Quantum energy levels of glutamate modulate neural biophotonic signals

Abstract: Glutamate is the most abundant excitatory neurotransmitter in the brain, and it plays an essential and important role in neural functions. Hypofunction of the glutamatergic pathway and the changes in the glutamate-glutamine cycle function are important neuropathological mechanisms of severe mental disorders including schizophrenia and depression. Current studies have shown that glutamate can induce neural biophotonic activity and transmission, which may involve the mechanism of photon quantum brain; however, i… Show more

“…By using different techniques, including the UBIS, we have demonstrated that the biophotonic activity can be transmitted along neural circuits and is associated with higher brain functions [7][8][9][10][11][12][13][14][15]; however, such findings based on the studies on in vitro brain tissues have not been further validated at the in vivo level, mainly due to the limitation of technology. Therefore, the establishment of this technique provides a new method for us to further study the biophoton emissions of in vivo brain related to the perception, transmission and integration of information, and it also provides a basis for the implementation of multimodal real-time biophoton monitoring of animal brain in vivo.…”

“…Biophoton is the short term of ultraweak photon emission (UPE), which is the light quantum radiated from the organisms spontaneously, and widely exists in animals, plants, microorganisms and other living organisms [1][2][3]. There have been many reports [4,5] on the early use of photomultiplier tubes (PMT) as detection technology to detect biophoton in different tissues, organs and cells of animals and plants, but the study of the relationship between biophoton and brain functions had been hampered by technical limitations, and a systematic study of biophoton related to brain functions was not possible until the in situ biophoton autoradiography and ultraweak biophoton imaging techniques were established [6][7][8][9][10][11][12][13][14][15]. However, current techniques can only be used at the in vitro level with perfused brain slices, and it has been technically difficult to detect biophoton in the brain of living animal.…”

<i>In Vivo </i> Imaging of Biophoton Emission in the Whole Brain of Mice

“…By using different techniques, including the UBIS, we have demonstrated that the biophotonic activity can be transmitted along neural circuits and is associated with higher brain functions [7][8][9][10][11][12][13][14][15]; however, such findings based on the studies on in vitro brain tissues have not been further validated at the in vivo level, mainly due to the limitation of technology. Therefore, the establishment of this technique provides a new method for us to further study the biophoton emissions of in vivo brain related to the perception, transmission and integration of information, and it also provides a basis for the implementation of multimodal real-time biophoton monitoring of animal brain in vivo.…”

“…Biophoton is the short term of ultraweak photon emission (UPE), which is the light quantum radiated from the organisms spontaneously, and widely exists in animals, plants, microorganisms and other living organisms [1][2][3]. There have been many reports [4,5] on the early use of photomultiplier tubes (PMT) as detection technology to detect biophoton in different tissues, organs and cells of animals and plants, but the study of the relationship between biophoton and brain functions had been hampered by technical limitations, and a systematic study of biophoton related to brain functions was not possible until the in situ biophoton autoradiography and ultraweak biophoton imaging techniques were established [6][7][8][9][10][11][12][13][14][15]. However, current techniques can only be used at the in vitro level with perfused brain slices, and it has been technically difficult to detect biophoton in the brain of living animal.…”

<i>In Vivo </i> Imaging of Biophoton Emission in the Whole Brain of Mice

“…Some potassium ions in the blood are excreted through the urine production process of the urinary system [24], and other secretions and sweat also contain a small amount of potassium ions. One possible reason why the kidney secretes a certain amount of potassium ions every day is that the kidney can selectively expel some potassium ions with low quantum energy levels from the body [25][26][27][28], which is only a speculative suggestion and may involve the scope of quantum biology because the kidney has selective filtration and reabsorption of some ions, such as potassium and sodium ions, etc., during the process of forming urine. Whether such a process is related to the quantum energy level of potassium ions needs to be studied.…”

Relative Deficiency of Intracellular Potassium in Relation to the Functional Changes and Diseases in Non-Nervous System