Recommendations for the Medical Use of Therapeutic Bee Beds in the Pyramid Based on Specific Criteria
Objective:
Conduct research on the impact of therapeutic bee beds in a pyramid as a result of the interaction between the biofields of bees and patients.
Task:
Development of scientifically based recommendations for determining the effectiveness of the therapeutic bee beds in the pyramid.
Prerequisites for Experimental Research:
- Quantitative measurement of the biofields of bees and patients.
- Determination of the temperament category of patients.
- Measurement of patients' parameters using cephalography and brain activity.
- Consideration of the geometry of the pyramid.
- Development of a schedule for conducting experimental studies with patients.
Experimental Research
The research algorithm consisted of three phases:
Phase "A": Preparation for the experiment;
Phase "B": Conducting the experiment;
Phase "C": Processing the results.
Phase "A"
The experiment involved 12 participants who had never used the therapeutic bee bed: six healthy individuals and six with functional disorders of the body (absence of nerve, gallbladder, cardiovascular diseases, etc.). At the Department of Biocybernetics and Aerospace Medicine, all 12 patients were measured for parameters assessing the psychophysiological state of the body under everyday conditions of residence, namely cephalography and brain activity levels, as well as the biofield level (see Table 1). Using developed methods, patients were classified into temperament categories to approximate their individual mental and physiological characteristics. The sequence and period of the experiment were determined by studying the interaction of human biofields and bees. During the experiment, the recommended time for a patient to lie on the therapeutic bee bed in a clean environment was 30 minutes in the morning and 30 minutes in the evening, followed by a one-day break. The pyramid is constructed based on the design of Egyptian pyramids. The corners of the pyramid are aligned with the cardinal directions. The pyramid itself is entirely made of natural materials, avoiding the use of metal constructions or synthetic materials. This design approach focuses on concentrating the biofield of bees onto the bed with patients, enhancing the therapeutic effect. The bed's construction within the pyramid is designed to simultaneously accommodate two individuals. The size of the pyramid allows for additional comfort for the experimenter during their stay in the pyramid. Due to the effects of electromagnetic waves on the bees' biofield, mobile phones were turned off during the experiment, and devices were operated using self-generated power.
Phase "B":
During the experiment, the patients were in contact with the biofield of bees for 30 minutes. In most cases, patients fell asleep within 10 minutes or altered their state of consciousness. This enabled the experiment to separate the psyche and physiology of individual human energy systems. This approach allowed for differentiation of physiological and mental parameters, which helped determine the initial phase of the therapy algorithm. Before and after each experiment, the biofield levels of the environment, the bees, and the patients were measured. The resulting biofield levels of selected patients were recorded over one day of experimentation (unit of measurement: bikam).
| Name | Level of bikam before staying in the pyramid | Level of bikam in the pyramid | Level of bikam after some time following the stay in the pyramid |
|---|---|---|---|
| Patient № 1 | 155 | 620 | 770 |
| Patient № 2 | 500 | 15000 | 16800 |
| Patient № 3 | 2300 | 18900 | 18500 |
| Patient № 4 | 1500 | 9000 | 13000 |
| Patient № 5 | 12000 | 23000 | 28000 |
| Patient № 6 | 8000 | 18100 | 26800 |
| Patient № 7 | 8000 | 18100 | 26800 |
| Patient № 8 | 19000 | 23000 | 28000 |
From the presented data, one can conclude an increase in the biofield levels of humans after staying in interaction with the biofield of bees, as well as the maintenance of these levels even after the session ends. All patients, without exception, noticed an improvement in their psychological and physical condition after staying on the therapeutic bed. Further research offers the possibility of using modern biomedical tools to evaluate the level of psychophysical states of patients before and after staying on the therapeutic bed.
Phase "C":
By implementing the algorithm of experimental studies, qualitative and quantitative data were obtained, which allowed medical personnel to prescribe treatment algorithms and recovery courses for patients. The results were processed and analyzed by comparing healthy patients with patients who had functional disorders. These patients were previously grouped according to their temperament categories. To contrast the psychophysiological changes in the organisms of patients during interaction with the biofield of bees, one parameter from the electroencephalogram was selected, namely the average spectral signal strength. Considering the control group of patients (without noticeable functional disorders) and patients with functional disorders of the body (e.g., cardiovascular system issues), the participants were selected based on one type of temperament—namely, sanguine. The graphs provided (Figure 1), derived from the channels of the electroencephalogram, illustrate the spectral signal strength of the brain at different stages: before staying in the pyramid and while in the pyramid. These graphs compare the patients of the control group with those suffering from functional disorders. The displayed graphs reveal changes in the spectral signal intensity parameter between the two patient groups before staying in the pyramid and during their stay inside it.
Figure 1
Graphs of the average spectral signal intensity of patients before entering the pyramid (a) and inside the pyramid (b). Black line: Control group, Red line: Group of patients with functional disorders.
The Figure 2 presents graphs comparing the changes in spectral intensity for a separate group of patients before and after staying in the pyramid. The displayed graphs demonstrate the changes in the spectral intensity parameter for each patient group at different stages of the experiments (before the pyramid and inside the pyramid), allowing for observation of the health condition changes.
Figure 2
(a) Average spectral signal intensity of patients from the control group and the group with functional disorders before the pyramid. (b) Average spectral signal intensity of patients from the control group and the group with functional disorders inside the pyramid. Black line: Before the pyramid, Red line: Inside the pyramid.
Based on the graphs, the signal power level of brain cortex signals increased during the interaction of both patient groups with the biofield of bees. For patients with functional disorders compared to healthy patients, a more significant increase in signal power levels was observed during their stay in the pyramid. This highlights the particular reaction of the biofields of patients with functional disorders to the influence of the biofield of bees. Figure 2b shows the differences in biofield changes for patients with functional disorders during their stay in the pyramid. The increase in the power of the signal spectrum at frequencies f1=25−45f1=25−45 Hz and f2=55−70f2=55−70Hz (with a frequency of 50 Hz functioning as the cutoff filter) corresponds to the gamma rhythm frequencies of the brain. The gamma rhythm is responsible for the rehabilitation of the human nervous system.
Summary:
- The experiment is recommended to be conducted in summer, one month after the start of pollen collection by bees, at an average temperature of t=23−25∘Ct=23−25∘C, with the defined average biofield level of the therapeutic bee bed at 7500 bikam.
- A method for assessing the psychophysiological state of humans was developed and proposed, effective for conducting medical procedures on the human body while considering the geometrical parameters of the pyramid.
- To determine the functional disorder of a specific individual, a procedure and treatment algorithm as part of a rehabilitation course were proposed.
- The most important results of the experimental research can serve as a basis for medical decision-making systems (recommendations for physicians).
Recommendations for Improving Experiment Results:
- To support the required level of effectiveness in using the developed method, the patient cohort should be expanded to include individuals with varying functional disorders.
- Conduct thorough experiments with different geometric dimensions of the pyramid, considering the biological type of bees.
- Determine the optimal level of bioenergetics in bees while taking their biological type into account.