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9780521704632c11 CUFX213A/Peck 9780521618168 December 28, 2007 12:5
Section IICoredrugs in anaesthetic practiceVesicles storing
acetylcholineMyelin sheath of Schwann cellAcetylcholine receptorsAcetylcholinestearaseAcetylcholineAxon to A motor neuroneCH 3 — C— O— CH 2 — CH 2 — N(CH 3 ) 3
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OFigure 11.1.Neuromuscular junction and structure of acetylcholine.the prejunctional membrane and provide positive feedback to maintain transmitter
release during periods of high activity. When blocked by non-depolarizing muscle
relaxants they may be responsible for ‘fade’ (Figure11.3).
The ACh receptor ion channel is non-specific, allowing Na+,K+and Ca^2 +across
the membrane, generating a miniature end-plate potential. These summate until the
threshold potential is reached at which point voltage-gated Na+channels are opened,
causing a rapid depolarization, leading to the propagation of an action potential
across the muscle surface. On reaching the T tubular system, Ca^2 +is released from
the sarcoplasmic reticulum which initiates muscle contraction.Diet Recycled from the breakdown of AChCholine acetyl transferase (choline acetylase)Choline acetyl-coenzyme AACh coenzyme A
Figure 11.2.Synthesis of acetylcholine (ACh).