Neuro Physical Mechanism Of Parkinson Disease Linked With Weak Electromagnetic Field of Subthalamic Nucleus Induced By Decreased Charging Effect Of Neurenteric Coil: Preliminary Experimental Study

" Although the neurophysical mechanism of subthalamic nucleus (STN) stimulation is still unclear, STN with decreasing electric field strength may be re-charged by battery. Vibrating electrically charged masses create a magnetic field, and vibrating magnetic masses create an electric field; It is known that these two areas form a unified area. The combined field energy created by the vibrations of the myenteric ganglia in the vibrating intestines charges the neural tissues they reach with afferent signals and may be stored there for using when needed. The substantia nigra and subthalamic nucleus plays important roles in movement modulation (1). Parkinson’s disease could begin at the bowel and spread to the basal ganglia and brain cortex secondary to abnormal brain-gut interactions (2-3). Iron deficiency anemia has also been responsible for STN degeneration in Parkinson’s disease and deep brain stimulation may modulate iron metabolism in basal ganglia (4-5). The vibrating electric field also creates a magnetic field. And these two fields charge the brain by acting as Einstein mentioned in his unified field theory (6). We think that the electromagnetic field weakened as a result of neurodegeneration in the STN due to the decreasing charge effect of this neurophysical waterfall, which weakens the production power in iron deficiency anemia, may be responsible for the movement disorder, and STN stimulation also acts by increasing this power. For this reason, we say that Fe(III), which has a magnetic effect, may act like a dynamo magnet in the intestines and production of unified field area in intestines." {Credits 1}

" Figure D shows partially reduced dendrites of glial cells and slightly deformed neurons in animals with moderate oscillation frequency; and in figure E, a large number of reduced dendrites and highly deformed neurons are observed in animals with low oscillation frequency." {Credits 1}

{Credits 1} 🎪 ydin M. , Karadağ M. K. , Şahin M. H. , Zeynal M. , Ahıskalıoğlu A. , Keleş O. N. , Özmen S. Neuro Physical Mechanism Of Parkinson Disease Linked With Weak Electromagnetic Field of Subthalamic Nucleus Induced By Decreased Charging Effect Of Neurenteric Coil: Preliminary Experimental Study. Atatürk Üniversitesi Tıp Fakültesi Cerrahi Tıp Bilimleri Dergisi. 2022; 1(3): 80-88. © 2022 the Author(s). This open access article is distributed under Creative Commons Attribution-NonCommercial 4.0 International License.