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

Control cycle 1 38,95 25,93 Control cycle 2 37,99 41,33 Control cycle 3 38,34 31,31 Control cycle 4 48,68 42,28

MV 40,99 35,22

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 XD 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.

“PXD Biopyranid” Study-development of the necessary middle value of blood quantity from the main and control group

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 - TFP [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 TFP NN Min NN Max NN MW Examinee 1 0,00 680,30 774,00 907,00 849,47 Examinee 2 0,00 445,50 868,00 985,00 922,11 Examinee 3 241,00 5.651,50 758,00 1.086,00 919,67 Examinee 6 27,00 63.461,50 766,00 1.500,00 995,26

Control cycle 4: development of Heart Frequency Variability criteria –main group

Conclusion development of Heart Frequency Variability criteria –main group Examinees nn50 TFP NNmin NNMax NN MW 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 control group

Control cycle 1: Development of Heart Frequency Variability criteria – control group

Control cycle 2: Development of Heart Frequency Variability criteria – control group 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 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 nn50 TFP

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) as a consequence of the possible changes during external influences,

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 control 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 examinees (TFP)

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 the vegetative nervous cycle TFP [ms²]

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

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 decreas e cons ecutive heartbeats pairs , which points out one difference > 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.

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.

“PXD Biopyramid” Study – development of consecutive heartbeats > 50мs

5. Detailed review of the main and control group examinees measurement minutes