INTERNATIONAL SOCIETY FOR ELECTROMAGNETIC SMOG RESEARCH IGEF CERTIFICATES ANALYSIS for evaluation of the PXD Biopyramid properties with regard to harmonization of the biological influence of electromagnetic emission and bio-geological fields with harmful influence on the human body in an anonymous research Instructing Party: PXD System Leninova 79/1 1000 Skopje Macedonia Date:22.03.2007 Analysis object: PXD Biopyramid
The company’s registered office is in Birmingham, Great Britain. It is registered in the Trade Register for England and Wells under no. 5521855 IGEF Certificates: Apartado 96, E-38370 La Matanza, Tenerife, Spain; N.I.E.H-6128987 Manager: Wulf Ditrix Rose -Tel. 0034-922 57 36 37; facsimile 0034-92257 3637 web site information and contact: www.elektrosmog.com e-mail :
[email protected]
Table of content: 1. Problem posing 2. Research and Analysis of the PXD Biopyramid Protective Influence against biological influence electromagnetic emissions and geo-biological fields with harmful influence on human organism by using methods of the biofeedback process in an anonymous research 2.1 Examinees choice 2.1.1. Separation of the examinees in a main and a control group 2.2 Way of measuring of the fields’ frequency with harmful influence on the human organism 2.2.1 Minutes of the measuring during the influence on the main group examinees 2.2.2 Minutes of the measuring during the influence on the control group examinees 3. Biological measurement by using the biofeedback process 3.1 Explanation of the principles of the biofeedback process 3.1 Measurement apparatus and sensors 3.1.1. EDA sensor 3.1.2. BVP sensor 3.1.3. Temperature sensor 3.2 Choice of measurement procedure 3.3. Basic explanation of the sessions reports graphic 4 Resume of statistic research results 4.1 Table presentation of measurement values of skin penetration 4.1.1 Measurement values of skin penetration from the main group examinees (expressed in μSiemens) 4.1.2 Measurement values of skin penetration from the control group examinees (expressed in μSiemens) 4.1.3 Graphic presentation of the middle value development of skin penetration from the main and control group examinees 4.2 Table of skin temperature measurements values 4.2.1 Skin temperature measurement values of the main group examinees (expressed in ºC) 4.2.2 Skin temperature measurement values of the control group examinees (expressed in ºC) 4.2.3 Graphic presentation of the skin middle temperature of the main and control group examinees 4.3 Table of the heartbeats measurement data 4.3.1 Measurement values of heartbeats from the main group examinees (beats per minute) 4.3.2 Measurement values of heartbeats from the control group examinees (beats per minute) 4.3.3 Graphic presentation of the middle value of heartbeats from the main and control group examinees 4.3.3.1 Heartbeats development for the type of reaction < 80 beats/minute 4.4 Table presentation of the necessary blood quantity measurement data 4.4.1 Measurement values of the necessary blood quantity from the main group 4.4.2 Measurement values of the necessary blood quantity from the control group 4.4.3 Graphic presentation of the development of middle value of the necessary blood quantity at main and control group examinees 4.5 Development of the heartbeats variability 4.5.1 Criteria for the measurement values of heartbeats variability for the main group examinees
4.5.2 Criteria for the measurement values of heartbeats variability for the control group examinees 4.5.3 Graphic presentation of the heartbeats middle length development within the main and control group examinees 4.5.4 Graphic presentation of development of total reaction of the vegetative nervous system within the main and control group examinees 4.5.5 Graphic presentation of the number decrease of consecutive heartbeats pairs, which points out one difference > 50ms 5 Detailed review of the main and control group examinees measurements minutes 5.1 Previous comments 5.2 Comparation of the measurement minutes at main and control group male examinees 5.3 Comparation of the measurement minutes at main and control group female examinees 6 Discussion
Appendix 1: Abbreviations and symbols
1. Problem Posing Modern technology multiple usages are impossible without electrical power and high- frequently electromagnetic emissions. In order electrical power to be produced and divided, many apparatus, electrical power transformation systems, electrical centrals, high and low voltages links, transmission lines, as well as household appliances, have been created. This low-frequent network causes electrical and magnetic fields, thus it has an electromagnetic burden on the environment known as electromagnetic smog. In addition, the electrical appliances, links, and other installations are surrounded by electromagnetic fields and/or emit electromagnetic waves. For the needs of the mobile telephony, radio and television, radars, military technique, data broadcast, transmitters constantly emit electromagnetic waves: high-frequent electromagnetic smog, which we cannot feel. Nowadays, mobile technology electromagnetic fields at one emission of waves are ten to a hundred times more in number than those at radio and television transmissions. In addition, we are at the beginning of a development that has much greater usage in everyday communication. Thus, except mobile phones there are internal antennas, notebooks, and computer networks that transfer the information through transmissions. Almost, in every second household there are wireless telephones, which constantly emit electromagnetic waves, even when they are not used. This electromagnetic emissions, which intensity is in everyday increase above allowed limit, at most people cause nervousness, concentration problems, headaches, insomnia, vitality loss, and lowered physical and mental activity – typical symptoms of electricalstress. The epidemiological studies and experimental researches have come to conclusion that the electromagnetic fields and waves are harmful for human health, even when they are in the frameworks of the allowed limit. Certain influence of the geo-biological fields on the human organism was empirically known even from ancient times. Nowadays researches, point out that joined influence of geological fields with harmful effects and electromagnetic emissions can cause organism weakening. The harmful emission influence on psycho-emotional level has been still examining. It appears as a result of a mutual influence among individuals and their biological fields on a level of energetic informational structures. The strong and permanent psycho-emotional effect of electromagnetic smog in geo-biological zones with harmful influence, lead towards resistant changes development in biological fields structures, which later demonstrate themselves in a form of mental disease. The purpose of the next research is to prove whether and how the PXD Biopyramid can harmonize the influence of electromagnetic emission and geo-biological fields with harmful influence, thus to fulfill the requirements of the International Society for Electromagnetic Smog Research IGEF, in order to be recommended and recognized by the IGEF seal.
2. Research and analysis of the PXD Biopyramid protective influence against electromagnetic emissions and biological influence of the geo-biological fields with harmful influence on human organism by using the methods of the biofeedback process in an anonymous research The purpose of this research, in the framework of one anonymous study by using of the classical technology for biofeedback (biological feedback information), is to measure the feedback information got from the vegetative nervous system signals, surrounded by fields with harmful influence on human organism in homes and offices. These measurements should show the PXD Biopyramid possible protective influence. The biological researches have included only people who live in houses, where the electromagnetic emissions and the geo-biological fields with harmful influence were obvious. The PXD Biopyramid, according to the producer statements, bears physical information, which polarizes the harmful emissions negative potential in houses, thus could not be expected any harmful biological influences on the human organism. Pursuant information programming, harmonization of harmful influences should begin at following fields with harmful influence: • • •
geo-biological fields (underground water flows, tectonic movements) all types of electromagnetic emissions global networks harmful influences (Hartman’s networks))
The radius of PXD Biopyramid influence is 7 meters (circle surface 153m2 ), while the the height influence is 3 meters. The results of the numerous studies have shown that there are harmful influences as a result of the high frequency electromagnetic emission. As a symptom arisen from mobile phones usage, have been noticed increased anxiety, stress, depression, insomnia, chronic tiredness, and memory problems. The immediate results are based on the energetic part with high-frequent electromagnetic waves, which the human body accepts, only thermal effect. For the system maintenance and development, these technical sizes are not of primary importance. The individual influence is subjected to parameters, such as signals’ frequency and pulsing, as well as the distance from the transmitter and exposure duration. The high-frequency fields of weaker intensity than the thermal effects and limit values can affect the organism through their informational components negative potential, i.e. they can cause biological effects. At the same time, the human organism is in a condition, thanks to its dipoles, to react on emitted energy, which presents 20.000th part of the entire mobile telephony emitted energy.
One of this biological influences is obvious, when there are noticed significant psychological changes in the biological system, and which arise from the feedback of the vegetative nervous system. The vegetative nervous system dynamically maintains the internal organism balance, which depends on the present outside and inside influences towards the organism. The examinees’ outside influences decrease by the PXD Biopyramid usage can lead to harmonization of the heartbeats pulsation, thus to improve the heartbeats variability. Namely, the information got from the electromagnetic emission, as well as geo-biological fields with harmful influence, can be received as a rhythmic process of one existing system. The PXD Biopyramid harmonized influence researches, are carried out in a form of an anonymous science study. In addition, the examinees don’t know whether they belong to the main group, where PXD Bippyramid is used, or in the control group, where placebo type of apparatus is used, and which has the same appearance, but it doesn’t have the harmonized effect that the PXD Biopyramid has. Thereby, each PXD Biopyramid conscientious influence is eliminated. 2.1 Examinees Choice The research has included 22 tested people out of more than 30 volunteers, who were chosen according to a previous research of the appropriate influences. The research has also included people from 8 housing buildings from three different regions. The basis for the examinees inclusion in the experiment was the confirmation of the geobiological fields with harmful influence effect and electromagnetic smog influence towards organism. For each place, there is a comparative number of tested people, who are divided to the main and the control group. The minutes of the pre-research and examinees division into the main and control group measurements, shall be described below. In relation to the measurement values comparability in choosing the examinees, the attention is paid to the equal division of sexes and age for the main and control group.
According the previous research results, the main group includes 11 examinees, as well as control group. About half of the chosen examinees live in a place where in a radius of 300 meters there is a transmitter.
As a result of some prior activities, in the abovementioned region, there are strong tectonic movements.
Main Group House 1 tested 1 -man age 50 - 70 tested 2 - women age 50 - 70 tested 3 - women age 50 - 70 House 2 – above tested 6- men age 50 - 70 tested 7 - women age 50 - 70 House 2 – below tested 10 - men age 35 - 50 tested 11 -women age 35 - 50 House 5 tested 14 - men age 35 - 50 tested 15 - men age 35 - 50 House 6 tested 18 - men age 50 - 70 tested 19 - women age50-70
Control Group House 3 tested 4- men age 50 - 70 tested 5 - women age 50 - 70 House 4 – above tested 8 - men age 50 - 70 tested 9 - women age 50 - 70 House 4 – below tested 12- маж age 35 - 50 tested 13 - women age 35 - 50 House 7 tested 16- men age 35 - 50 tested 17 - women age 35 - 50 House 8 tested 20 - men age 50 - 70 tested 21 - women age 50 - 70 tested 22- women age35-50
The all examinees were volunteers in the research, and they are informed about the study aim. The examinees’ states of health are not endanger of the possible fields with harmful influences effect. Obviously, no one of the examinees was electro-sensitive. The control group examinees did not have any knowledge about placebo apparatus effect.
2.2 Way of measuring of the fields’ frequencies with harmful influence on the human organism In order to measure the biological frequencies of the fields with harmful influence on the human organism of the selected examinees, the Rayometer PS 10 from the Rayonex Company is used during the research.
The biological frequencies from various geo-biological fields with harmful influence are strictly defined for the Rayometer PS 10. For instance:
Electromagnetic smog 99, 5 Hz Underground water flows 62, 5 Hz and 64, 0 Hz. Tectonic movements 14, 0 and 34, 00 Hz. Global network 46,5 and 54 Hz.
According to the principle of bio-resonance of Paul Schmidt, it can be concluded that the body reaches resonance with these so-called frequencies, only when the organism can no longer defend itself from the harmful influences of the fields. Throughout the constant harmful influence of the field on the human organism, the immune system activates its defense function and due to the existing harmful influences initiates a healing process. The previous research of the examinees for resonance with fields with harmful influence was carried out in the homes of the examinees. The determined obstruction caused by the harmful influences of the fields which was obtained by this pre-research with Rayometer PS 10 is recorded in the following table (point 2.2.1)
2.2.1 Minutes of the measuring during the influence on the main group examinees
Main Group Examinees Examinee1
Basic frequency Global network
Underground water flows
Tectonic movements
Examinee2
Electromag. smog Global network
Underground water flows Tectonic movements
Examinee3
Electromag. smog Global network Underground water flows Tectonic movements
Examinee6
Electromag. smog Global network
Underground water flows Tectonic movements
Examinee7
Electromag. smog Global network
Underground water flows Tectonic movements Electromag. smog
Value
Resonance yes no
Examinees
46, 5
●
Examinee10
54, 0 62, 5
●
64, 0
●
14, 0
●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
Basic frequency Global network Underground water flows
●
Tectonic movements
Examinee 11
Electromag. smog Global network
Underground water flows Tectonic movements
Examinee14
Electromag. smog Global network
Underground water flows Tectonic movements
Examinee15
Electromag. smog Global network
Underground water flows Tectonic movements
Examinee18
Electromag. smog Global network
Underground water flows Tectonic movements Electromag. smog
Value
Resonanace yes no
46, 5
●
54, 0 62, 5
●
64, 0
●
14, 0
●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
●
●
64, 0 14, 0
●
34, 0 99, 5
● ●
● ●
Continuation of the minutes of the measuring from the main group Main group Examinees
Basic frequency
Value
Resonance yes no
Examinee 19
Global network
46, 5
●
54, 0 62, 5
●
Underground water flows
●
64, 0 Tectonic movements
● ● ● ●
14, 0 34, 0 99, 5
Electromag. smog
2.2.2 Minutes of the measuring during the influence on the control group examinees
Control group Examinees Examinee4
Basic frequency Global network
Underground water flows
Tectonic movements
Examinee5
Electromag. smog Global network
Underground water flows Tectonic movements
Examinee8
Electromag. smog Global network
Underground water flows Tectonic movements Electromag. smog
Value
Resonance yes no
Examinees
46, 5
●
Examinee 9
54, 0 62, 5
●
64, 0
●
14, 0
●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
Basic frequency Global network
Underground water flows
●
Tectonic movements
Examinee12
Electromag. smog Global network
Underground water flows Tectonic movements
Examinee3
Electromag. smog Global network
Underground water flows Tectonic movements Electromag. smog
Value
Resonance yes no
46, 5
●
54, 0 62, 5
●
64, 0
●
14, 0
●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
● ●
34, 0 99, 5
● ●
●
Continuation of the minutes of the measuring from the main group Control group Examinees
Basic frequency
Value
Resonance yes no
Examinees
Basic frequency
Value
Resona nce yes no
Examinee16
Global network
46, 5
●
Examinee21
Global network
46, 5
●
54, 0 62, 5
●
54, 0 62, 5
●
64, 0
●
64, 0
●
Underground water flows
Tectonic movements
Examinee17
Electromag. smog Global network Underground water flows Tectonic movements
Examinee 20
Electromag. smog Global network
Underground water flows Tectonic movements Electromag. smog
●
●
14, 0 34, 0 99, 5
●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
●
34, 0 99, 5
●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
●
34, 0 99, 5
Underground water flows
●
Tectonic movements
●
Examinee22
Electromag. smog Global network
Underground water flows ● ●
Tectonic movements Electromag. smog
● ●
●
●
14, 0 34, 0 99, 5
●
46, 5
●
54, 0 62, 5
● ●
64, 0 14, 0
●
34, 0 99, 5
●
●
● ●
3. Biological measurement by using the biofeedback process 3.1 Explanation of the principles of biofeedback process The biofeedback effect is based on the repeated information obtained from the usual unconscious physical functions. This essentially founded method is based on the conversion of biosignals into electrical impulses, which in strengthened form can be evaluated by a computer with suitable software. The process is developed with the aim that a person can learn to establish conscious control over his/her psychological system, once the signals of the various physical functions, such as •
muscle relaxation
•
body temperature
•
heart function and respiration, blood pressure
•
values of skin penetration
are activated optically as a digital or acoustic index, that is, they provide feedback. The next step is a graphic presentation, by the middles of a computer, on the basis of including precise technical measurement values through specially developed sensors. Each change in the oscilatory information is recorded in the human organism and causes reaction of the vegetative nervous system. As soon as the human organism recognizes some unpleasant or harmful frequency, it activates firstly the sympathetic nervous system as a protective reaction. If there is a change in the usage of energy, the blood pressure and the heart’s frequency, the human organism can adapt to the external influences. One external stimulation as a biological influence can lead to increase in the blood circulation, which enables prompt acting of the human organism. The activating of the sympathetic nervous system is something that we experience quite clearly throughout substantial stimulations. In accordance with the human sensibility, this fact is also valid for the harmful electromagnetic influences and the geo-biological fields with harmful influence. With the exception of the less sensitive people, the spontaneous reaction of the vegetative nervous system appears under the influence of the waves, which can be corporally received. Through the sensitive measuring technique of the modern apparatuses for biofeedback, it is possible to include the smallest parametres of the increase in the stress of the organism, and the signal curves precisely indicate the same. The activating of the parasympathetic nervous system can be labelled as both subjective and objective. The reaction of the parasympathetic nervous system to a pleasant feeling or the deactivation of the sweat glands is noticeable. During life threathening situations the sympathetic and parasympathetic nervous systems are simultaneously activated. In that situation, the heartbeat rate increases or the breathing hastens, conditioned by the reaction of the sympathetic nervous system. The activation of the parasympathetic nervous system can also be manifested through feeling of sickness and nausea in the stomach. It is less known that as an antecedent of a stressful reaction, physical changes occur. When the body feels some kind of unbearable information or influences, it tries to defend itself electrophysically, during which it decreases the feasibility for the corresponding influence. This can be practically beheld by increasing the skin resistance. The activity of sweat glands increases electrical ability for connection and makes the reaction level measurable.
The electrical ability for connection is connected to the sympathetic nervous system, which activates the body. During the research these curves are monitored as electrostress. The higher the heartbeat rates are, the bigger the momentary reaction can be. The research shows that the heartbeats during short-term changes under external influences react more weakly. During long-term research, appear changes accompanied by rhythmic processes. Constant influences on fields with harmful radiation can also be a cause for noticeable changes in the heartbeats. According to recent researches and upon biological influence of external influences of fields with harmful influences, different reaction types can be identified. One of the groups reacts by extensive hastening of the heartbeats, during constant increase of external influences of fields with harmful influences, and the other group by neglecting the variability of heart frequency. Both reactions can be evaluated as stress-responses of healthy organism, which during long-term influence can considerably increase risk of disease. From the mid 80s modern science is interested in the theme of heart frequency variability (heartbeats, abb.HFV) as diagnostically important phenomenon. HFV is based upon a mutual optimal play between the sympathetic and parasympathetic nervous system. Therefore HFV is a measure for complete adjustability and reactivity of an organism to internal and external stimulations. The autonomic nervous system is responsible for the adjustability of the organism to surrounding information field. HFV cannot be directly influenced by an appropriate person and therefore can be taken as accurate measure, for instance, physical tension. BioTrace+ software which was used for this research is mainly capable to provide information for HFV. Further on it has to be confirmed whether the chosen HFV values in time-limited minutes of measuring, determined in this research give accurate information. The relatively small number of examinees does not provide clear mathematically statistical evaluation. For 100 % statistically accurate information the number of examinees, as well as the quantity of the confirmed measurable values must be higher. Starting point fot evaluation of measurable data of individual examinees is created by the so-called “Baseline” – a session report during a neutral period. In this research, that period would be before the instalation of the “PXD Biopyramid” in the houses of the examinees from the main group and the corresponding placing of placebo pyramids in the houses of the examinees from the control group.
For biological measuring of harmonizing influence of the “PXD Biopyramid”, one of the most sophisticated apparatus for measuring biofeedback is used. The apparatus for measuring ‘NEXUS 10’ by the MIND MEDIA Company enables covering of the overall scope of psychological signal in the area of neuro-feedback effect and it opens a new dimension for psychological measuring.
BioTrace+ Software is a quick grapfhic presentation of measurement values in 3D format, that is, presenting video material with additional apparatuses. The measurement information are covered by at least 24 samples per minute and are memorized. In that way all the measurement values remain memorized and can be used according to a wish during evaluation of other systematic information or during usage of some calculation programmes (for instance Excel). In accordance with the total development, the producer of biofeedback system has developed „Blue Tooth“ connection for transfer of information from the sensors of the measuring apparatuses to a computer. However, this data transfer can be critically monitored, because the same one causes additional highly frequent radiation with a frequency of 10 Hz. During biological measuring, transmitters and receivers must be separated by a special foil, otherwise it can cause interference between the measuring information. A measuring apparatus is not installed directly onto the examinees, but onto the possible distance between the sensors along the cable length. In order to confirm the harmonizing influence of the “PXD Biopyramid” the following sensors are chosen: 3.1.1. EDA-sensor (electro-dermal activity) This sensor can cover bio-electrical properties of the skin (described both as resistance and penetration of the skin). A low and constant voltage of 0, 5 V with 2 electrodes in the main skin area is maintaned. Depending on the activity of sweat glands, constant polar variations between the two poles can be measured in µS (Mikro-Siemens). Consequently to the measured quantity of sweat during stimulation, skin feasibility increases. At the same time, according to physical laws, skin resistance decreases. Stressful stimulations are presented thruogh an increase in the level of skin feasibility. Time spent for resting after the reaction of the value of skin feasibility is an interesting fact for EDA.
Skin feasibility is primarily a function of the sympathetic nervous system of the autonomic nervous system and is an important indicator of a stressful reaction. For purposes of this analysis, during all measuring, and for information comparison, all electrodes from EDA-sensor were placed on parts of the thumb and the wedding finger
on the right hand at the examinees. The measurement values are graphically presented in µS (Mikro-Siemens), where yaxis at the same time represents a time axis of the minutes.
3.1.2. BVP-sensor
,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
During this process, infrared light from a light source is being projected onto the skin surface of the examinees and the entire light which is reflected is enclosed by a photoelectric sensor. During each heartbeat, blood is pumped through the peripheral blood vessels. During this measuring, the difference between the maximal and minimal necessary blood quantity within the framework of heart rhythm, which is called amplitude of pulsing volume, is monitored. The higher the quantity of blood is found in the place of research, the more light is absorbed, and the same is not enclosed by a photoelectric sensor. Calculation of pumped blood quantity during each heartbeat and peripheral resistance provides obtaining heartbeats (beats per minute). Values presented in the curve of the flow of necessary blood quantity present blood circulation expressed in %. During stressful circumstances, under influence of the sympathetic nervous system, blood pressure increases and blood vessels contract, which middles that circulation is smaller. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
It has to be emphasised that during electrostress, the number of red blood cells increases, and this appears as an optical signal for decrease of blood flow of the necessary quantity of blood. Heartbeats and pulsing amplitute are subject to unfluence of the sympathetic and parasymphatetic nervous system. This signal is especially noticed at the examinees with lower blood flow in the extremities. Each decrease of blood flow of the necessary quantity of blood causes decrease in the organism’s supply of nutritiments and oxygen, and furthermore leads to supplying the organism, through blood vessels, with poisons. Today, more than 20 million people suffer from heart and blood system diseases, and this number is constantly increasing. These illnesses include: atherosclerosis, heart attacks and peripheral cardiovascular damage. Therefore, the influence of electromagnetic radiation, that is, geo-biological fields with harmful influence on the changes of blood flow of the necessary quantity of blood are of special significance and are separately evidented in the minutes of the measuring. The BVP sensor is positioned on the little finger on the right hand of the examinees. 3.1.3. Temperature sensor This sensor is used to measure temperature changes of skin of the examinees during the testing. Skin temparature indirectly demonstrates degree of blood circulation in the skin as well. The value is observed through a thermometer that is placed on the inner side of the palm on the middle finger. The measuring unit is degree Centigrade (ºC). Theoretically, increase of temperature’s value of the skin can signify a reaction of relaxation of the examinee. Increase of temperature’s value of the skin of an examinee can be observed as a decrease of blood flow of the necessary quantity of blood, for instance through connecting with the energy of electromagnetic fields. The influence of electromagnetic fields onto the human organism is most clearly presented at measurable values of skin feasibility and skin temperature. Change of skin temperature can be
recognized from the dependency of fictitious values of blood flow of the necessary quantity of blood. During long-term measuring, other factors can influence skin temperature, for instance climate. What is significant in this respect is the research of the developement of regularity of the curve that presents skin temperature. Influence of geo-biological zones with harmful influence onto the skin temperature curve is also very obvious. Human organism is not capable to maintain constant skin temperature if it is influenced by external forces such as underground water flows.
3.2. Choice of measurement procedure Evidence for influence of the “PXD Biopyramid” was investigaded in one long-term procedure, but always with duration of one month. The following control cycles were selected for preparation of minutes of measuring process: Control cycle 1: Control cycle 2: Control cycles 3 - 4:
neutral measuring (beginning of the study) one week later (short-term effect) always after the end of the seventh day
The complete volume of measuring is conducted within one month and contains 4 minutes per examinee. The realization of biological measuring by “Nexus 10“ was conducted during the one and same period which takes into consideration the needs of the examinees, for example, working hours etc. Examinees were not informed of their division into main and control group, and the control measuring was not performed separately for individual groups. Examinees were informed that they must not make any kind of phone calls, one or one and a half hour before measuring. Communicational appliances which were situated in the homes of examinees were still used by examinees and no actions were taken to change them during the time of examination. It was aslo pointed out to participants in the examinations, that they have the basic right to conclude the experiment at any time without any previous notice. Realization of the biological measuring was always performed directly in the field of harmful influence, that is, in the homes of examinees, in the same space according to the arranged time-table. An interval of 10 minutes for each examinee was determined for purposes of measuring process. Statistical evaluation of each control cycle was conducted in the third and tenth minute of each measuring. During this time, a real tendency of the actual level of signals of the vegetative nervous system on the basis of instantaneous obstruction could be expected. Unnecessary extended process of measuring led mostly to increase in stress experienced by the examinees. Possible spontaneous reactions at the beginning of the measuring dissapeared soon after. The special reactions of examinees, which effected the procedure, were listed in the minutes of the measuring process of separate sessions. Natural reactions, such as coughing and sneezing, can be seen in the minutes as deviations of the vegatative balance and must be ignored in statistical evaluation of measurement values. Personal information of examinees are not enclosed in the analysis due to the protection of the information.
3.3 Explanation of the graphs for the session reports The session’s graphs from this research have been chosen for a determined purpose for better understanding of the results obtained from examinees of the main, that is, control group. The evaluation of research is mainly conducted based on the statistical values of the measuring enclosed in the minutes. Principally, in the minutes of the measure process of each session are presented the following signals of the vegetative nervous system as a line chart SC/GSR – skin penetration value (measured in µSiemens) – blue colour Skin temperature ( measured in degrees Centigrade) – red colour Heartbeats (per minute) – purple colour Amplitude of the volume of puls (presents difference between the maximum and minimum quantity of blood in the framework of one heart rhythm) – green colour
Each chart has an х-axis presenting time per minute, and for each area of measurement, in accordance with the measured maximal values there is also a separate y-axis. The session report by rule presents time-length of 10 minutes. Horisontal markings of the chart present notices for certain particular actions of examinees during the procedure.
Each of these curves for the signals is measured from at least 24 measuring units per second and is presented in a precise way. Measurement values are confirmed according to acknowledged mathematical methods in each time of evaluation of the measuring through “BioTrace + Software” and are presented consequently for each signal in a chart. Monitoring of statistical values of the deviations from the standards can provide information about the change of geometric regularity of the signal in the process of harmonisation. For the procedure described here, this can be an interesting issue in case of monitoring changes of skin temperature. The researches in the number of heartbeats per minute for one biological research in such conditions of obstruction can lead to precise information, because the variability of heart-work frequency can be under the influence of the change of sympathetic and parasympathetic nervous system, the two oponents of the vegetative nervous system. Heartbeats variability (HBV) describes the ability of the heart, countinuously and independently of obstruction, to change the interval from one heartbeat to the next and to adjust itself in a flexible way to internal and external obstruction. In this way HFV becomes a measure for general ability to adjust the human organism to external and internal factors. The autonomic nervous system is responsible for adaptation of the human organism. A person cannot influence directly HFV, and therefore is stated as an accurate measure, for instance for physical effort. Within the framework of this analysis, developement of criterea of examinees’ HFV from the main and control group was also examined by evaluating one programme function of BioTrace+ Software. People with limited HFV function in one narrow sphere usually get tired very quickly from certain important “life events”. These people experience this as “stress”, that is, as a disturbed relation between the momentary requirements of the field with harmful influence on one side and the abilities to overcome the same, on the other side. By limiting HFV certain people, to a large extent, can get short-term and long-term illnesses, such as cardiovascular diseases, depression, neuropathy and cancerous diseases. Therefore, the idea that the usage of “PXD Biopyramid” can improve HBV is an interesting knowledge. Relatively small number of examinees does not allow clear mathematically statistic evaluation on the whole. For 100 % statistically significant data, the number of examinees must be increased and also the volume of measuring units through which the analysis is conducted. The research was carried out without usage of questionnaries for the general opinion of examinees. The examinees were questioned within the control cycles about their personal opinion of “PXD Biopyramid” affect.
4. Resume of statistic research results 4.1. Table presentation of measurement values of skin penetration 4.1.1. Measurement values of skin penetration from the main group examinees [in µSiemens]
Skin penetration value also simultaneously presents the momentary stress potential of the examinees. Besides biological influence from external fields with harmful influence, emotional conditions or stressful situations connected to business life can be reflected in this signal for biofeedback. During extreme changes in the biofeedback signal that deviate from the framework of the control cycles, we should ask the examinees for other possible reasons for this. Basically, the functioning of sweat glands increases during stress, and this consequently increases the value of skin penetration. Middle value of examinees skin penetration was relatively low for both groups. The examinees from both groups reacted only with small increase in stress potential during their exposure to electromagnetic radiation. Skin penetration curve was in a neutral position only in a small number of examinees, and was characterized by spontaneous fluctuations, which may indicate an increase in sensibility, regarding biological influence of the electro smog. Control cycle 1 – Skin penetration – Main group Examinees. Min. Max. Middle values Examinee 1 1,00 1,46 1,16 Examinee 2 0,60 1,13 0,75 Examinee 3 0,62 0,76 0,68 Examinee 6 1,45 1,64 1,53 Examinee 7 0,99 1,21 1,08 Examinee 10 3,27 4,41 3,85 Examinee 11 0,71 0,92 0,78 Examinee 14 1,11 1,54 1,32 Examinee 15 0,73 0,91 0,81 Examinee 18 0,72 0,75 0,73 Examinee 19 0,92 2,06 1,27 Middle value 1,10 1,53 1,27 Control cycle 2 – Skin penetration – Main group Examinees. Min. Max. Middle values Examinee 1 0,81 1,09 0,91 Examinee 2 0,39 0,46 0,41 Examinee 3 0,36 0,39 0,37 Examinee 6 0,95 1,02 0,98 Examinee 7 0,74 0,79 0,77 Examinee 10 2,24 2,60 2,31 Examinee 11 0,58 0,73 0,60 Examinee 14 0,83 1,11 0,98 Examinee 15 0,72 1,30 0,96 Examinee 18 0,59 0,60 0,60 Examinee 19 0,68 0,80 0,74 Middle value 0,81 0,99 0,88
Standard deviations
0,12 0,16 0,04 0,04 0,06 0,24 0,06 0,12 0,05 0,01 0,34 0,11
Standard deviations
0,08 0,02 0,01 0,02 0,02 0,08 0,04 0,08 0,14 0,00 0,03 0,05
Control cycle 3 - Skin penetration – Main group Examinees. Min. Max. Middle values Examinee 1 1,00 1,32 1,12 Examinee 2 0,55 0,70 0,61 Examinee 3 0,71 1,02 0,83 Examinee 6 0,97 1,11 1,04 Examinee 7 0,53 0,55 0,54 Examinee 10 2,68 3,74 3,11 Examinee 11 0,62 0,65 0,62 Examinee 14 1,37 1,72 1,48 Examinee 15 0,69 0,76 0,71 Examinee 18 0,79 0,82 0,80 Examinee 19 0,83 0,87 0,85 Middle value 0,98 1,21 1,06 Control cycle 3 – Skin penetration – Main group Examinees. Min. Max. Middle values Examinee 1 0,80 0,89 0,84 Examinee 2 0,57 1,69 1,04 Examinee 3 0,85 1,39 1,10 Examinee 6 1,07 1,31 1,22 Examinee 7 0,45 0,48 0,47 Examinee 10 0,83 1,62 1,04 Examinee 11 0,41 0,43 0,42 Examinee 14 1,07 1,33 1,19 Examinee 15 0,54 0,59 0,55 Examinee 18 0,51 0,52 0,52 Examinee 19 0,69 0,75 0,72 Middle value 0,71 1,00 0,83 Resume development of skin penetration – main group Cycle Min. Max. Middle values Control cycle 1 1,10 1,53 1,27 Control cycle 2 0,81 0,99 0,88 Control cycle 3 0,98 1,21 1,06 Control cycle 4 0,71 1,00 0,83 Middle value 0,90 1,18 1,01
Standard deviations
0,09 0,03 0,07 0,03 0,01 0,29 0,01 0,07 0,02 0,01 0,01 0,06
Standard deviations
0,03 0,37 0,20 0,06 0,01 0,18 0,00 0,06 0,01 0,00 0,02 0,09
Standard deviations 0,11 0,05 0,06 0,09 0,08
Development of the main group examinees skin penetration middle value after the activation of “PXD Biopyramid” significantly decreased (approximately 30 %) during the measuring cycles. In the control cycle, the middle stress potential from the main group examinees slightly increased, the reason of that was only one examinee. Untill the end of the examination, with the help of PXD Biopyramid’s harmonising influence, reduction in the stress for an average value of 35% at all examinees was achieved. In a neutral measuring process, there is a stable movement of the curve for skin penetration signal found at the majority of examinees. The graphic presentation of the development of biofeedback signals during the research is always added to the chart presentation of the measurement values.
According to recent experiences from research carried out at the IGEF laboratory, the younger men and women can more quickly implement the reduction of the external influence through spacial harmonization into a positive change of the rhythmical processes of the human organism. 4.1.2. Measurement values of skin penetration from the control group examinees (expressed in μSiemens) Control cycle 1 – Skin penetration – Control group Examinees. Min. Max. Middle values Examinee 4 1,02 1,04 1,03 Examinee 5 0,58 0,84 0,66 Examinee 8 1,16 1,60 1,33 Examinee 9 0,60 0,71 0,65 Examinee 12 2,07 2,93 2,35 Examinee 13 0,43 0,55 0,47 Examinee 16 0,78 0,86 0,79 Examinee 17 0,49 0,52 0,50 Examinee 20 0,44 0,51 0,47 Examinee 21 0,98 1,08 1,01 Examinee 22 2,24 3,30 2,66 Middle value 0,98 1,27 1,08
Control cycle 2 – Skin penetration – Control group Examinees. Min. Max. Middle values Examinee 4 0,89 0,93 0,90 Examinee 5 0,69 0,88 0,74 Examinee 8 0,47 0,78 0,52 Examinee 9 0,99 1,33 1,15 Examinee 12 1,60 2,51 1,82 Examinee 13 0,75 0,93 0,83 Examinee 16 0,91 1,00 0,95 Examinee 17 0,48 0,50 0,49 Examinee 20 0,66 0,86 0,75 Examinee 21 0,61 0,79 0,74 Examinee 22 1,80 2,33 2,08 Middle value 0,90 1,17 1,00 Control cycle 3 – Skin penetration – Control group Examinees. Min. Max. Middle values Examinee 4 1,10 1,19 1,14 Examinee 5 0,48 0,53 0,50 Examinee 8 0,54 0,69 0,58 Examinee 9 0,67 0,89 0,73 Examinee 12 2,03 3,88 2,59 Examinee 13 0,47 0,70 0,56 Examinee 16 1,67 1,80 1,72 Examinee 17 0,72 0,80 0,76 Examinee 20 0,57 0,93 0,70 Examinee 21 1,32 1,60 1,45 Examinee 22 1,84 2,42 1,96 Middle value 1,04 1,40 1,15
Standard deviations
0,01 0,07 0,10 0,03 0,18 0,03 0,02 0,01 0,02 0,01 0,33 0,07
Standard deviations
0,01 0,05 0,09 0,08 0,14 0,05 0,03 0,01 0,05 0,06 0,15 0,07 Standard deviations
0,02 0,01 0,04 0,04 0,31 0,07 0,03 0,02 0,10 0,06 0,10 0,07
Control cycle 4 – Skin penetration –Control group Examinees. Min. Max. Middle values Examinee 4 0,60 0,73 0,67 Examinee 5 0,76 0,93 0,85 Examinee 8 0,71 1,16 0,82 Examinee 9 0,64 0,81 0,72 Examinee 12 1,30 2,07 1,49 Examinee 13 0,49 0,62 0,52 Examinee 16 0,74 0,88 0,77 Examinee 17 0,65 0,72 0,69 Examinee 20 0,61 0,77 0,66 Examinee 21 0,47 0,69 0,53 Examinee 22 1,50 2,17 1,91 Middle value 0,77 1,05 0,88
Standard deviations
0,04 0,05 0,09 0,05 0,15 0,03 0,03 0,02 0,04 0,06 0,13 0,06
Resume development of Skin penetration –Control group Cycle Min. Max. Middle values Standard deviations Control cycle 1 0,98 1,27 1,08 0,07 Control cycle 2 0,90 1,17 1,00 0,07 Control cycle 3 1,04 1,40 1,15 0,07 Control cycle 4 0,77 1,05 0,88 0,06 Middle value 0,92 1,22 1,03 0,07
The middle value of skin penetration from the control group examinees during neutral measuring was under the average of the main group comparable values. During the examination, development of the individual examinees skin penetration was not constant, but subjected to periodical changes regarding initial value. Overall, significant progress of the potential reduction in stress could not be detected with the control group, whereas there was a clear tendency for decrease in the same with the main group. Therefore, the placebo effect could not be detected. The middle value of skin penetration from the conrol group examinees is in minor decrease in control cycle 3, and a sporadic development of the minimal and maximal values of stress potential regarding results of the main group examinees, is also detected. Deviations from the standards, which remained the same during all control cycles, can be considered as a unit measure of unchanged external obstruction of the main group examinees.
4.1.3 Graphic presentation of the middle value development of skin penetration from the main and control group examinees
Review of the measurement values:
Measurement values Penetration middle value Cycle Main group Control group Control cycle 1 1,27 1,08 Control cycle 2 0,88 1,00 Control cycle 3 1,06 1,15 Control cycle 4 0,83 0,88 Middle value 1,01 1,03
“PXD pyramid“ Study – development of the middle value of skin penetration =stress potential
Main group
Control group
Control cycle
The tendency for development of skin penetration from the main group examinees (brown colour) significantly decreases besides the increase in the middle value of penetration in control cycle 1. The trend for increasing potential stress in control cycle 3 is determined through one examinee. During the research, the use of harmonizing effect of “PXD Biopyramid” in all control cycles decreases the stress potential for greater number of the main group examinees.
The middle values of skin penetration from the main group examinees sporadically change and in control cycle 3 they even reach increase of about 10% above the neutral value. Influence of the placebo based on the standard deviations from all control groups cannot be established. During relatively decreased level of potential stress throughout the neutral measuring for all examinees, the harmonizing effect especially for individual monitoring of the main group examinees can be established.
4.2. Table of skin temperature measurement values 4.2.1. Skin temperature measurement values of the main group examinees (expressed in ºC) Within one long-term research, development of skin temperature measurement values depends on various factors, such as climate and examinees’ momentary blood quantity. According to recent experiences from research carried out at the IGEF laboratory, in the geometrical continuity of the temperature curve is shown a long-lasting obstruction of the human organism through geo-biological fields with harmful influence, that is, rise of the skin temperature curve is constantly changed in short time intervals. The long-lasting obstruction, caused by geo-biological fields with harmful influence, has a harmful influence on proper maintenance of constant body temperature. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Control cycle Examinees. Examinee 1 Examinee 2 Examinee 3 Examinee 6 Examinee 7 Examinee 10 Examinee 11 Examinee 14 Examinee 15 Examinee 18 Examinee 19 Middle value.
1 – skin temperature – Main group Min. Max. Middle values 32,68 33,45 33,12 33,69 34,73 34,35 22,65 23,39 22,94 33,65 34,33 34,02 33,40 33,61 33,50 34,74 35,11 34,89 34,86 35,32 35,15 33,16 33,63 33,42 32,26 33,26 32,75 35,23 35,45 35,38 34,19 34,41 34,33 32,77 33,34 33,08
Control cycle 2 – skin temperature – Main group Examinees. Min. Max. Middle values Examinee 1 29,18 30,55 29,86 Examinee 2 30,94 32,58 31,84 Examinee 3 24,14 25,16 24,56 Examinee 6 34,28 34,68 34,47 Examinee 7 34,38 34,72 34,56 Examinee 10 35,24 35,49 35,40 Examinee 11 34,34 34,96 34,81 Examinee 14 21,58 30,34 26,00 Examinee 15 33,19 33,85 33,51 Examinee 18 35,09 35,49 35,24 Examinee 19 32,75 33,07 32,92 Middle value 31,37 32,81 32,11
Standard deviations
0,24 0,28 0,20 0,11 0,05 0,09 0,10 0,13 0,25 0,05 0,07 0,14
Standard deviations
0,50 0,53 0,40 0,15 0,08 0,05 0,14 2,91 0,22 0,10 0,08 0,47
Control cycle 3 – skin temperature – Main group Examinees. Min. Max. Middle values Examinee 1 31,63 32,87 32,52 Examinee 2 32,47 33,87 33,49 Examinee 3 25,70 27,32 26,38 Examinee 6 33,05 33,42 33,25 Examinee 7 34,37 35,23 34,73 Examinee 10 35,33 35,82 32,65 Examinee 11 34,42 34,82 34,67 Examinee 14 35,22 35,50 35,40 Examinee 15 33,25 34,43 34,00 Examinee 18 35,03 35,53 35,26 Examinee 19 24,82 31,24 29,48 Middle value 32,30 33,64 32,89 Control cycle 4 – skin temperature – Main group Examinees. Min. Max. Middle values Examinee 1 32,79 33,84 33,22 Examinee 2 32,50 35,55 35,45 Examinee 3 33,25 34,44 33,68 Examinee 6 32,09 32,95 32,54 Examinee 7 32,10 33,27 32,73 Examinee 10 35,25 35,82 35,58 Examinee 11 34,28 34,59 34,48 Examinee 14 21,32 34,08 30,51 Examinee 15 31,98 33,58 32,72 Examinee 18 34,71 35,04 34,83 Examinee 19 29,49 31,91 30,87 средна вредн. 31,80 34,10 33,33
Standard deviations
0,34 0,38 0,45 0,12 0,24 0,09 0,09 0,06 0,36 0,13 0,01 0,21
Standard deviations
0,03 0,09 0,57 0,26 0,38 0,17 0,08 3,74 0,46 0,08 0,72 0,60
Resume development of skin temperature – Main group Cycle Min. Max. Middle values Standard deviations Control cycle 1 32,77 33,34 33,08 0,14 Control cycle 2 31,37 32,81 32,11 0,47 Control cycle 3 32,30 33,64 32,89 0,21 Control cycle 4 31,80 34,10 33,33 0,60 Middle value 32,06 33,47 32,85 0,35
The tables of the changes of skin temperature measurement values are presented on the basis of the procedural middle values in degrees Centigrades.
4.2.2. Skin temperature measurement values of the control group examinees (expressed in ºC) Control cycle 1 – skin temperature – Control group Examinees. Min. Max. Middle values Examinee 4 33,75 34,36 34,10 Examinee 5 36,08 36,61 36,40 Examinee 8 23,62 24,06 23,81 Examinee 9 21,56 22,62 21,99 Examinee 12 34,05 34,76 34,60 Examinee 13 23,15 25,24 24,26 Examinee 16 33,30 34,33 33,96 Examinee 17 34,43 35,22 34,83 Examinee 20 26,53 28,22 27,00 Examinee 21 24,83 25,90 25,54 Examinee 22 34,21 34,93 34,62 Middle value 29,59 30,57 30,10
0,15 0,17 0,11 0,30 0,19 0,66 0,33 0,18 0,49 0,31 0,19 0,28
Control cycle 2 – skin temperature – Control group Examinees. Min. Max. Middle values Examinee 4 33,60 34,00 33,80 Examinee 5 34,17 34,62 34,42 Examinee 8 25,49 30,12 28,07 Examinee 9 26,72 29,01 27,76 Examinee 12 32,82 34,84 34,25 Examinee 13 30,94 33,22 32,58 Examinee 16 25,84 30,99 28,58 Examinee 17 33,45 34,26 33,95 Examinee 20 30,93 33,88 32,75 Examinee 21 16,14 18,95 17,66 Examinee 22 35,01 35,77 35,57 Middle value 29,56 31,79 30,85
0,00 0,12 1,70 0,64 0,55 0,68 1,81 0,19 0,82 1,05 0,16 0,70
Control cycle 3 – skin temperature – Control group Examinees. Min. Max. Middle values Examinee 4 33,68 34,14 33,80 Examinee 5 34,31 35,13 34,64 Examinee 8 25,49 27,01 26,23 Examinee 9 24,56 29,23 27,94 Examinee 12 33,38 33,95 33,64 Examinee 13 23,61 32,87 28,52 Examinee 16 34,04 34,65 34,33 Examinee 17 34,84 35,33 35,04 Examinee 20 31,74 32,67 32,16 Examinee 21 34,04 34,74 34,43 Examinee 22 34,77 35,31 35,14 Middle value 31,31 33,18 32,35
Standard deviations
Standard deviations
Standard deviations
0,14 0,20 0,02 1,52 0,14 3,32 0,16 0,14 0,27 0,22 0,14 0,57
Control cycle 4 – skin temperature – Control group Examinees. Min. Max. Middle values Examinee 4 34,41 34,90 34,66 Examinee 5 34,92 35,92 35,53 Examinee 8 30,44 32,95 31,89 Examinee 9 23,19 24,01 23,59 Examinee 12 33,73 34,24 34,08 Examinee 13 29,08 33,15 31,82 Examinee 16 32,99 34,12 33,56 Examinee 17 35,28 35,84 35,60 Examinee 20 29,81 31,84 30,57 Examinee 21 21,79 22,05 21,92 Examinee 22 34,56 35,73 35,51 Middle value 30,93 32,25 31,70
Standard deviations
0,14 0,01 0,79 0,24 0,14 1,11 0,27 0,19 0,61 0,08 0,27 0,35
Resume development of skin temperature – Control group Cycle Min. Max. Middle values Standard deviations Control cycle 1 29,59 30,57 30,10 0,28 Control cycle 2 29,56 31,79 30,85 0,70 Control cycle 3 31,31 33,18 32,35 0,57 Control cycle 4 30,93 32,25 31,70 0,35 Middle value 30,35 31,95 31,25 0,48
4.2.3. Graphic presentation of the development of skin middle temperature from the main and control group examinees Review of measurement values: Measurement values of skin middle temperature Cycle main group control grouр Control cycle 1 33,08 30,10 Control cycle 2 32,11 30,85 Control cycle 3 32,89 32,35 Control cycle 4 33,33 31,70 Middle value 32,85 31,25
Middle value of skin temperature from the main group examinees, in average throughout all control cycles is approximately 5 % above the same signal values of the control group. Middle values of skin temperature are subject to small differences with the main group examinees during all control cycles. From the following graphic presentation of measurement values of middle skin temperature, we cannot make a conclusion for harmonizing effect, because skin temperature during long-term research depends on various factors (climate, room temperature). Minor differences of middle skin temperature from the main group examinees and increased tendency of the line inform about a feeling of pleasure incited by the biological effect of “PXD Biopyramid”.
“PXD pyramid“ Study – development of the skin middle value temperature
Control cycles 4.3. Table of heartbeats measurement data 4.3.1. Measurement values of heartbeats from the main group examinees (beats per minute) Heartbeats are subject to the influence of sympathetic and parasympathetic nervous system. Development of heart rate is closely connected to the parameters for advance of the variability of heartbeats. Furthermore, it can be stated that there are two different types of reactions regarding the change in the number of heartbeats during permanent obstruction. Therefore, it would be ideal if the number of heartbeats is approached to the “normal value” of 80 heartbeats per minute. However, we have to bear in mind that children and young people, in perfect health condition and included in this research, can have increased number of heartbeats. Control cycle 1 – number of heartbeats – Main group Examinees Min. Max. Middle values Examinee 1 66,21 77,58 70,69 Examinee 2 60,95 70,46 65,13 Examinee 3 55,25 80,00 65,60 Examinee 6 40,00 79,18 53,39 Examinee 7 57,31 61,94 59,35 Examinee 10 88,28 114,63 99,62 Examinee 11 56,47 87,28 66,40 Examinee 14 66,78 102,40 79,81 Examinee 15 58,63 83,48 66,93 Examinee 18 71,11 80,00 74,79 Examinee 19 73,14 84,40 79,96 Middle value 63,10 83,76 71,06
Standard deviations 0,11 0,28 4,10 15,74 0,86 3,79 3,59 0,08 4,03 1,31 1,61 3,23
Control cycle 2 – number of heartbeats – Main group Examinees. Min. Max. Middle values Standard deviations Examinee 1 55,65 76,81 65,46 3,38 Examinee 2 55,25 66,21 59,97 1,63 Examinee 3 60,47 81,71 68,41 0,05 Examinee 6 64,00 83,48 76,68 2,12 Examinee 7 50,86 58,19 54,31 1,29 Examinee 10 82,58 105,21 93,33 2,82 Examinee 11 59,08 71,12 65,19 1,97 Examinee 14 53,33 87,28 62,85 5,68 Examinee 15 65,08 89,31 72,55 3,85 Examinee 18 70,46 80,00 74,70 1,83 Examinee 19 67,37 77,58 71,63 1,67 Middle value 62,19 79,72 69,55 2,39 Control cycle 3 – number of heartbeats – Main group Examinees. Min. Max. Middle values Examinee 1 69,19 86,30 76,19 Examinee 2 62,44 76,81 67,93 Examinee 3 63,47 76,81 68,47 Examinee 6 67,37 78,37 71,57 Examinee 7 52,60 60,48 55,40 Examinee 10 82,58 1 06,67 94,17 Examinee 11 62,44 80,85 68,40 Examinee 14 76,04 1 08,17 89,22 Examinee 15 58,18 76,81 65,38 Examinee 18 63,47 74,57 67,52 Examinee 19 81,70 93,66 86,01 Middle value 67,23 83,59 73,66
Standard deviations
0,34 2,14 2,30 2,15 1,24 3,68 2,79 5,52 3,24 1,65 2,22 2,48
Control cycle 4 – number of heartbeats – Main group Examinees. Min. Max. Middle values Standard deviations Examinee 1 66,21 79,18 71,98 2,16 Examinee 2 68,57 80,00 73,70 2,18 Examinee 3 71,11 80,00 75,02 1,50 Examinee 6 67,96 88,28 77,63 2,92 Examinee 7 50,20 56,48 53,17 1,28 Examinee 10 88,28 116,37 100,48 6,73 Examinee 11 64,00 86,30 72,56 3,54 Examinee 14 58,63 89,31 69,15 3,74 Examinee 15 59,53 80,00 66,20 3,09 Examinee 18 61,44 69,19 64,42 1,36 Examinee 19 76,80 87,28 81,20 1,90 Middle value 66,61 82,94 73,23 2,76 Resume number of heartbeats – Main group Cycle Min. Max. Control cycle 1 63,10 83,76 Control cycle 2 62,19 79,72 Control cycle 3 67,23 83,59 Control cycle 4 66,61 82,94 MV 64,78 82,50
Middle values Standard deviations 71,06 3,23 69,55 2,39 73,66 2,48 73,23 2,76 71,88 2,72
The middle values of heartbeats are slightly increased during the control cycles in relation to neutral measurement. Because the measured heartbeats for majority of the main group examinees were below 80 per minute, it can be concluded that there is a developing tendency. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
4.3.2. Measurement values of heartbeats from the control group examinees (beats per minute) Control cycle 1 – number of heartbeats – Control group Examinees. Min. Max. Middle values Standard deviations Examinee 4 86,29 103,79 93,49 2,23 Examinee 5 86,29 108,17 95,90 0,17 Examinee 8 43,39 56,48 49,24 2,53 Examinee 9 47,41 60,48 54,91 2,01 Examinee 12 67,96 82,59 74,50 2,66 Examinee 13 66,21 93,66 79,56 4,58 Examinee 16 65,64 81,71 71,89 2,73 Examinee 17 64,00 89,31 72,26 21,32 Examinee 20 56,06 70,46 62,26 2,21 Examinee 21 71,78 98,47 85,21 3,39 Examinee 22 76,80 130,17 105,35 9,53 Middle value 66,53 88,66 76,78 4,85 Control cycle 2 – number of heartbeats – Control group Examinees. Min. Max. Middle values Standard deviations Examinee 4 80,84 94,82 88,90 2,40 Examinee 5 78,37 96,00 86,97 2,55 Examinee 8 48,92 60,01 52,89 1,86 Examinee 9 53,71 63,48 59,15 1,99 Examinee 12 73,14 92,54 80,45 2,83 Examinee 13 63,47 82,59 74,53 3,70 Examinee 16 61,44 80,00 68,23 2,74 Examinee 17 57,31 89,31 67,13 4,19 Examinee 20 51,20 61,44 56,09 1,98 Examinee 21 89,30 105,21 96,50 2,79 Examinee 22 67,37 137,15 108,40 10,10 Middle value 65,92 87,50 76,29 3,38 Control cycle 3 – number of heartbeats – Control group Examinees. Min. Max. Middle values Standard deviations Examinee 4 93,66 106,67 99,39 2,33 Examinee 5 86,29 112,95 100,91 3,32 Examinee 8 40,42 54,47 46,79 1,93 Examinee 9 52,97 61,44 56,55 1,67 Examinee 12 65,64 85,34 75,34 0,05 Examinee 13 69,19 85,34 77,27 2,83 Examinee 16 69,82 90,36 77,27 2,81 Examinee 17 59,53 103,79 81,27 8,36 Examinee 20 49,55 56,89 50,23 1,71 Examinee 21 80,00 97,22 88,62 3,59 Examinee 22 65,08 118,16 85,96 8,82 Middle value 66,56 88,42 76,33 3,40
Control cycle 4 – number of heartbeats – Control group Examinees. Min. Max. Middle values Standard deviations Examinee 4 101,05 112,95 106,15 1,89 Examinee 5 94,81 112,95 103,71 3,57 Examinee 8 45,18 53,34 48,28 1,22 Examinee 9 48,61 58,19 52,65 1,87 Examinee 12 77,58 97,22 83,67 3,78 Examinee 13 66,21 83,48 75,50 2,95 Examinee 16 71,11 93,66 82,57 2,69 Examinee 17 59,08 91,43 67,69 5,26 Examinee 20 44,91 56,06 49,71 2,24 Examinee 21 57,31 90,36 72,30 7,90 Examinee 22 75,29 130,17 98,98 9,56 Middle value 67,38 89,07 76,47 3,90 Resume number of heartbeats – Control group Cycle Min. Max. Middle values Control cycle 1 66,53 88,66 76,78 Control cycle 2 65,92 87,50 76,29 Control cycle 3 66,56 88,42 76,33 Control cycle 4 67,38 89,07 76,47 Middle value 66,60 88,42 76,47
Standard deviations 4,85 3,38 3,40 3,90 3,88
Values of the control group-examinees number of heartbeat are progressing with minor deviations from the middle value of the neural measurement within the control measurement. A change in the number of heartbeat as a rhythmical process of the human organism cannot be identified.
4.3.3. Graphic presentation of heartbeats middle value from the main and control group examinees ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review of measurement values: Measurement values of middle heartbeats Cycle MG CG Control cycle 1 71,06 76,78 Control cycle 2 69,55 76,29 Control cycle 3 73,66 76,33 Control cycle 4 73,23 76,47 MV 71,88 76,47
Contrary to the development of heartbeats middle value from the main group examinees, there was not a significant development with the comparable values of the control group. Protocol middle values of heartbeats from the control group examinees are approximately equal in all control cycles, the trend line is horizontal.
“PXD Biopyramid” Study - development of heartbeats middle value from the main and control group examinees
c
Control cycles
The trend-line of examinees heartbeats from the main group is linear rising during all control cycles. Increase in the middle heartbeats during the research period of one month is a clear trend for harmonization of external influence through information about “PXD Biopyramid” for the main group examinees. This thesis, through a filtration of the main and control group examinees, should be tested separately into two types of reaction: Examinees with heart rate < 80 beats /minute and Examinees with heart rate > 80 beats /minute 4.3.3.1. Heartbeat development for the type of reaction < 80 beats/minute
Review of measurement values Middle measurement values < 80 hearthbeats/мinute
Cycle Control cycle Control cycle Control cycle Control cycle MV
1 2 3 4
MG 68,21 67,18 71,61 70,50 69,37
CG 69,36 68,63 69,41 65,53 68,23
“PXD Biopyramid” Study - development of heartbeats from the main and control group examinees < 80 hearthbeats/мinute
Control cycles
By categorizing the examinees into two groups according to the type of reaction, the trend for development of heartbeats during the measurement period is clearly presented.
Decrease of external influences through the biological effect of ”PXD Biopyramid” is revealed for the main group examinees with heartbeat < 80. This clearly suggests a tendency of increase in heartbeat in direction to normal values of a healthy person. This positive development of the common bearing signal of heartbeats during the research period of one month is a clear notice of the harmonizing effect of ”PXD Biopyramid” from electromagnetic radiation and geo-biological fields with harmful influence. There is no decreasing line in the trend nor a decrease in middle heartbeats during the research period for the control group examinees used for comparison. Taking into consideration the possibility that during the determined period of testing, possible influences may arise from so-called higher heartbeats according to the weather conditions of the rhythmical processes of the human organism, that can influence all examinees, the positive development is specifically maintained with people of heartbeat rate less than 80 beats per minute of the main group.
4.3.3.2 Heartbeats development for the type of reaction > 80 beats / minute Heartbeats values >80 beats/minute Cycle MG Control cycle 1 99,62 Control cycle 2 93,33 Control cycle 3 94,17 Control cycle 4 100,48 MV 99,62
CG 98,25 94,76 95,42 102,95 97,84
“PXD Biopyramid” Study - development of heartbeats from the main and control group examinees > 80 hearthbeats/мinute
Control cycles
The type of reaction > 80 beats per minute during this research is very small, therefore, the results for a tendency cannot give significant worth. Unfortunately, from the main group only one examinee belongs to this type of reaction and only three from the control group. Because of this, we cannot give any statements for the trend of development of heartbeats for the type of reaction >80 heartbeats/minute.
4.4. T able presentation of the necessary blood quantity measurement data 4.4.1. Measurement values of the necessary blood quantities from the main group (fictitious value) The increase of the necessary blood quantity, during reduction of external obstruction of the examinees by using “PXD Biopyramid”, affected the necessary fulfillment of cells with nutriments. During increase of the necessary blood quantity of examinees was noticed a decrease in the flow of red blood cells, resulting in improvement of the ability of closing the capillary vassels through a biological reaction of “PXD Biopyramid””, as it can be seen in the review of the dark fields (see the picture on the right). ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Control cycle 1 –blood quantity- Main group Examinees Min. Max. Examinee 1 24,45 37,15 Examinee 2 29,05 74,39 Examinee 3 8,50 16,83 Examinee 6 0,70 46,41 Examinee 7 10,16 37,23 Examinee 10 13,14 38,17 Examinee 11 24,97 65,92 Examinee 14 10,20 48,78 Examinee 15 48,65 125,74 Examinee 18 16,54 44,86 Examinee 19 28,42 72,40 MV 19,53 55,26 Control cycle Examinees Examinee 1 Examinee 2 Examinee 3 Examinee 6 Examinee 7 Examinee 10 Examinee 11 Examinee 14 Examinee 15 Examinee 18 Examinee 19 MV
MV 29,90 59,83 13,27 27,47 25,13 25,84 51,18 29,67 87,38 31,18 47,59 38,95
SD 0,12 7,17 1,14 68,70 6,53 4,45 6,85 6,02 13,61 3,96 6,71 11,39
2 – blood quantity- Main group Min. Max. MV 11,16 27,74 12,05 59,71 47,24 9,93 20,11 14,53 0,75 37,99 24,19 9,00 64,16 49,97 14,10 48,74 34,37 35,15 91,68 70,79 8,20 46,99 30,79 20,94 73,29 45,78 16,99 37,05 26,10 41,92 84,37 55,58 16,38 53,80 37,99
SD 18,55 54,31 1,59 3,83 9,46 5,76 8,78 6,02 8,83 8,63 49,57 14,54
3,15
Control cycle 3 – blood quantity- Main group Examinees Min. Max. MV Examinee 1 19,65 38,84 28,64 Examinee 2 15,72 72,74 54,96 Examinee 3 15,35 41,89 24,34 Examinee 6 0,62 29,80 18,27 Examinee 7 16,75 67,75 50,31 Examinee 10 14,80 29,98 22,35 Examinee 11 28,05 90,63 65,36 Examinee 14 18,78 50,71 35,76 Examinee 15 25,54 92,61 59,95 Examinee 18 16,62 30,17 17,20 Examinee 19 31,76 59,02 44,65 MV 18,51 54,92 38,34
SD 3,13 8,63 6,46 3,14 9,62 2,76 10,81 5,52 13,54 2,26 5,46 6,48
Control cycle 4 – blood quantity-Main group Examinees Min. Max. MV Examinee 1 1,46 36,31 31,19 Examinee 2 24,87 105,87 71,96 Examinee 3 55,76 93,28 69,68 Examinee 6 0,54 35,83 19,10 Examinee 7 11,13 56,54 39,09 Examinee 10 13,15 44,97 26,59 Examinee 11 24,52 107,02 73,40 Examinee 14 28,45 79,40 51,64 Examinee 15 19,77 146,79 63,40 Examinee 18 24,87 53,44 43,96 Examinee 19 30,96 70,75 45,42 MV 21,41 75,47 48,68
SD 4,41 9,54 6,50 5,33 9,43 5,51 13,28 10,32 25,55 6,04 6,90 9,35
Conclusion of blood quantity development – main group Cycle Min. Max. MV Control cycle 1 19,53 55,26 38,95 Control cycle 2 16,38 53,80 37,99 Control cycle 3 18,51 54,92 38,34 Control cycle 4 21,41 75,47 48,68 MV 18,96 59,86 40,99
SD 11,39 14,54 6,48 9,35 10,44
The necessary blood quantity is examined through the process of photopletizmography. It is about an easy technical process of presenting the circulation of blood changes. The values are for the maximal researches of circulation and during a good circulation they can be above the lebel 100%. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Development of middle blood quantity of the examinees from the control group is constant in control cycles 1-3. Middle necessary blood quantity decreases, but not again under the lowest level. In control cycle 4 there is a clear increase of blood quantity with above than 20%, which is a case for particular examinees from the main group.
4.4.2. Measurement values of the necessary blood quantities from the control group (fictitious value) ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Control cycle 1 – Blood quantity-control group Examinees Min. Max. EXAMINEE 4 49,59 74,13 EXAMINEE 5 9,50 30,16 EXAMINEE 8 0,77 22,93 EXAMINEE 9 1,82 20,41 EXAMINEE 12 10,30 43,71 EXAMINEE 13 10,88 31,22 EXAMINEE 16 8,96 27,79 EXAMINEE 17 21,29 95,30 EXAMINEE 20 10,92 31,84 EXAMINEE 21 9,25 39,16 EXAMINEE 22 8,64 33,40 MV 12,90 40,91
MV 62,46 18,19 12,60 13,14 27,58 17,99 17,30 57,70 20,75 18,55 19,01 25,93
SD 5,85 3,16 4,38 2,56 4,89 3,40 2,88 11,13 4,67 5,37 4,34 4,78
Control cycle 2 – Blood quantity – control group Examinees Min. Max. MV EXAMINEE 4 14,46 41,74 28,73 EXAMINEE 5 15,26 66,89 33,87 EXAMINEE 8 3,18 29,44 20,70 EXAMINEE 9 19,77 72,24 55,24 EXAMINEE 12 11,64 36,53 24,78 EXAMINEE 13 24,11 59,04 42,33 EXAMINEE 16 13,78 46,64 27,38 EXAMINEE 17 72,15 187,34 131,38 EXAMINEE 20 8,67 46,48 35,73 EXAMINEE 21 1,78 32,58 17,65 EXAMINEE 22 16,01 53,38 36,89 MV 18,26 61,12 41,33
SD 4,29 8,48 5,40 7,45 3,23 5,92 6,59 17,76 0,17 5,76 6,47 6,50
Control cycle 3 – Blood quantity – control group Examinees Min. Max. MV EXAMINEE 4 16,21 33,22 26,09 EXAMINEE 5 13,67 49,10 32,50 EXAMINEE 8 0,60 14,44 6,80 EXAMINEE 9 22,43 117,95 79,86 EXAMINEE 12 3,22 50,80 30,45 EXAMINEE 13 12,11 63,93 31,71 EXAMINEE 16 1,00 44,56 23,45 EXAMINEE 17 15,68 87,64 51,35 EXAMINEE 20 1,50 17,62 10,29 EXAMINEE 21 11,80 23,55 17,18 EXAMINEE 22 3,28 55,73 34,77 MV 9,23 50,78 31,31
SD 3,09 6,33 2,81 16,81 5,58 13,23 6,78 11,80 2,85 2,10 7,21 7,14
Control cycle 4 – Blood quantity – control group Examinee Min. Max. MV EXAMINEE 4 26,98 55,92 45,36 EXAMINEE 5 27,32 87,55 54,66 EXAMINEE 8 1,49 34,49 22,00 EXAMINEE 9 3,47 48,85 31,73 EXAMINEE 12 29,90 90,79 59,73 EXAMINEE 13 30,35 74,15 49,60 EXAMINEE 16 14,00 43,71 30,02 EXAMINEE 17 63,35 143,25 104,23 EXAMINEE 20 2,59 36,33 21,76 EXAMINEE 21 3,61 11,25 6,38 EXAMINEE 22 18,58 65,61 39,60 MV 20,15 62,90 42,28
SD 5,09 12,89 6,92 7,39 9,68 7,59 4,80 11,33 6,21 0,96 7,41 7,30
Conclusion of blood quantity development – control group Cycle Min. Max. MV Control cycle 1 12,90 40,91 25,93 Control cycle 2 18,26 61,12 41,33 Control cycle 3 9,23 50,78 31,31 Control cycle 4 20,15 62,90 42,28 MV 15,13 53,93 35,22
SD 4,78 6,50 7,14 7,30 6,43
Development of measurement values of middle necessary blood quantity from the control group examinees is changing sporadically in each control cycle and does not recognize any particular trend. Increases of middle necessary blood quantity from the control group examinees in certain control cycles are supported by some examinees with high fictitious value of circulation. Middle minimal value of necessary blood quantity through all control cycles, which is based on the examinees from the control group, is higher for 20%. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
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4.4.3. T able pres entation of the development of middle value of the necessary blood quantity at main and control group examinees
Review of measurement values: Measurement values of middle blood quantity Cycle MG CG 38,95 25,93 Control cycle 1 37,99 41,33 Control cycle 2 3 38,34 31,31 Control cycle 48,68 42,28 Control cycle 4 MV 40,99 35,22
“PXD Biopyranid” Study-development of the necessary middle value of blood quantity from the main and control group
Trend line of middle value of necessary bloood quantity from both groups which were tested, is on an upward line. The middle value of the necessary blood quantity from the main group examinees lies on a neutral position, but at a higher level. By using „ P X D Biopypamid“ the middle value of necessary blood quantity stays at least constant at this level, and the clear increase of the blood quantity from the fourth control cycle should be noticed. Middle value of the necessary bloood quantity from the control group examinees during the testing is spontaneously increased, and afterwards arise periods of decrease. This tendency was caused by the small number of examinees with changable high blood preasure.
4.5. Development of heatrbeats variability (HB V ) From the mid 80s in the modern science, the interest in the theme of Heart frequency variability as an important diagnostic phenomenon, becomes clear. Heart frequency variability acts an essential role in the optimal cooperation between the sympathetic and parasympathetic parts of the nervous system. Even though this fiels is being examinated yet, it covers the general growth of Heart frequency variability as in indicator for improvement of the adaptability (global fitness) of the organism’s internal and external stimulations. Peple with limited Heart frequency variability experience this as stress and as a behaviour between the momentary needs (diagonal signals) on one hand and disposal of the existing valuable possibilities on the other hand. According to proff. Mihael Mik-Weiman, Heart frequency variability presents “a global indicator for the trembling ability (resonance) and adabtability of the bio-psychical-social functioning circles between the organism and the environment”. Harmonization of the fields with harmful influences on the environment, in the living and working places, can lead to improvement in the measurement minutes and also in the Heart frequency variability, that contributes to greater capability of the examinee, as the abovementioned measurements present. Heart frequency variability describes heart ability changes, time interval of the heartbeats and their fast and flexible correspondence. In that case they are one general measure for the general ability of the organism’s correspondance with the internal and external influences.
Control mechanisms for decreasing the weakly biological and disturbing effect of the information from the fields with harmful influence on the organism are: Decrease in the spectrum of RR-intervals (IBI – normal to normal), that requires getting to a normal state of the vegetative balance of the organism based on the momentary internal and external influence of the organism. Decrease in the obstruction of the examinees is in relation with the development of heartbeats monitored during equal checking periods. Decrease in the total power of all components of the vegetative nervous system - T F P [ms2]. Decrease in the number of consecutive heartbeat pairs, which notice a difference of more than 50 ms.
4.5.1. C riteria for meas urement values of heartbeats variability for the main group Control cycle 1: development of Heart Frequency Variability criteria –main group Examinees nn50 Examinee 1 0,00 Examinee 2 0,00 Examinee 3 241,00 Examinee 6 27,00 Examinee 7 0,00 Examinee 10 1,00 Examinee 11 136,00 Examinee 14 38,00 Examinee 15 127,00 Examinee 18 0,00 Examinee 19 0,00 MV 51,82
TFP 680,30 445,50 5.651,50 63.461,50 469,00 792,90 6.399,40 4.581,40 7.888,10 242,40 296,80 8.264,44
NN Min 774,00 868,00 758,00 766,00 969,00 524,00 688,00 586,00 719,00 750,00 711,00 737,55
NN Max 907,00 985,00 1.086,00 1.500,00 1.047,00 680,00 1.063,00 899,00 1.024,00 844,00 821,00 986,91
NN MW 849,47 922,11 919,67 995,26 1.011,31 602,99 905,43 752,80 898,13 802,93 750,92 855,55
Control cycle 2: development of Heart Frequency Variability criteria –main group Examinees nn50 Examinee 1 172,00 Examinee 2 28,00 Examinee 3 97,00 Examinee 6 9,00 Examinee 7 45,00 Examinee 10 0,00 Examinee 11 42,00 Examinee 14 141,00 Examinee 15 72,00 Examinee Л 18 1,00 Examinee 19 0,00 MV 55,18
TFP 2.643,30 1.476,60 2.400,50 894,60 1.273,70 955,20 1.483,70 16.231,70 2.564,10 544,10 806,40 2.843,08
NN Min 782,00 907,00 735,00 719,00 1.032,00 571,00 844,00 688,00 672,00 750,00 766,00 769,64
NN Max 1.079,00 1.086,00 993,00 938,00 1.180,00 727,00 1.016,00 1.126,00 922,00 852,00 938,00 987,00
NN MW 918,02 1.001,27 878,88 783,01 1.106,07 643,57 921,62 957,32 829,89 803,88 838,38 880,17
Control cycle 3: development of Heart Frequency Variability criteria –main group Examinee Examinee 1 Examinee 2 Examinee 3 Examinee 6 Examinee 7 Examinee 10 Examinee 11 Examinee 14 Examinee 15 Examinee 18 Examinee 19 MV
nn50 0,00 0,00 10,00 19,00 33,00 2,00 95,00 6,00 151,00 13,00 0,00 29,91
TFP 1.335,40 744,50 1.739,90 1.648,60 1.041,10 1.988,60 3.094,70 2.895,50 4.459,10 571,80 581,50 1.827,34
NN Min 696,00 829,00 782,00 766,00 993,00 563,00 743,00 555,00 782,00 805,00 641,00 741,36
NN Max 868,00 961,00 946,00 891,00 1.141,00 790,00 961,00 813,00 1.032,00 946,00 735,00 916,73
NN MW 788,26 886,90 877,23 839,56 1.084,08 651,42 878,63 673,84 919,72 889,60 698,21 835,22
Control cycle 4: development of Heart Frequency Variability criteria –main group Examinees nn50 TFP NN Min NN Max NN MW Examinee 1 9,00 1.447,50 758,00 907,00 834,26 Examinee 2 0,00 724,80 750,00 876,00 814,94 Examinee 3 0,00 415,00 766,00 836,00 797,35 Examinee 6 6,00 3.614,40 680,00 883,00 774,34 Examinee 7 87,00 1.331,40 1.063,00 1.196,00 1.129,92 Examinee 10 3,00 533,50 516,00 688,00 598,10 Examinee 11 88,00 4.039,70 696,00 938,00 828,47 Examinee 14 94,00 8.365,40 672,00 1.024,00 869,36 Examinee 15 109,00 3.797,10 750,00 1.008,00 907,92 Examinee 18 1,00 959,00 868,00 977,00 932,13 Examinee 19 0,00 409,20 688,00 782,00 739,41 MV 36,09 2.330,64 746,09 919,55 838,75
Conclusion development of Heart Frequency Variability criteria –main group Examinees Control cycle 1 Control cycle 2 Control cycle 3 Control cycle 4 MV
nn50 51,82 55,18 29,91 36,09 45,64
TFP 8.264,44 2.843,08 1.827,34 2.330,64 4.311,62
NNmin 737,55 769,64 741,36 746,09 749,52
NNMax 986,91 987,00 916,73 919,55 963,55
NN MW 855,55 880,17 835,22 838,75 856,98
The total obstruction of the nervous system (TFP) from the main group examinees is decreasing by the usage of ” P X D Biopyramid“ . The total spectral еnergy (TFP) is interpreted as a measure for the influence of the vegetative and circular heart system. The total obstruction up to 6.000 ms2 is treated as “a normal state”, and in the opposite direction, the TFP-values are treated as “stiffness of the heart frequency”. Table presentation of the results from this research is discussed at the end of the conclusion from the chart measurement data.
4.5.2. C riteria for meas urement values of heartbeats variability for the c ontrol group Control cycle
1: Development of Heart Frequency Variability criteria – control group
Examinees Examinee 4 Examinee 5 Examinee 8 Examinee 9 Examinee 12 Examinee 13 Examinee 16 Examinee 17 Examinee 20 Examinee 21 Examinee 22 MV
nn50 0,00 14,00 151,00 117,00 16,00 156,00 0,00 24,00 117,00 25,00 69,00 62,64
TFP 461,90 1.072,20 9.905,00 3.581,20 2.379,10 5.216,60 1.740,10 5.353,70 1.638,20 1.425,20 3.201,50 3.270,43
NN Min NN Max NN MW 602,00 696,00 643,49 555,00 696,00 626,56 1.063,00 1.383,00 1.220,00 993,00 1.266,00 1.094,51 727,00 883,00 805,83 641,00 907,00 757,19 735,00 915,00 835,37 672,00 938,00 831,69 852,00 1.071,00 965,60 610,00 836,00 705,06 461,00 782,00 571,38 719,18 943,00 823,33
Control cycle 2: Development of Heart Frequency Variability criteria – control group Examinees nn50 TFP NN Min NN Max NN MW EXAMINEE 4 7,00 610,50 633,00 743,00 675,74 EXAMINEE 5 2,00 621,50 625,00 766,00 690,58 EXAMINEE 8 86,00 6.983,90 1.000,00 1.227,00 1.136,71 EXAMINEE 9 47,00 3.030,90 946,00 1.118,00 1.015,72 EXAMINEE 12 12,00 1.376,70 649,00 821,00 746,17 EXAMINEE 13 23,00 5.032,40 727,00 946,00 805,59 EXAMINEE 16 12,00 2.795,30 750,00 977,00 880,27 EXAMINEE 17 98,00 3.571,60 672,00 1.047,00 896,00 EXAMINEE 20 15,00 1.659,60 977,00 1.172,00 1.069,98 EXAMINEE 21 4,00 398,20 571,00 672,00 622,16 EXAMINEE 22 75,00 6.120,10 438,00 868,00 554,61 MV 34,64 2.927,34 726,18 941,55 826,68 Control cycle 3: Development of Heart Frequency Variability criteria – control group Examinee nn50 TFP NN Min NN Max NN MW EXAMINEE 4 0,00 426,50 563,00 641,00 604,35 EXAMINEE 5 10,00 1.992,80 532,00 696,00 595,41 EXAMINEE 8 112,00 6.750,30 1.102,00 1.485,00 1.286,24 EXAMINEE 9 70,00 2.739,90 997,00 1.133,00 1.062,01 EXAMINEE 12 31,00 37.133,60 704,00 915,00 798,04 EXAMINEE 13 37,00 3.317,10 704,00 868,00 777,57 EXAMINEE 16 22,00 1.740,10 665,00 860,00 777,41 EXAMINEE 17 77,00 16.868,30 594,00 1.008,00 738,28 EXAMINEE 20 143,00 2.869,50 1.055,00 1.305,00 1.196,15 EXAMINEE 21 6,00 1.311,20 618,00 750,00 677,87 EXAMINEE 22 164,00 11.934,10 508,00 922,00 699,02 MV 61,09 7.916,67 731,09 962,09 837,49 Control cycle 4: Development of Heart Frequency Variability criteria – control group Examinee nn50 TFP NN Min NN Max NN MW EXAMINEE 4 0,00 169,70 532,00 594,00 565,93 EXAMINEE 5 0,00 455,10 532,00 633,00 579,19 EXAMINEE 8 55,00 1.851,80 1.125,00 1.329,00 1.243,00 EXAMINEE 9 94,00 4.809,40 1.032,00 1.235,00 1.140,75 EXAMINEE 12 26,00 2.430,00 618,00 774,00 718,16 EXAMINEE 13 37,00 3.025,40 719,00 907,00 795,73 EXAMINEE 16 2,00 613,50 641,00 844,00 727,13 EXAMINEE 17 44,00 5.683,90 657,00 1.016,00 887,82 EXAMINEE 20 131,00 5.521,60 1.071,00 1.336,00 1.210,10 EXAMINEE 21 250,00 17.467,60 665,00 1.047,00 850,70 EXAMINEE 22 143,00 6.948,40 461,00 797,00 608,43 MV 71,09 4.452,40 732,09 955,64 847,90
Conclusion: Development of Heart Frequency Variability criteria – control group Examinee Control cycle 1 Control cycle 2 Control cycle 3 Control cycle 4 MV
nn50 62,64 34,64 61,09 71,09 52,79
TFP 3.270,43 2.927,34 7.916,67 4.452,40 4.704,81
NN Min 719,18 726,18 731,09 732,09 725,48
NN Max 943,00 941,55 962,09 955,64 948,88
NN MW 823,33 826,68 837,49 847,90 829,17
Table presented measurement data are also graphically presented and evaluated according to the following criteria: Decrease of the total spectrum of RR-Intervals through the development of middle heartbeats length, The development of total obstruction of vegetative nervous system (TFP) consequence of the possible changes during external influences,
as a
Development of the consecutive heartbeat pairs (nn50), which points out to a difference of more than 50 ms. 4.5.3. G raphic pres entation of the heartbeat middle length development within the main and c ontrol group examinees Review od measurement values: Measurement values of heartbeats middle length Cycle MG CG Control cycle 1 855,55 823,33 Control cycle 2 880,17 826,68 Control cycle 3 835,22 837,49 Control cycle 4 838,75 847,90 MV 856,98 829,17
“PXD Biopyramid” Study – Development of heartbeat middle length of the main and control group
Development of heartbeats middle length affects the grouth or decrease of the spectrum of RR-Interval (IBI- normal to normal), which is necessary to correct the vegetative balance of the organism on the basis of the momentary internal and external influence. As it is presented on the graph, the clear optical decreases of the heartbeats middle length through the main group examinees is exlained by the decreases of the external influence through the biological influence of “PXD Biopyramid”. The trend line of the main group examinees is decreasing during the checking period. Within the control group examinees there is a constant upward flow of the heartbeats middle length in all control cycles. 4.5.4. G raphic pres entation of development of total reac tion of the vegetative nervous s ys tem within the main and c ontrol group ex aminees (TF P ) The sum of the obstruction of certain sympathetic and parasympathetic components of the vegetative nervous system is presenting as -Total Power- [ms2] which is necessary to maintain the momentary internal and external influence. A higher influence makes the necessary increase of the energy of the nervous system. Review of measurement values: Measurement values of the obstruction of 2 the vegetative nervous cycle TFP [ms ] Cycle main group control group Control cycle 1 8.264,44 3.270,43 Control cycle 2 2.843,08 2.927,34 Control cycle 3 1.827,34 7.916,67 Control cycle 4 2.330,64 4.452,40 MV 4.311,62 4.704,81
“PXD Biopyramid” Study – development of the vegetative nervous system total action
Total middle value of the vegetative nervous sytem within the main group examinees lies in the phase of neutral measurement of the valid normal values. By activating “PXD Biopyramid” there is a clear decreasing development of the total energy (TFP) within the main group examinees in the following control cycles. With the harmonizing effect of the information, there isn’t extremely high appereance of the total power for correction of the internal balance. Total obstruction of the vegetative nervous system within the control group examinees lies, in relation to the main group examinees during the period of neutral measurement, on a clearly low level. In the further testing period, the trend line of the total obstruction of the vegetative nervous system within the control group examinees, however, is increasing. The middle value in certain control phases till the end of the testing period lies in the level of the control measurement and is sporadically changing in accordance with the momentary obstruction. 4.5.5. G raphic pres entation of the number dec reas e c ons ec utive heartbeats pairs , whic h points out one differenc e > 50ms The equlalization of the internal balance to a more frequent interval leap requires higher obstruction, that is, the numbers of heartbeat pairs, which point out to a difference > 50ms are increasing. The programme of consecutive ISI differences is automatically eliminated. All measurement minutes are confirmed as clearing of the artefact of heartbeat variability data, as an upper limit that can accept a difference up to 25%. Heartbeat variability values from the manual fiels of the artefacts also do not affect the evaluation. Generally, the stimulation of the parasympathetic nervous system has an effect with a secondary speed on the changes of heart activity and in this way it influences on the activity of heart rest. The increase of the activities of parasympathetic nervous system leads to slowing down and increase of the heartbeats. Contrary to this the sympathetic nervous system can only reacts by slow changes of the heartbeats. Long-term biological reacts through electromagnetic smog or geo-biological fiels with harmful influences increase the activity of the sympathetic nernous system. In order to avoid this kind of stimulation sooner of later comes to changes of the normal value of rhythmic processes of the organism. In accordance with the reacting type of the people, different psychological effects which normally can have equal energetic cause are being examined. Review of measurement values: Measurement value nn50 Cycle main group control group Control cycle 1 51,82 62,64 Control cycle 2 55,18 34,64 Control cycle 3 29,91 61,09 Control cycle 4 36,09 71,09 MV 45,64 52,79
“PXD Biopyramid” Study – development of consecutive heartbeats > 50мs
Trend line of the development of consecutive heartbeat pairs with one difference in the length > 50ms which reffers to the main group examinees during the period of testing is clearly declining. Vegetative nervous system reacts with a declining balance as a consequence of the reduction in external influences through the “PXD Biopyramid”. Within the control group examinees during the period of testing there is increase in the trend line in the heartbeat pairs > 50ms. In accordance with the momentary obstruction of these heartbeats in the enviromnent of the examinees, the number of these heartbeats with a high interval leap during the control cycles of the testing period is changing.
5. Detailed review of the main and control group examinees measurement minutes 5.1. Previous comments The table presentation of measurement values and the graphic presentation as mathematically statistical model are of great importance for the harmonizing effect of “PXD Biopyramid”. Further, through posing the measurement minutes of comparable examinees from the main and control group we have to present the increase in optical conspicuousness of the alteration of biofeedback in different cycles of the research. During the process of decreasing in external influence through harmonizing fields of information we can pay particular attention to balancing of the curve direction of dermatological leading skin value or its temperature. Higher geometrical increase of these curves can be considered as a measurement of stress decrease. Basically, we must start from the following point, despite external influences such as fields with harmful influences we can rely on the “PXD Biopyramid” to harmonize the same, during which trere is a stress decrease in human organism. A spiritual or mental obstruction can also be the reasons. In the measurement minutes, this always influences the overall part of obstruction of the examinee. In the relatively short period of assessment of one month, the result of the changes from the process of feedback during the usage of “PXD Biopyramid” was very carefully monitored. During this period we could not take into consideration other obvious altered reactions to stress of examinees regarding their family and work problems. Four main group examinees felt a lot better from the usage and operating of “PXD Biopyramid”. The biological effect of the “PXD Biopyramid” can be confirmed in radius of seven metres height in the buildings (two storeyed building). The following presentation of measurement minutes of comparable examinees from the main and control group determines the optical comparison of alterations in the geometrical flow of feedback process of dermatological leading skin value and its temperature during all control cycles and assessment periods.
5.2. Comparation of measurement minutes at main and control group male examinees Examinee 10 – male, main group, control cycle1
Examinee 12 - male, control group, control cycle 1
Examinee 10 – male, main group, control cycle 2
Examinee 12 – male, control group, control cycle 2
Examinee 10 – male, main group, control cycle 3
Examinee 12 – male, control group, control cycle 3
Examinee 10 – male, main group, control cycle 4
Examinee 12 – male, control group, control cycle 4
The middle dermatological leading value of 10 examinees from the main group was relatively high with 3,85 µSiemens and throughout the curve in control cycle 1 (neutral measurement) from the extreme fluctuations. By using “PXD Biopyramid” from control cycle 2, there is a clear optical harmonization of extreme fluctuations in the dermatological leading value curve. Stress potential for 10 examinees from the main group slowly mitigates. In control cycle 4, the middle dermatological value is 1,04 µSiemens, which leads to decrease in stress for 73% to the neutral value. The spontaneous fluctuation in control cycle 4 was caused by mutual punching of the legs of the examinees. The geometrical flow of skin temperature curve is harmonized in control cycle 2, which indicates harmonizing effect to the geo-biological field with harmful influence. The comparable dermatological leading values of 12 examinees from the male group of the control group in all control cycles flows fairly sporadically and by the end of the research period was imprinted by countinuously same fluctuations. Dermatological leading value of the examinees during the research period did not allow Placebo effect. The skin temperature curve for the group of 12 examinees in all control cycles remained relatively constant. 5.3. Comparation of measurement minutes for main and control group female examinees Examinee 7 – female, main group, control cycle 1
Examinee 22 – female, control group, control cycle 1
Examinee 7 – female, main group, control cycle 2
Examinee 22 – female, control group, control cycle 2
Examinee 7- female, main group, control cycle 3
Examinee 22 – female, control group, control cycle 3
Examinee 7- female, main group, control cycle 4
Examinee 22 – female, control group, control cycle 4
The middle dermatological leading value of 7 examinees from the main group, in separate control cycles is continuously decreasing, that is, there is a reduction in stress potential of 56,5% by decreasing external influence through the usage of “PXD Bipyramid” during the research period. Within the neautral measurement of the dermatological leading value curve, spontaneous fluctuations in the following control cycles were significantly decreased. The geometrical flow of skin temperature curve remains constant during the reseach. The 7 examinees from the main group are feeling better during the maintanance of constant skin temperature. For the comparable female control group examinee 22, the dermatological leading value remains on a relatively identical level in all control cycles. The flow of the dermatological curve is clearly imprinted until the end of the research period of the spontaneous fluctuation. The skin temperature curve for the 22 examinees from the female group of the control group flows relatively harmonious in all 4 control cycles, the female examines are more sensitive to the effect of geo-biological field with harmful influence. During comparison of the measurement protocols of the main and control group examinees, and especially during examining the development of the dermatological leading value curve, the harmonizing effect of “PXD Biopyramid” in all 4 control cycles can be optically presented.
6. Dis c us s ion This study observes the influence of the “PXD Biopyramid”, in same proportions, on human bio-field and inner balance of the human organism in the environment during simultaneous ongoing irritation caused by electromagnetic radiation and geo-biological fields with harmful influece. During the assessment of the problem posing, we turned back to the psycho-physiological instruments which are utilized in scientific research of stress and relaxation. This study is carried out according to scientific principles of an anonymous research. During the research it was shown that regarding the problem of decreasing the external obstruction of examinees’ organisms, the usage of “PXD Biopyramid” reacted positively. The following issues could be concluden in detail: Dermatological leading value: The dermatological leading value presents the stress potential of the human organism, decreased dermatological leading value witnesses harmonization during obstruction of human organism. Besides the clear statistical measurement values with high priority, the geometrical curve flows as measurement values for inner balance must be outlined. Middle decrease in stress potential for all main group examinees during the research is 35%, trend line of protocol middle dermatological leading values for the main group examinees has one clear descending tendency. Within the main group examinees, there is a spontaneous dermatological leading value of the momentary obstruction. In control cycle 3, the dermatological leading value increases the protocol neutral measurement. One Placebo effect can be concluded from the measurement results. Skin temperature Development of skin temperature is in correlation with different factors such as climate, room temperature, as well as blood circulation. Increased skin temperature leads to a pleasant feeling. Relatively constant skin temperature allows equalized balance of the participant with his/her vegetative nervous system. The decreased curves of the middle skin temperature of the main group examinees and the increased trend line lead to a pleasant feeling incited by the usage of “PXD Biopyramid”.
Heartbeats : Regarding the harmonization of spontaneous changes in internal and external obstruction, the signal of heartbeats (beats/minute) reacts during one control cycle. Constant equalization of organism’s balance within the scope of fields with harmful influences, can lead to a long-term cange of heartbeats, and thus stimulation of the vegetative nervous sustem. Development of heartbeats is in relation with changes of heartbeats variability. Basically, there are two types of reaction regarding long-term stimulation through electromagnetic radiation and geo-biological fields with harmful influences. Both reactions are typical stress responses of healthy organism, which during long-term existance can lead to different pathologen diseases. The development of heartbeats is devided and researched according to two types of reaction. In the main group examinees with heartbeats < 80 beats per minute a clear trend of development towards the direction of normal value could be confirmed. By decreasing the obstruction while using “PXD Biopyramid”, the necessary effects of rhythmical processes of body management are possible. For the type of reaction with heartbeats > 80 beats per minute this effect could not be clearly performed by this testing. The reason was the existence of small number of people with this type of reaction.
Necessary blood quantity The increase of the necessary blood quantity with the decrease of external obstruction affects the connecting of cells with nutriments and essential materials. The increase of the necessary blood quantity reduces both the possibility for getting heart diseases and the central meaning for maintaning healthy organism. In connection to the testing of harmonizing products, a microcopy of the dark field according to Proff. Enderlain can be obtained. The trend line of the middle necessary blood quantity is on an upward line in both tested groups. The necessary blood quantity in the main group examinees by using “PXD Biopyramid” in the total testing period moves at least at the same level as of the neutral measuring, while in the 4th control cycle it shows upward trend. (20%) The middle necessary blood quantity in the control group examinees is with a spontaneous flow, and afterwards follow its declines. This tendency is basically due to the small number of examinees with extremely changeable blood pressure.
Criteria of heartbeats variability The following criteria of heartbeats variability are important for the cause of harmonizing effect of “PXD Biopyramid”. o Decrease in the spectrum of RR-intervals (IBI – normal to normal), o Decrease of the total energy of all components of the vegetative nervous system. [ms2], o Decrease of the consecutive number of heartbeat pairs, which have a difference of more than 50 ms, The grouth of momentary obstruction enables a wide spectrum of RR-intervals which are necessary for equalization of the internal balance, otherwise decrease of RR-intervals (IBI-flow) and closing of the influence harmonization is enabled. влијанието.
IBI flow during obstruction IBI flow with reduced stress
The middle length of heartbeats of the main group examinees is decreasing, and also the spectrum of theRR- intervals during the testing period, while the trend line of the middle value of heartbeats length has a decreasing tendency. а тестираните лица од главната групнамалува, а со тоа и спектарот на RR-интервалите во периодот на тестирањето, а линијата насрената вредност на должината на срцевите отчукувања имаат надолна тенденција. Within the control group examinees there is a grouth of the heartbeats middle length in all control cycles during the testing period. The middle total energy of the vegetative nervous system within the main group examinees, in the phase of neutral measuring, is above the valid normal values. By using the “PXD Biopyramid there is a clear decreasing line of the total energy - Total Power (TFP) within the main group examinees in the following control cycles. The harmonizing effect of the “PXD Biopyramid” reacts by decreasing the extremely high total energy in a direction towards the normal values. The middle energy of the vegetative nervous system within the control group examinees,
starting from a clearly low level during the testing period is on an upward line. The middle value of certain control phases is sporadically chancing in accordance with the momentary influence.
The trend line of the development of heartbeat pairs with difference in the length more than 50ms for the examinees from the main group during the testing is clearly declining. The usage of “PXD Biopyramid” presents only a small expence for maintaining the necessary balance of the vegetative nervous system. The trend line of the development of consecutive heartbeat pairs with a difference > 50ms within the control group examinees during the tesing period is on an upward line.
Conclusion: The results of this scientific principle carried out as an anonymous analysis has confirmed the effects of “PXD Biopyramid” for the equalizing of inner balance of the organism. Placebo effect could not be confirmed within the control group examinees. Upon the results of this research the usage of “PXD Biopyramid” is recommended for decreasing of external influences including electrosmog and geo-biological fields with harmful influence in living and working places. The requests of the International Society for Electromagnetic smog Research IGEF for evaluation by IGEF seal >Proved and recommended by IGEF< are fully satisfied.
Schleusingen, 22.03.2007
Wulf Ditrix Roze Manager of IGEF Certification
Paul Zomer Manager of IGEF laboratory
Appendix 1 Abbreviations and symbols
ca. MG HBV IBI CG m m2 Max Min ms ms2 MV NN NN Max NN Min NN MW nn50 ºC SD RR-interval TFP Examinee
Approximate value Main Group Heartbeats Variability Inter-beat intervals ControlGroup Meter Square meter Маximum Мinimum Мilisecond Меasuring unit for Total Frequecy Power (FTP) Middle Value Interval between two heartbeats (normal to normal) Maximum interval between two heartbeats Minimum interval between two heartbeats Middle Value of the interval between two heartbeats Number of pairs of neighbouring NN-intervals, which deviate one from another 50ms Degree Centigrade Standard Deviations Interval between two heartbeats (R-serration during EKG) Total Frequency Power Group of examinees
