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Portable Blood Electrolyte Analyzer
Maintenance-free: No fluid pipe inside the device, no reagent pack required
- Easy to use: Convenient bedside testing with whole blood
- Fast, Lab-quality results: Provides accurate results in approximately 5 minutes, auto-calibration before each test
- Portable: Size: 240 × 120 × 110 mm Weight: 1.5 ± 0.2 kg (including battery)
Product Brochure:DOWNLOAD
- Video
- Introduction
- Parameter
Video
Introduction
Parameter
- Potassium (K+ ): Even small changes in extracellular K+ concentration will have significant effects on the transmem
brane potential gradient, and thereby the function of neuromuscular and cardiac tissues.
- Sodium (Na+): As the most abundant extracellular fluid solute, Na+ is the major determinant of its osmolality and
thereby the principal determinant of water distribution between the intracellular and extracellular compartments.
This highlights the role of Na+ in the maintenance of blood volume and thereby blood pressure.
- Chloride (Cl- ): As the second most abundant extracellular fluid ion after Na+, and the most abundant extracellular
fluid anion, Cl– is essential for the maintenance of normal plasma osmolarity.
- Ionized Calcium (iCa2+): The maintenance of iCa2+ within normal limits is not only important for the structural
integrity of bones but for a range of physiological functions, including: hemostasis, cardiac and skeletal muscle cell
contraction, neuromuscular transmission and action of many hormones (calcium-signaling).
- Ionized magnesium (iMg2+): iMg2+ relates to the stabilization of intracellular potassium, which ensures the normal
functionality of myocardium, nerve and muscle.
Accuray Comparison
The accuracy of Eaglenos Electrolyte Analyzer has been validated by comparing with the wet chemistry blood gas biochemical analyzer(using 136 sets of samples). The linear regression analysis shows a strong positive, linear relationship between the results of the two analyzers (R2 > 0.94 for all parameters), demon strating the accuracy of our analyzer for testing K+, Na+ ,Cl-,iCa2+ and iMg2+ concentration.
- Potassium (K+ ): Even small changes in extracellular K+ concentration will have significant effects on the transmem
brane potential gradient, and thereby the function of neuromuscular and cardiac tissues.
- Sodium (Na+): As the most abundant extracellular fluid solute, Na+ is the major determinant of its osmolality and
thereby the principal determinant of water distribution between the intracellular and extracellular compartments.
This highlights the role of Na+ in the maintenance of blood volume and thereby blood pressure.
- Chloride (Cl- ): As the second most abundant extracellular fluid ion after Na+, and the most abundant extracellular
fluid anion, Cl– is essential for the maintenance of normal plasma osmolarity.
- Ionized Calcium (iCa2+): The maintenance of iCa2+ within normal limits is not only important for the structural
integrity of bones but for a range of physiological functions, including: hemostasis, cardiac and skeletal muscle cell
contraction, neuromuscular transmission and action of many hormones (calcium-signaling).
- Ionized magnesium (iMg2+): iMg2+ relates to the stabilization of intracellular potassium, which ensures the normal
functionality of myocardium, nerve and muscle.
Accuray Comparison
The accuracy of Eaglenos Electrolyte Analyzer has been validated by comparing with the wet chemistry blood gas biochemical analyzer(using 136 sets of samples). The linear regression analysis shows a strong positive, linear relationship between the results of the two analyzers (R2 > 0.94 for all parameters), demon strating the accuracy of our analyzer for testing K+, Na+ ,Cl-,iCa2+ and iMg2+ concentration.
Parameter
|
Parameter
|
Accuracy
|
Precision
|
Stability
|
Test Range (mmol/L)
|
|
K+
|
±3.0%
|
≤1.5%
|
≤2.0%
|
1.0-15.0
|
|
Na+
|
±3.0%
|
≤1.5%
|
≤2.0%
|
100-200
|
|
Cl-
|
±3.0%
|
≤1.5%
|
≤2.0%
|
65-160
|
|
Ca2+
|
±5.0%or+0.05 mmol/L
|
≤1.5%
|
≤3.0%
|
0.25-4.00
|
|
iMg2+
|
±5.0%or±0.05 mmol/L
|
≤3.0%
|
≤3.0%
|
0.2-1.5
|
