The ArKang AKTE-EA100 is a revolutionary handheld electrolyte analyzer that brings laboratory-quality electrolyte testing directly to the point of need. Designed for simplicity, speed, and accuracy, this compact device is ideal for monitoring critically ill patients in emergency rooms, ICUs, dialysis wards, operating theaters, and beyond. Using disposable cartridges with integrated barcode tracking, the AKTE-EA100 electrolyte analyzer eliminates complex calibration and sample handling, allowing healthcare providers to obtain reliable electrolyte results in just minutes. Its portable design and intuitive operation make it an indispensable tool for fast-paced clinical environments where timely decisions save lives.
Key Features of the AKTE-EA100 Handheld Electrolyte Analyzer
Portable & Point-of-Care Design: This handheld electrolyte analyzer is lightweight, compact, and battery-operated, enabling true bedside or field testing without the need for a central laboratory.
Simple Three-Step Operation: The user-friendly electrolyte analyzer requires only three steps: scan the cartridge barcode, fill the sample to the mark, and insert into the analyzer—results are displayed automatically.
Disposable Cartridge Technology: Each test uses a single-use cartridge with pre-packaged reagents, ensuring no cross-contamination, minimal maintenance, and consistent accuracy with this hygienic electrolyte analyzer.
Wide Clinical Application: Specifically designed for emergency, anesthesiology, nephrology, ICU, dermatology, surgery, and gastroenterology settings, this versatile electrolyte analyzer supports electrolyte monitoring in poisoning, dialysis, trauma, burns, diarrhea, vomiting, and surgical cases.
Fast & Actionable Results: Delivers critical electrolyte levels in minutes, supporting clinical decisions for critically ill, anesthetized, dialyzed, or surgical patients with this rapid-response electrolyte analyzer.
Barcode-Integrated Workflow: Cartridge barcodes are scanned automatically, linking patient information and ensuring traceability and quality control with this smart electrolyte analyzer.
Technical Specifications Table for the AKTE-EA100 Electrolyte Analyzer
| Feature | Specification |
|---|---|
| Model | AKTE-EA100 |
| Brand | ArKang |
| Design | Handheld, Portable |
| Operation | 3-step process: Scan → Fill → Insert |
| Cartridge System | Disposable single-use cartridges with barcode |
| Sample Type | Whole blood, serum, plasma (as per cartridge specification) |
| Primary Applications | Emergency, Anesthesiology, Nephrology (dialysis), ICU, Dermatology (burns/trauma), Surgery, Gastroenterology |
| Clinical Use Cases | Poisoning, coma, convulsions, surgical monitoring, dialysis, critical care, burns, diarrhea, vomiting |
| Connectivity | Barcode scanning for sample/cartridge ID |
| Display | Integrated digital screen for results |
| Power | Rechargeable battery |
| Portability | Handheld, lightweight, for bedside & mobile use |
Why Choose the AKTE-EA100 Electrolyte Analyzer?
The AKTE-EA100 transforms electrolyte testing from a lab-bound procedure into an immediate, point-of-care diagnostic action. Its cartridge-based design removes the need for liquid reagents, daily calibration, and complex maintenance—making it accessible to nurses, anesthetists, emergency responders, and clinicians alike. By providing real-time electrolyte data where it matters most, this handheld electrolyte analyzer enhances patient safety, streamlines clinical workflows, and supports better outcomes in critical care, perioperative monitoring, and chronic disease management.
Ideal Applications:
Emergency Departments – for rapid assessment of poisoning, coma, or convulsions
Operating Rooms & Anesthesiology – for intraoperative and postoperative electrolyte monitoring
Dialysis Centers & Nephrology Wards – for pre- and post-dialysis electrolyte checks
Intensive Care Units (ICU) – for continuous monitoring of critically ill patients
Burn & Trauma Units – for electrolyte management in severe skin injuries
General Practice & Field Medicine – for primary electrolyte screening in resource-limited settings