| Product Name | Differential automated blood analyzer |
| Catalog No. | PB-00128 |
| Description | Differential automated blood analyzer is an advanced laboratory device for fully automated analysis of different components in blood samples. This device accurately measures and classifies the number and type of blood cells, such as red blood cells, white blood cells, and platelets, for automated assessment through the morphology and other physicochemical properties of blood cells. |
| Weight | 24.3 kg |
| Size | 340 × 465 × 425 mm |
| Application | This device can be used to accurately measure and categorize the number and type of blood cells, such as red blood cells, white blood cells and platelets. |
| Operating Temperature | Operate at 4-30°C. |
| Transportation Condition | Transportation at room temperature. |
| Technology | WBC: Impedance method; RBC, PLT: Sheath flow impedance method; HGB: Colorimetric method. |
| Data Storage | 50,000 Complete sample results with histograms. |
The differential automated blood analyzer, also known as automated hematology differential analyzer or digital blood cell differential analyzer, is a pivotal innovation in modern clinical laboratory technology. Its development stems from the growing demand for efficient, accurate, and standardized blood cell analysis in healthcare settings.
In the early days of clinical diagnostics, blood cell counting and classification relied heavily on manual microscopy—a process that was not only time-consuming but also highly dependent on the skill and experience of laboratory technicians. This manual approach often led to inconsistencies in results, delayed diagnosis, and limited capacity to handle large volumes of samples, especially in busy hospitals and diagnostic centers.
As medical science advanced and the need for precise hematological data increased (for example, in monitoring chronic diseases like anemia, detecting infections through white blood cell variations, and assessing coagulation function via platelets), the industry began to seek automated solutions. The differential automated blood analyzer emerged as a response to these challenges.
Over the years, this device has undergone significant technological upgrades. Early automated models could only perform basic cell counting, but modern versions—such as the PB-00128 from Alta DiagnoTech—integrate multiple advanced technologies (including impedance, sheath flow, and colorimetry) to not only count red blood cells, white blood cells, and platelets but also classify white blood cell subtypes (e.g., neutrophils, lymphocytes, monocytes) and generate detailed histograms. These histograms provide valuable insights into cell size distribution, which is crucial for identifying abnormalities that may indicate underlying health conditions.
Today, the differential automated blood analyzer is an indispensable tool in various healthcare environments, from small clinics to large tertiary hospitals, as well as in research laboratories focused on hematology, immunology, and infectious diseases. It plays a key role in enabling early disease detection, guiding treatment decisions, and ensuring the efficiency of laboratory operations—ultimately contributing to improved patient care outcomes.
Comprehensive Analysis: Reports a wide range of parameters, including a 5-part differential count, providing detailed insights into the patient’s blood profile.
High Precision: Ensures accurate results with low coefficients of variation (CV) for parameters like WBC, RBC, HGB, and PLT.
User-Friendly Interface: Equipped with a large LCD touch screen for easy operation and data management.
Fast Results: Capable of processing up to 60 samples per hour, delivering results in a timely manner.
Automatic Cleaning: Features automatic maintenance and cleaning of the liquid system, reducing manual intervention and potential errors.
One of the most notable advantages of this differential automated blood analyzer is its exceptional accuracy. By leveraging specialized technologies like sheath flow impedance for RBC and PLT analysis, it minimizes interference from cell clumping or debris in blood samples—an issue that often plagues manual methods or less advanced analyzers. This accuracy ensures that clinicians receive trustworthy data to make critical diagnostic and treatment decisions, reducing the likelihood of misdiagnosis or improper care.
Another key advantage is its operational efficiency. Unlike manual microscopy, which can take 15-20 minutes per sample, this automated device processes samples much faster, enabling laboratories to handle high sample volumes without compromising on quality. This efficiency is a game-changer for busy healthcare facilities, where quick access to blood test results can mean the difference between timely intervention and delayed patient care.
Additionally, the analyzer’s user-friendly design adds significant value. Its intuitive interface requires minimal training for laboratory staff to operate, reducing the learning curve and potential operational errors. The high-capacity data storage feature also streamlines record-keeping, as staff can easily search and retrieve past results without sifting through physical files—saving time and improving overall laboratory organization.
Finally, the device’s durability and adaptability contribute to its long-term cost-effectiveness. It can withstand the demands of daily use in clinical settings, and its wide operating temperature range means it doesn’t require expensive environmental controls. This reduces maintenance and operational costs over time, making it a cost-efficient investment for laboratories of all sizes.
For in vitro diagnostic use.
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