ES-Teck is an analytical system in which standard values ​​are established for how each organ electrochemically functions optimally.Organs are divided into organ systems and present in different ways.

ES-Teck provides physiological data to allow comparative follow-up to objectively evaluate interventions.Of course, subjective evaluations and additional up-to-date information should be supplemented.

Analyze information

• How homeopathic dynamics work.The body is well balanced, if it is able to partially respond and partially regulate internal and external responses back to balance/equilibrium, which is required for optimal functioning.

• How circulation and oxygenation work;This is an important factor in nutrient transport, detoxification and caloric regulation, among others.Without enough blood and oxygen, cells cannot function properly.

• If localized inflammation is present and the body works hard to try to heal it or not (chronic inflammation).Elevated levels of inflammation are a major health risk.For example, inflammatory processes can reduce the supply of oxygen to the brain and can lead to depression.

• Metabolism, that is, general metabolism.If the level of activity is too high, a lot of energy is used up and the risk of burnout increases in the long term.

• Cardiovascular System.Cross-analysis of HRV and pulse oximetry provides a picture of the cardiovascular system.

• Neurocutaneous area.Indications for physical treatments, such as chiropractic care.

• Lifestyle analysis shows how an individual is affected by their current lifestyle.

• Sports evaluation.Testing before and after training indicates whether the training/exercise method is beneficial or harmful to the person involved.

• Summarize and identify the cause of the problem, such as stress or lifestyle.

Added value that arises during analysis

• pH value

• Signaling substances – Stress hormones – Dopamine – Serotonin – GABA

• cholesterol

• diabetes screening

• Thyroid function

• Free radicals – oxidative stress

• Current status of certain minerals

• Mitochondrial Activity - Describes how a cell's energy metabolism works

• basal metabolism - basal metabolism

• Nutritional recommendations to support abnormal function

As long as relevant basic medical training and health-building expertise are available, the above values ​​can help develop a health plan.

A brief description of the technology used

oximeter

Even if you haven't experienced this kind of measurement in a hospital yourself, you've no doubt seen many times on television and in movies that patients wear an oximeter, a gray probe/clamp device on one of their index fingers. The rope extends from it.

The oximeter provides the following data:

• Blood oxygen saturation, SpO2

• heart rate/pulse

• Arterial pulse curve - blood flow into the body

The technology has long been used in hospitals.With two different light frequencies, infrared light orred light, which measures two different types of hemoglobin;Things that are saturated with oxygen and things that are unsaturated.Additionally, the calculated heart rate/pulse is displayed as well as the mathematically calculated pulse wave curve, pulse plethysmography, i.e.Signal relationship to blood flow/circulation.Pulse plethysmography is a physiological measurement technique studied in biooptical research.

Gunnar Nyberg, Department of Clinical Physiology, Sahlgrenska University Hospital, Gothenburg, predicts that the use of this non-invasive pulse wave analysis will increase, particularly for cardiac drug evaluation and cardiovascular disease epidemiological studies (1).

For details on how ES Teck uses data on this technology and references to research in this area, see "ES Teck PEMS White Paper (1).pdf".

Heart rate variability, HRV

When the interval between heartbeats changestoo big, unnecessary arrhythmias may occur.On the other hand, if the interval shows the differencetoo small, would indicate reduced heart rate variability, which is also undesirable, but on the contrary is a recognized sign of poor health or disease.

HRV can be used as an indirect measure of autonomic function, i.e., heart rate variability reflects the balance between sympathetic and parasympathetic activity in the autonomic nervous system (2).Sympathetic overactivity indicates some form of stress, while parasympathetic overactivity may indicate exhaustion.Sörnmo and Palm suggested that HRV regulates not only cardiac function but also respiration, blood pressure, and body temperature (2).Clinical research on HRV has primarily involved neurological and cardiological applications.

In Sweden, HRV research is mainly conducted at Lund University, such as electrical scientist and professor Leif Sörnmo, associate professor TeknD and professor and clinical physiologist Olle Pahlm.

More information and references on HRV can be found under "ES Teck PEMS White Paper (1).pdf".The HRV parameters used in ES Teck are also described here.

bioimpedance

With the help of bioimpedance waves, body composition, such as the percentage of body fat, can be calculated.There are many different brands on the market that scan body composition with varying degrees of accuracy.In defense of the lower accuracy, it is claimed that the actual changes in body composition between occasions are what is really interesting.DXA (Dual Energy X-ray Absorption) is a well-evaluated device and is considered the gold standard.ES Teck is validated for DXA, see clinical testing below.

Based on the knowledge of conductance properties in living tissue, indications of certain tissue/organ conditions can also be obtained, such as chronic inflammation in the liver.The propagation of bioimpedance waves is related to the shape and density of the interstitium (the liquid space between cells).Furthermore, conductivity is directly proportional to the production of ATP in the cell's mitochondria, the cell's energy producers.

In the file "EIS Technical White Paper.pdf" further information on the research background on bioimpedance, conductance and cell damage in living tissues is provided.

medical informatics

As can be seen from the technical description above, physiological measurement data are often combined with known physiological relationships to produce indirect calculations of additional physiological parameters.Medical informatics constitutes a separate field of study, for example at Linköping University, which incidentally has the nickname "Health University".The purpose is to “extract and communicate clinically relevant information” (3).

Bioinformatics is an interdisciplinary subject in which algorithms are used to analyze biological data, which is particularly common in molecular biology.In computer science and mathematics, an algorithm is a finite set of well-defined instructions for solving a task that deterministically leads to a final result from given starting conditions (4).

Es Teck uses a variety of algorithms based on peer reviews.At ES Teck, medical informatics goes a step further and applies cross-analysis procedures to ensure results.

clinical testing

Correlation between EIS spectroscopy and DXA measurements of body fat: r =.92, p < 0.001.

Correlation between EIS spectral analysis and HRV variables: r =.76, p < 0.001.

These tests have shown good reliability in estimating body composition and sympathetic nervous system activity.

Testing was performed at the Department of Psychiatry and Behavioral Sciences and the Department of Medicine, University of Miami Miller School of Medicine, Miami, Miami, USA (5).

Clinical studies on certain disorders and ADHD are described below:www.ldteck.com

Medical approval

The system is validated in pharmaceutical studies and has the following approvals/certificates:

• Kema is ISO 13485:2003 certified

Apply ES Teck Complex Systems

ES Teck was developed by physician and neuroscientist Albert Maarek in collaboration with mathematicians and statisticians to monitor drugs and disease processes in healthcare.

Clinical studies have been conducted in the medical field.However, the use of ES Teck for preventive health interventions has not been studied.Assuming that users have the ability to combine health-building knowledge with sufficient medical knowledge, there may be great application potential in the health field.

reference

1. Modern circulatory diagnostics – the pulse is respected again.Gunnar Nyberg,
Associate Professor, Department of Clinical Physiology, SU/S, Sahlgrenska University Hospital, Gothenburg.Blood Pressure 2007, Volume 23 (Issue 2)

2. Special methods for electrocardiogram.Leif Solmer, Ole Palm.student literature,
ISBN 91-4400615-2。

Measurement information

During actual measurement, it will be displayed as shown above.In addition to this, you can also see blood oxygen saturation and pulse.

After taking the measurements, you will get the picture above, which, in summary, indicates the following:

• blood oxygen saturation

• elasticity of various blood vessels

• resistance of various blood vessels

• HP

• How much blood does the heart pump per minute?

• left ventricular function

• mean arterial pressure

Detailed description:

• SpO2%: Hemoglobin oxygen saturation, expressed as a percentage, corresponding to arterial oxygen partial pressure.SpO2% may be reduced due to: anemia (ischemia), hypothyroidism, staying at high altitudes, increased carbon dioxide, toxic tissue hypoxia (cells cannot use oxygen), increased oxygen binding to hemoglobin (it is not easily released and unavailable), sleep apnea (stopping breathing), or excess lactic acid.

• AI – Augmentation Index: Indicates carotid artery stiffness and possibly elevated cholesterol.

• EEI – Ejection Elasticity Index: Relates to the elasticity of the heart’s left ventricle pumping blood and the large arteries.

• DDI – Dicrotic Dilatation Index: Related to the elasticity of smaller arterial vessels.

• DEI – Dicrotic Elasticity Index: Related to the elasticity of peripheral blood vessels.

• Etc. – Estimated cardiac ejection time: The estimated time it takes for the heart to pump blood, related to the function of the heart’s left ventricle.

• PH - Pulse height: An indicator directly proportional to the blood pressure when the left ventricle of the heart pumps blood.

• SDPTG Aging Index: Mathematical calculation of aging index.

• Q – Cardiac Output: Indicates the amount of blood pumped from the heart, specifically the amount of blood pumped from one ventricle in one minute.

• CI – Cardiac Index: is a vasodynamic parameter used to set cardiac output in relation to body surface area (BSA).

• SV – Stroke Volume: Indicates how much blood is pumped from one chamber of the heart during each heartbeat.

• BV – Blood volume: Blood volume is the amount of blood in the entire circulatory system (red blood cells and plasma).

• EF - Ejection Fraction: is the proportion of blood pumped out of one chamber of the heart during each heartbeat.

• SVR – Systemic Vascular Resistance: Indicates the peripheral resistance to blood flow from the heart.Peripheral resistance must be overcome to pump blood into the circulatory system.

• MAP – stands for arterial pressure: the average pressure in the aorta over the pulse cycle, measured by pulse wave analysis.