Bioelectric Phenomenona
Bioelectric Phenomenona
Bioelectric Phenomenona
BIOELECTROMAGNETISM
Bioelectromagnetism (discipline) examines electric, electromagnetic, and magnetic phenomena in biological tissues. These phenomena include:
The behavior of excitable tissue (the sources) The electric currents and potentials in the volume conductor The magnetic field at and beyond the body The response of excitable cells to electric and magnetic field stimulation The intrinsic electric and magnetic properties of the
BEN = bioengineering, BPH = biophysics, BEM = bioelectromagnetism, MPH = medical physics, MEN = medical engineering, MEL = medical electronics.
BIOELECTROMAGNETISM
Interdisciplinary fields that associate physics and engineering with medicine and biology
BIOELECTROMAGNETISM
Biophysics: solution of biological problems in terms of the concepts of physics. Bioengineering: engineering techs to the develop: Health care devices, analysis of biological systems etc. Biomedical engineering and Biochemical engineering (biotechnology) Biotechnology: microbiological process technology.
BIOELECTROMAGNETISM
Medical electronics: A division of biomedical engineering: electronic devices and methods in medicine. Medical physics: A science based upon physical problems in clinical medicine. Biomedical engineering: An engineering discipline concerned with the application of science and technology (devices and methods) to biology
BIOELECTROMAGNETISM
Maxwell's Equations
Bioelectricity,
Bioelectromagnetism (biomagnetism),
Biomagnetism. measurement of fields stimulation and magnetization,
Reciprocity
Bioelectric Phenomena
Nerve
cell
Neuron Cell
Ions may travel towards the concentration gradient created between ECM and ICM(Cytosol)
most ion channels are "gated", means that they allow regulated diffusion through the pore