Neurologists define the transmission of nerve impulses across the membranes of the neural cells as a result of difference in the concentration of ions while they measured an electric potential, called as an action pot...Neurologists define the transmission of nerve impulses across the membranes of the neural cells as a result of difference in the concentration of ions while they measured an electric potential, called as an action potential, which allows the propagation of such nerve impulses as electrical signals. Such measurements should guide them to a logical explanation of the nerve impulses as electric charges driven by the measured action potential. However, such logical conclusion, or explanation, is ignored due to a wrong definition of the flow of electric charges as a flow of electrons that cannot pass through neural networks. According to recent studies, electric charges are properly defined as electromagnetic (EM) waves whose energy is expressed as the product of its propagating electric potential times their entropy flow which is adhered to the flow of such energy. Such definition matches the logical conclusion of the nerve impulses as electric charges, as previously explained, and defines the entropy of the neural network, measured by Ammeters, in Watt or Joule/Volt. The measured entropy represents a neurodiagnostic property of the neural networks that measures its capacity to allow the flow of energy per unit action potential. Theoretical verification of the innovative definition of nerve impulses is presented by following an advanced entropy approach. A proper review of the machine records of the stimulating electric charges, used in the diagnosis of the neural networks, and the stimulated nerve impulses or stimulated responses, represents practical verifications of the innovative definitions of the electric charges and the nerve impulses. Comparing the functioning of the thermoelectric generators and the brain neurons, such neurons are defined as thermoelectric generators of the electric nerve impulses and their propagating, or action, potential.展开更多
细胞电泳技术可用于研究氟尿嘧啶(5FU),甲氨喋呤(MTX)和环磷酸胺(CP)等药物的电性,用戊二醛化绵羊红细胞(SRBC)为载体,分别吸附3种化疗药物,均可以导致细胞表面电荷下降致使电泳缓慢率为:5 FU 14.55%,MTX 13.77%,CP 12.21%,这3种药...细胞电泳技术可用于研究氟尿嘧啶(5FU),甲氨喋呤(MTX)和环磷酸胺(CP)等药物的电性,用戊二醛化绵羊红细胞(SRBC)为载体,分别吸附3种化疗药物,均可以导致细胞表面电荷下降致使电泳缓慢率为:5 FU 14.55%,MTX 13.77%,CP 12.21%,这3种药物均带正电荷,此研究对电化学疗法结合化疗治疗恶性肿瘤有参考价值。展开更多
文摘Neurologists define the transmission of nerve impulses across the membranes of the neural cells as a result of difference in the concentration of ions while they measured an electric potential, called as an action potential, which allows the propagation of such nerve impulses as electrical signals. Such measurements should guide them to a logical explanation of the nerve impulses as electric charges driven by the measured action potential. However, such logical conclusion, or explanation, is ignored due to a wrong definition of the flow of electric charges as a flow of electrons that cannot pass through neural networks. According to recent studies, electric charges are properly defined as electromagnetic (EM) waves whose energy is expressed as the product of its propagating electric potential times their entropy flow which is adhered to the flow of such energy. Such definition matches the logical conclusion of the nerve impulses as electric charges, as previously explained, and defines the entropy of the neural network, measured by Ammeters, in Watt or Joule/Volt. The measured entropy represents a neurodiagnostic property of the neural networks that measures its capacity to allow the flow of energy per unit action potential. Theoretical verification of the innovative definition of nerve impulses is presented by following an advanced entropy approach. A proper review of the machine records of the stimulating electric charges, used in the diagnosis of the neural networks, and the stimulated nerve impulses or stimulated responses, represents practical verifications of the innovative definitions of the electric charges and the nerve impulses. Comparing the functioning of the thermoelectric generators and the brain neurons, such neurons are defined as thermoelectric generators of the electric nerve impulses and their propagating, or action, potential.
文摘细胞电泳技术可用于研究氟尿嘧啶(5FU),甲氨喋呤(MTX)和环磷酸胺(CP)等药物的电性,用戊二醛化绵羊红细胞(SRBC)为载体,分别吸附3种化疗药物,均可以导致细胞表面电荷下降致使电泳缓慢率为:5 FU 14.55%,MTX 13.77%,CP 12.21%,这3种药物均带正电荷,此研究对电化学疗法结合化疗治疗恶性肿瘤有参考价值。