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3 Fundamentals of the Formation of Biosignals
To analyse the electrodynamic potential changes on the surface of the body, an
understanding of the electrophysiological relationships of individual nerve or muscle
cells or the associations of such cells is required. These are investigated within the
framework of experimental neuro- and muscle physiology using invasive microelec-
trodes. Although the findings emerged from the interplay of theoretical and experi-
mental research, this section will introduce the physiological and relationships in an
electrical analogy. Experimental methods for measurement and common models used
are presented in section 3.2.
3.1.1 Formation and Function of Biomembranes
The cell membrane or biomembrane consists of a closed double layer of phospholipids
(cf. Figure 3.2), i.e. a chemical structure consisting of a phosphate group and one or
more hydrocarbon chains. Due to the amphiphilic¹¹ properties of the polar, hydrophilic
(water-attracting) head group and hydrophobic (fat-attracting) ends of phospholipids,
they form energetically favourable molecular aggregates (-associates), so-called asso-
ciation colloids in aqueous solutions, depending on concentration and temperature.
The phase separation is caused by the energetically favourable arrangements
between the negatively charged hydrophilic head groups and the polar water, as well
as by the contact avoidance of the water with the hydrophobic fatty acid-containing
ends by repulsive interaction. This process is called self-assembly.
Lipid bilayers, i.e. a parallel and facing arrangement of the hydrophobic ends
and a resulting membranous arrangement of the head groups on the two opposite
sides, occur at high lipid concentrations (cf. Figure 3.3). At a lower mass concentra-
tion, the critical micellar concentration (CMC) on the other hand, so-called micelles¹²
Phospholipid
Overlay
Phospholipid
Chemical Structure Phospholipid
CH2
CH3
R
C
C
C
CH2
CH2
CH3
CH3
CH3
CH2
H2C
H
H
O
O
O
O
O
P-
N+
O
R
O
-P
-P
Fig. 3.2: Phospholipid in simplified representation (left), with overlay of chemical structure (middle)
and as chemical structural formula (right).
11 From Greek amphis = both and philia = love, friendship; composite with polar (water-loving) head
groups and lipophilic (fat-loving) ends.
12 From Latin, mica. mica = lump, small morsel.