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Comparison Easy Touch GC vs Accu-Chek Mobile

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Easy Touch GC
Accu-Chek Mobile
Easy Touch GCAccu-Chek Mobile
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Typeelectrochemicalphotometric
Measuring duration
6 с /150 sec for cholesterol measurement/
5 с
Memory capacity
200 measurements /50 pcs for cholesterol measurement/
2000 measurements
Measurements
Measurements
glucose
cholesterol
glucose
 
Additional modes
test
test
Averaging
in a week
in 14 days
in a month
 
in a week
in 14 days
in a month
per quarter
Specs
Measurement range
1.1 – 33.3 mmol/l /2.6 – 10.4 mmol/L for cholesterol measurement/
1.1 - 33.3 mmol/l
Sample volume
0.8 µl /15 µl for cholesterol measurement/
0.3 µl
Hematocrit30 – 55 %
Encodingcodeless
Blood samplecapillarycapillary
Features
 
date and time
 
 
 
 
auto switch-off
food note
date and time
alarm clock
synchronization with PC
backlight
alert
auto switch-off
In box
Test strips
12 pcs /2 pcs for cholesterol, 10 pcs for glucose/
50 pcs /test cassette for 50 tests/
Test strip modelAccu-Chek Mobile
Lancets25 pcs
12 pcs /2 drums x 6 lancets/
Lancet device
Cover/case
General
Calibrationplasmaplasma
Displaymonochromecolour
Power source2xAAA2xAAA
Dimensions88x64x22 mm121x63x20 mm
Weight59 g129 g
Added to E-Catalogfebruary 2017february 2017

Type

The type determines the general operating principle of the blood glucose monitor. There are photometric, electrochemical, biosensory ones.

— Photometric. Blood glucode monitors employing color changes in test strips analyze blood composition. These devices assess the color of a test strip with applied blood, compare it to a stored standard, and deduce information about blood composition, particularly glucose levels. This technology, considered outdated, is now rare due to its limited accuracy and the fragility of its optical systems, requiring careful handling.

— Electrochemical. Devices of this type use test strips with reagents that, when reacting with glucose, produce an electric power; The strength of this power determines the blood sugar level. Such devices are quite simple and reliable, at the same time very accurate. The vast majority of modern glucometers operate on the electrochemical principle.

— Biosensory. The term "biosensory" encompasses various operational principles, depending on the blood glucose monitor model. Some devices improve the electrochemical method by incorporating amperometry and coulometry (measuring electric charge). Others use specific technologies like surface plasma resonance. Certain blood glucose monitors of this kind feature a sensor constantly on the skin, drawing blood through a needle immersed in the...body, allowing measurement by holding the device to the sensor. Ongoing developments include biosensor technologies that eliminate the need for blood sampling, enabling blood sugar determination through analyzing saliva, sweat, and other biological fluids. There's potential for such technologies to be introduced in the near future.

Measuring duration

The measurement time of a blood glucose monitor is the duration from inserting a test strip with a blood sample into the device to receiving the result. While a shorter measurement duration theoretically enhances convenience by reducing the time spent on measurements, most modern blood glucose monitors complete this process in under 20 seconds, causing minimal inconvenience. Therefore, seeking the fastest model may not be particularly meaningful in practical terms.

Memory capacity

The maximum number of test results that a blood glucose monitor can store at once is crucial for monitoring changes in blood composition. The built-in memory of blood glucose monitors is highly convenient, automatically saving data without requiring extra steps from the user. Additionally, many devices can enhance measurement results with supplementary information, including date, time, and food markers.

Knowing the frequency of measurements and the amount of memory, you can determine how long this memory will last before overflowing. For example, if the device is designed for 500 results, and measurements are taken 4 times a day, then measurements can be stored in the built-in memory for 500/4 — 125 days, that is, about 4 months.

Measurements

Blood parameters that the blood glucose monitor can measure.

Glucose. Measuring blood glucose levels. It is this measurement that is colloquially called "measurement of sugar levels." There are other types of sugars in the blood, but it is the level of glucose that is the key physiological parameter. This function is the main one for glucometers and is supported by all models by definition.

Cholesterol. Measuring blood cholesterol levels is crucial because cholesterol and its derivatives play a significant role in metabolism. Elevated levels of "bad" (low molecular weight) cholesterol pose a risk of atherosclerotic disorders, including plaque deposition in vessels, reduced lumen, and an increased likelihood of heart attack or stroke. This measurement is especially important in the context of diabetes, as it often coincides with increased blood cholesterol levels.

Ketones. The capability to measure blood ketone levels is crucial, especially in conditions of insulin deficiency, as ketones can lead to deterioration of well-being when glucose levels are high. Even a slight increase in ketones can cause symptoms like irritability, nausea, vomiting, abdominal pain, and tachycardia. At critical levels, it can lead to ketoacidosis, a severe and life-threatening condition. Notably, ketone levels are not directly correlated...with blood sugar levels—they can be elevated with both high and low glucose. For diabetics, monitoring ketone levels is essential in certain situations. While the traditional method involves urine analysis using special test strips, modern blood glucose monitors can now measure ketone levels simultaneously with glucose levels, eliminating the need for separate measurements.

Averaging

Options for averaging results provided in the blood glucose monitors.

Averaging is the derivation of the average measurement result (primarily the average glucose level) over a certain period. The need for such calculations is due to the fact that with individual measurements, the indicators are affected by momentary factors, while the general trend must be determined by average numbers. In modern blood glucose monitors, averaging can be provided for different periods — from 1 day to a quarter.

Measurement range

Measuring range provided by the blood glucose monitor. It is indicated by the level of glucose in the blood that the device is able to detect — from the minimum to the maximum.

Most blood glucose monitors have a measurement range with a safety margin to cover relevant human values. The lower limit is typically no higher than 1.6 mmol/L, corresponding to severe hypoglycemia requiring immediate medical attention. Similarly, the upper limit in most models is around 27 mmol/L or higher, exceeding critically high values. In practical terms, a patient is more likely to fall into a coma than to surpass the blood glucose monitor's measuring range.

Sample volume

The minimum amount of blood required for testing. The average volume of a drop of blood released when pricked with a lancet is 1 µl; that is, if the sample volume is larger, a little more blood will need to be squeezed out.

Note that in fact, the volume can be taken with a margin — most blood glucose monitors work normally even with more blood than necessary. But too little material leads to serious inaccuracies in the readings, so this parameter should not be neglected.

Hematocrit

The hematocrit values for which the device is designed.

Hematocrit reflects the overall red blood cell count in the blood, influencing blood viscosity and electrochemical properties. Glucometers are calibrated for specific hematocrit ranges. When these limits are surpassed, inaccuracies arise — low hematocrit levels can lead to device overestimation, while high levels can result in underestimation.

Modern blood glucose monitors typically have a hematocrit range of 30 – 50%, which effectively encompasses normal adult blood viscosity values (36 – 48%). Issues may only arise in cases of significant deviations from the norm. Some devices offer an even broader operating range.

Encoding

The encoding method provided in the device.

Encoding involves configuring the device for a specific set of test strips. This is necessary because test strips of the same type in different packages may contain different reagents. To ensure precise results, the device must be adjusted to a particular batch of strips, although there are exceptions — details below.

Codeless. Codeless blood glucose monitors are the most convenient and cost-effective option. However, they are less accurate because they don't account for the specific features of the test strips in their design, potentially introducing some error in measurement results. Despite this, the margin of error is often negligible, making them suitable for certain user categories, especially the elderly who may appreciate the simplicity of use without unnecessary settings.

Chip. Encoding using a replaceable chip. Such a chip is supplied with each package of test strips and is installed in the metre before using the package. Changing the chip is much easier and more convenient than entering the code manually (see "Code"), this option is quite popular in modern blood glucose monitors.

Automatic. Automatic encoding, requiring no additional user actions, involves applying a code to each test strip. The device reads this code during use, automatically adjus...ting to the specific characteristics of the strip. This option is both convenient and accurate, but the consumables for such devices can be relatively costly. — Code. Manual encoding requires users to enter the code from a new pack of test strips into the monitor before use. While cost-effective and fairly accurate, this method can be inconvenient for some users, especially the elderly. Given the availability of more advanced and user-friendly encoding technologies, devices with manual code entry are uncommon.

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