An electrolyte analyzer is an important machine in the laboratory that measures the concentration of electrolytes such as sodium, potassium, chloride, calcium, magnesium, bicarbonate, and phosphate in the patient's blood and urine.
It is used to monitor the treatment of conditions such as high blood pressure, heart failure, and liver and kidney disease by providing timely and accurate results. This way, you can easily make informed decisions about patient care that are crucial for the diagnosis and treatment of various medical conditions.
Exploring the key features of an electrolyte analyzer that help you make the best diagnosis:
High-Speed Analysis:
You can measure the level of electrolytes in a patient's blood in less than a minute with the help of an electrolyte test machine, as it provides fast results, thereby reducing the waiting time for test results. This feature is important for high-demand environments where quick diagnosis is essential.
Operation type:
Generally, electrolyte analyzers come in two variants based on operation modes: one is semi-automatic and another is fully automatic.
Our recommendation, If you are looking for efficient measurement of electrolyte levels without manual intervention and human error, you should consider an automated electrolyte machine. You can go with the original CBS-400 electrolyte analyzer, fully automatic.
Otherwise, if you want to buy a less expensive electrolyte machine for a small clinic, you should consider a semi-automatic machine. You can go with the Sensa Core ST-200 Aqua Electrolyte Analyzer.
Thermal printer:
The thermal printer prints instant result documents, which is useful for emergency cases and statistical tests. Some electrolyte machines come with internal thermal printers, such as the ERBA EasyLyte Electrolyte Analyzer.
Throughput:
The throughput in any electrolyte analyzer is the sampling frequency, or how fast it processes a sample.
For example, if an electrolyte analyzer has a throughput of 60 tests/hr, it means it can perform a total of 60 tests in an hour. Or you can test a total of 60 patients in an hour.
Our recommendation, you consider your lab’s workload. If your lab manages a high number of electrolyte tests. You should choose an electrolyte analyzer with high throughput for fast processing of samples, like the Jokoh EX-D Electrolyte Analyzer with Auto Sampler. This model can perform a total of 300 tests in an hour.
If your lab manages a low number of electrolyte tests. You should choose an electrolyte analyzer with low throughput. You can go with the Roche 9180 Electrolyte Analyzer. This model can perform a total of 60 tests in an hour.
Screen Interface:
Some models of electrolyte machines come with a touchscreen interface and some keyboards.
Our recommendation, if you are looking for a real-time display of testing status and reviewing test results. You should consider a touchscreen interface. You can go with the Cornley AFT-800 Electrolyte Analyzer. This model has a 7" colorful TFT touchscreen and an interactive menu.
Wide-ranging parameters:
Electrolyte machines measure a wide range of electrolyte parameters, including sodium, potassium, chloride, and calcium. But all machines have a set parameter, which you can choose according to your requirements.
Our recommendation, if you want to buy for maximum parameters, then you can go with the AFT-800 Electrolyte Analyzer. This model is designed for accurate and rapid tests on ion concentration of Li+, K+, Na+, Cl-, Ca2+, pH value, and total carbon dioxide content in serum samples.
If you want to buy for specific parameters such as Na, K, and Cl, you can go with the Arkray SPOTCHEM EL SE-1520 Electrolyte Analyzer.
Battery:
If you are looking for an electrolyte machine for remote areas and emergencies, you should consider the machine has batteries that help you with portable usage. Also, ensure that the device stays powered on during power cuts.
Our recommendation, you can go with the Seamaty SG1 Blood Gas & Electrolyte Analyzer. This model comes with 3.7V, 5000mAh batteries.
Buy the best electrolyte analyzer from a hospital store in India:
If you are looking for the best electrolyte machine for your lab, then you don't need to search anywhere else. Here is the best option for you. At Hospital Shop, we offer the most reliable quality electrolyte analyzers at the best price compared to other sellers. So you can visit our online marketplace and buy them according to your needs.
Electrolyte analyzer price depends on a wide range of factors, such as features that affect the workflow of the machine and brand. The electrolyte machine price starts at ₹ 80,000 to ₹ 4 lakh.
For your information, we have mentioned a price list below:
S.NO. | Electrolyte machine | Price |
1 | ERBA EasyLyte Electrolyte Analyzer | ₹ 169,000 |
2 | Roche 9180 Electrolyte Analyzer | ₹ 274,000 |
3 | Sensacore ST-200 Aqua Electrolyte Analyzer | ₹ 101,500 |
4 | Accurex Enlite Automated Electrolyte Analyzer | ₹ 140,007 |
Top brands available for electrolyte analyzers:
ERBA:
Erba is a global company providing a wide range of products for clinical chemistry and electrolyte analysis that are renowned for their reliability, accuracy, and advanced features, ensuring continuous innovation and global trust in their products.
Roche:
Roche is a global leader in pharmaceuticals and diagnostics, known for its innovative solutions in healthcare. They focus on advancing science to improve people's lives through revolutionary medical products and services.
SensaCore Brand:
This brand is known for innovative diagnostic devices, providing reliable and high-quality medical equipment. They specialize in point-of-care testing solutions, ensuring accuracy and efficiency in various healthcare settings.
Accurex Brand:
It is a leading brand known for its high-quality medical equipment and offers reliable and innovative solutions for healthcare professionals. Their products are designed to meet rigorous standards to ensure accuracy and efficiency in various medical applications.
Points to keep in mind before buying an electrolyte machine:
- You should consider semi-automatic and automatic operation modes as per your needs and look for an analyzer with high accuracy and precision to ensure reliable results.
- Ensure the analyzer can measure the electrolytes you require, such as sodium, potassium, chloride, calcium, and bicarbonate.
- Choose a model with an intuitive interface, touchscreen, and straightforward operation to minimize user errors and training time.
- Look for features like data storage, retrieval, and connectivity options (e.g., network integration and electronic medical record compatibility).
Understanding the Working Principles of Electrolyte Analyzers:
Electrolyte machines use a variety of technologies to measure electrolytes, including:
Ion-selective electrode (ISE):
ISE is an inexpensive and easy-to-operate analytical technique that measures the electrical potential of ions in an aqueous solution to determine their activity.
Flame emission photometry (FEP):
Flame emission photometry (FEP) is a traditional technique that uses a gas flame to measure sodium, potassium, and lithium concentrations in serum and is less commonly used than the ISE technique.
Applications of Electrolyte Analyser in Clinical and Laboratory Settings:
Detecting Metabolic Imbalances: This is useful in identifying metabolic imbalances such as acidosis and alkalosis.
Heart Conditions: The electrolyte machine is specifically used to monitor sodium and potassium levels, helping physicians assess and manage heart conditions and ensuring proper heart function.
Kidney Disorders: This is important to assess kidney function and balance electrolytes and helps detect conditions such as hyperkalemia or hyponatremia, which are prevalent in patients with chronic kidney disease.
Improving Patient Care: It provides quick and accurate data on the patient's electrolyte status, allowing for better decision-making and improved treatment.
Sports Medicine and Hydration: The electrolyte machine is useful for sports and athletic settings to monitor hydration and electrolyte levels, ensuring that athletes maintain optimal performance and avoid dehydration-related complications.
What is an electrolyte test?
An electrolyte test measures the levels of electrolytes in the blood or urine. Certain conditions, including dehydration, heart disease, and kidney disease, can cause electrolyte levels to be too high or too low, making diagnosis easier.
Exploring the Benefits of Using an Electrolyte Analyzer:
Accurate and Reliable Results:
An electrolyte test machine helps you make informed decisions about patient care by providing electrolyte measurements that are important for diagnosing and treating various medical conditions.
Easy of Use:
Modern electrolyte analyser are designed to be user-friendly, with intuitive interfaces and automated processes. This reduces the chance of human error and ensures consistent results.
Battery and Compact Design:
Some models come with a compact design and battery. A portable electrolyte analyzer helps you to use it anywhere and anytime. For example, you can use it in remote areas.
Supports Patient Monitoring:
An electrolyte analyser is essential for the continuous monitoring of patients with conditions like kidney disease, heart problems, and dehydration.
Rapid Results:
You can save lives in emergencies with quick results in minutes. This speed increases workflow efficiency in clinical settings, allowing you to respond immediately to patients' needs.
Common electrolytes measured by these analyzers include:
- Sodium (Na+)
- Potassium (K+)
- Chloride (Cl-)
- Calcium (Ca2+)
- Magnesium (Mg2+)
- Bicarbonate (HCO3-)
- Phosphate (PO4-)
FAQ:
Q1. Are electrolyte analyzers easy to operate?
Ans. Yes, most electrolyte analyzers have user-friendly interfaces, often including touchscreens and intuitive software, reducing the likelihood of errors.
Q2. Where can electrolyte analyzers be used?
Ans. Electrolyte analyzers are commonly used in hospitals, outpatient clinics, emergency departments, and research facilities, making them versatile tools in a variety of healthcare settings.
Q3. What are the differences between automatic and semi-automatic electrolyte analyzers?
Ans. Automated electrolyte analyzers perform all testing procedures with minimal user intervention, providing quick results. Semi-automated analyzers require a few manual steps, such as sample preparation or data entry, making them more flexible and often less expensive.
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