By Consultant Engineer: Haider Abduljabbar Al battat
Biological frequency is a term used in various contexts, but generally refers to the frequency that appears frequently in biological phenomena or processes of body cells!Cell frequencies are the natural rhythms that arise from electrical activities within cells and can usually be measured using modern techniques. Cell frequencies vary depending on the type of cell and its function!The frequency of individual cells can be determined and measured using various techniques, such as cellular electrical recording and time-lapse ion current imaging.In scientific research, sensitive devices are used to record precise electrical activity within the cell to measure changes in electrical voltage over time, allowing for the analysis of individual cell frequencies and understanding their electrical activities.
When it comes to bacteria, they are living organisms and differ from viruses. The cellular activity of bacteria can be measured, but not in the same way as live cell frequencies. Techniques like electrical analysis can be used to assess bacterial activity, but not in the same manner as with other live cells.Viruses, on the other hand, are not living organisms and do not possess frequencies like live cells or bacteria do, up to now. However, the impact of viruses on host cells can be measured by analyzing changes in cellular or protein activity. Thus, the effect of viruses on cells and the analysis of cellular activity changes can be determined, but they are not frequencies in the technical sense of the word.In the field of cell, bacteria, and virus frequencies, artificial intelligence (AI) can be used in several ways:Analysis and Prediction: AI can develop accurate predictive models to forecast frequencies and activity patterns of cells, bacteria, and viruses. This can help infectious disease physicians and scientists better understand the nature of infections and choose the most appropriate treatment.Diagnosis and Classification: AI can be used to improve the ability to diagnose infections and identify the type of virus or bacteria based on clinical and laboratory data.Genetic Analysis: AI can be used in genetic data analysis to understand changes in gene frequencies related to infection and immune response.Drug Design: AI can assist researchers in designing new drugs that target pathways affecting cell, bacteria, and virus frequencies.By using AI in these areas, we can improve our understanding of infectious diseases and develop more effective treatments.Analyzes that measure cellular frequencies can be used to distinguish between healthy cells and those infected with viruses or bacteria. Some research suggests that infected cells show changes in their biological frequencies due to the physical and chemical effects caused by the virus or bacteria.
For example, electrical or optical analyses can be used to measure changes in the electrical activity or light emitted by infected cells. Genetic analysis techniques can also be used to identify changes in gene frequencies related to infection. These techniques require further studies to be used in disease diagnosis in the clinical setting.Healthy gene frequencies for human cells can be stored in databases for use with artificial intelligence. This data can be utilized to develop predictive models or analyze genetic data from patients and compare it with healthy models for disease diagnosis and identification of associated factors. It’s important for this data to be collected ethically, with consideration for privacy and security, encrypted and well-protected to prevent unauthorized access. Data should be used in a manner that preserves patient privacy and ensures that it’s not exploited unlawfully.What has been presented above is an intellectual project aimed at achieving results that could lead to discovering a method for better and more accurate disease identification and diagnosis, with a success rate of 99%. This would make prescribing medication easier, thus ending the suffering of 99% of people who experience delays in disease diagnosis until their health deteriorates, ending the era of diagnostic medicine. We can develop this further by using frequency-based treatments harmonious with the frequencies produced by the genes of infected cells. Alternatively, we can modify genes and activate their function, rejuvenating cells in the human body, potentially restoring youthfulness to individuals.The foundation of the universe and humanity within it consists of vibrations and frequencies. Matter is confined radiation, and energy is unleashed radiation…
Haider Abduljabbar Al-Battat
April 11, 2024