Portable Coagulation Analyzer

Description

Introducing the Portable Coagulation Analyzer, an excellent diagnostic tool for determining anticoagulant therapy. This user-friendly instrument is designed to provide accurate and reliable results by measuring INR, PT, APTT, FIB and TT values from capillary whole blood, non-anticoagulant or anticoagulant whole blood. This portable device is easy to use and highly effective in detecting anticoagulant treatments. With its compact design, the Portable Coagulation Analyzer is perfect for medical professionals who require mobility and ease of use. Ensure the accuracy of anticoagulant therapy with this outstanding diagnostic tool - the Portable Coagulation Analyzer!

The analyzer is capable of delivering results within a time frame of 2-5 minutes. Its versatile nature allows it to be utilized in both medical treatment and self-detection scenarios. Its application can be witnessed in ambulances, emergency centers, and medical care points. Specifically, patients in need of monitoring heparin, warfarin, and other anticoagulant drugs can benefit from its usage. The test strip consists of multiple reaction zones, each equipped with a pair of electrodes. These metal electrodes enable the analyzer to administer a constant voltage. Once the sample mixes with the reagent in the reaction zone, a series of biochemical reactions are initiated, leading to coagulation. This detection technique utilizes the electrochemical method, which measures changes in conductivity or current associated with blood coagulation formation. By analyzing the fluctuations in current, one can gauge the speed at which blood coagulates.

Features 

Electrochemical method and advanced microfluidic technology are two cutting-edge technologies that have made significant strides in recent years. These technologies have revolutionized various fields, including healthcare, environmental monitoring, and energy storage.
Advanced microfluidic technology refers to the manipulation and control of small amounts of fluids (typically in the microliter or nanoliter range) within miniaturized systems. This technology enables precise control over fluid flow, mixing, and reaction processes, allowing for highly efficient and specific chemical reactions. It has found applications in various fields, such as point-of-care diagnostics, drug delivery systems, and DNA analysis. The miniaturization and integration of complex fluidic systems have significantly reduced the cost, time, and resources required for experiments and analysis.
On the other hand, electrochemical methods involve the use of electrical energy to trigger or monitor chemical reactions. This technology has gained immense popularity due to its high sensitivity, selectivity, and low power consumption. Electrochemical methods are extensively used in areas such as sensors, batteries, fuel cells, and corrosion protection. They enable real-time monitoring of chemical reactions, measurement of electrochemical properties, and generation or storage of electrical energy. Moreover, they offer the advantage of being compatible with microfluidic systems, allowing for the integration of the two technologies in various applications.
The combination of advanced microfluidic technology and electrochemical methods has opened up new possibilities in the fields of diagnostics, drug discovery, and environmental analysis. The integration of these two technologies allows for the development of portable, miniaturized, and highly sensitive systems that can perform complex chemical and biological analyses rapidly and accurately. This has significant implications for healthcare, where point-of-care devices can provide quick and reliable diagnoses, leading to improved patient outcomes. In the environmental sector, the combination of microfluidics and electrochemical methods can aid in the detection and monitoring of pollutants, ensuring water and air quality.
In conclusion, advanced microfluidic technology and electrochemical methods are highly advanced technologies that have the potential to revolutionize various industries. Their integration offers numerous advantages, such as improved efficiency, portability, and sensitivity. As research and development continue to progress in these areas, we can expect to see further advancements and widespread applications of these technologies in the future.

The Compact Coagulation Analyzer is a portable device that can be used at the bedside, in a home setting, or even outdoors. It is designed to be compact and easy to transport, making it an excellent choice for those who need quick and accurate testing results on the go. Regardless of the location, this analyzer provides reliable and accurate results, ensuring that patients receive the care they need when and where they need it. Its versatility and portability make it an indispensable tool for healthcare professionals and patients alike.

Get accurate results equivalent to laboratory quality, available in just 2 minutes.

-Supports three types of the test sample

-With the built-in barcode scanner

The automatic strip quality control checks are integrated into the system to guarantee high-quality output every time.

The test strip is a plug-in disposable device that requires no calibration.

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