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ES TECK COMPLEX SYSTEM

ES Teck complex system Features

The ES Teck Complex system is a combination of 2 biosensor technologies with 5 features and signal processing analysis managed by software.

Bio impedance biosensor features:

1. The Bio Impedance in Bipolar Mode sensor (EIS sensor) feature evaluates the segmental conductivity of the human body with low frequencies via 6 tactile electrodes. The signal processing analysis of the measurement provides estimated parameters related to living tissue mitochondrial ATP production and morphology of the extracellular space.

2. The Bio Impedance in Tetra polar Mode (BIA sensor) feature evaluates the resistance and the reactance of the human body using a mono frequency (50KHz) via 4 tactile electrodes, to estimate body composition parameters (TWB, Fat Free mass, fat mass) according to predictive equations as commonly seen in peer reviews.

 

Spectrophotometry biosensor features:

• The Pulse Oximeter (SpO2 sensor) displays SpO2%, pulse rate value and vertical bar graph pulse amplitude.

• The Photoelectrical Plethysmograph (PP sensor)’ feature is the signal processing analysis of the pulse waveform provided by the oximeter. The mathematical analyses provide indicators to estimate the cardiovascular function (Cardiac output, Stroke volume, Systemic vascular Resistance).

• The Heart Rate Variability (HRV sensor) feature, both in the time domain (statistical methods) and in the frequency domain (spectral analysis). Each QRS complex is detected and the so-called normal-to-normal (NN) or Rate-to-Rate (RR) intervals between adjacent QRS complexes are the result of sinus node depolarization. The signal processing analysis of the measurement provides indicators to estimate the ANS (Autonomic Nervous System) activity.

The goal of the combination of device is to estimate the homeostasis (internal medium and the mains regulatory mechanisms of the human body).

Indications or Intended use

In order to estimate the homeostasis process (internal environment and regulatory mechanisms) the ES Teck Complex provides estimation and Historical Tracking of the following intended uses:

1. To display Spo2 %

2. To analyze the basic rhythms of the NN or RR intervals in heart rate variability (HRV), both in the time domain and in the frequency domain (short time 5 minutes). It provides mathematical analyses of the input of the sinus node depolarization and ANS activity indicators.

3. To analyze the pulse waveform by photoelectric plethysmography (PP), the second derivative of the photoelectric plethysmography and Pulse rate (short time 5 minutes). It provides a mathematical analyses of the input of the SpO2% measurement and hemodynamic indicators.

4. To analyze the Galvanic skin responses (EIS) .It provides mathematical analysis of the bio impedance measurement and living tissue conditions .

5. Estimated body composition parameters (BIA).

The BIA is intended for use on subject over 7 years old.
The EIS will be used for children (over 5 years old ) and adult patients.
The HRV and PP will be used only for adult patients (over 17 years old).

 

 

 

How it works

Twenty-two (22) measurements of bio electromagnetic impedance are taken in a variety of locations of the body in the interstitial liquid. This interstitial liquid is located outside the membrane of the cell and is not influenced by different chemical buffers.

Bioimpedance or electrical scanning of the body was established scientifically in the 1940s. It is now used in major medical centres and research facilities for lean mass fat mass ratio analysis, in T-scan tomography, biofeedback, and in thoracic impedance analysis. Low voltage direct current (D.C.) is known to pass through only interstitial fluid in the body. This system is a biosensor that analyzes the interstitial fluid locally in vivo by application of a D.C. current between cutaneous zones using electrodes, as stated herein above.

In use, the System introduces electric signals of low intensity (1.28V D.C.) through the human body via 6 electrodes. This is painless and has no negative effects to the patient. The scanned results are recorded by the Systems software which subsequently analyzes and interprets the test results; and, then, produces a variety of informative models, graphs, and text data for interpretation by a medical practitioner.

The System gives a comprehensive overview of the reactions of the body. Many different 3-D models of the full body and various different parts of the body are created, based on the electro interstitial gram (EIG), also known as a scangram. The models are color coded to indicate where areas of imbalance are hyper-functioning or hypofunctioning.

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Before reaching the marketplace, this medical biosensor tool was calibrated using clinical study tests from individuals and subsequent tests from patients with a wide-variety of pathologies. Some of the testing facilities included:

• Botkin Hospital - studies validated algorithms for cardiovascular, respiratory, digestive, endocrine, and neurological pathologies.
• Beijing University Hospital - tests validated algorithms in oncology screening and therapeutic monitoring.
• Gustave Roussy and St Louis Hospitals, Paris - tests were performed to validate algorithms for oncological monitoring in patients aged between 16 months and 4 years, and andrology.
• Harvard Medical School – Bipolar, ADHD, unipolar, depression tests.

 

This system is now in use in more than 25 countries, approximately 6,000 tests are made every day, and doctors, hospitals, and practitioners that use the device daily have always given very favorable feedback. This device is ISO 9001 approved and has European regulatory approval CE 0459. Approvals have also issued in Israel, Korea, China, and Canada. This patented medical measuring technology has no competitor.

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