinics, research labs, or satellite testing facilities with limited space.
Broad Application Adaptability: Meets the needs of both clinical and research users. Whether used to detect routine clinical indicators (e.g., blood glucose, liver function markers) or support specialized research (e.g., metabolic studies in cell cultures), it provides consistent performance across different use cases.
Enhanced Safety: Reduces exposure to biohazardous materials. By automating sample handling and processing, it minimizes direct contact between lab staff and biological samples (e.g., blood), lowering the risk of contamination or infection—a key priority in healthcare and research settings.

The market for biological sample analysis instruments includes a range of products that complement the automatic biochemistry analyzer, catering to the diverse needs of clinical diagnostics, scientific research, and laboratory testing. Related products in the same field include semi-automatic biochemistry analyzers (suitable for small labs with lower sample volumes), fully automated electrolyte analyzers (specialized for detecting ions like sodium, potassium, and calcium in biological samples), and automatic urine analysis systems (designed for rapid screening of urine components to support kidney function assessment and urinary tract infection diagnosis). Additionally, there are high-throughput automated analyzers (optimized for large-scale labs processing hundreds of samples per hour) and specialized protein analyzers (used to measure specific proteins in biological samples for research on immune disorders or cancer biomarkers). These products share the goal of improving testing efficiency and accuracy, and they often integrate with the automatic biochemistry analyzer to form a comprehensive lab testing workflow. If you are interested in related products, you can directly contact us or inquire about product customization services.

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