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Ciguatoxin is produced by Gambierdiscus toxicus, a type of dinoflagellate.The phenomenon occurs in the Caribbean Sea, Hawaii, and coastal Central America. The toxin usually accumulates in the skin, head, viscera, and roe of big reef fish like grouper, wrasse, triggerfish, lionfish, and amberjack.
Ciguatoxin 1 or CTX-1 is a toxic chemical compound, the most common and potent type in the group of ciguatoxins. It is a large molecule consisting of polycyclic polyethers that can be found in certain types of fish in the Pacific Ocean. The compound is produced by Dinoflagellates Gambierdiscus toxicus and is passed on through the food chain by ...
They act as the primary receptor in muscle for motor nerve-muscle communication which signals muscle contractions. [ 13 ] Under normal conditions, without the interference of depolarizing neuromuscular blockers, when depolarization is triggered, voltage-gated sodium channels are activated due to sensing the depolarization from the activation of ...
Hallmark symptoms of ciguatera in humans include gastrointestinal, cardiovascular, and neurological effects. [5] [6] Gastrointestinal symptoms include nausea, vomiting, and diarrhea, usually followed by neurological symptoms such as headaches, muscle aches, paresthesia, numbness of extremities, mouth and lips, reversal of hot and cold sensation, [7] [8] ataxia, vertigo, and hallucinations.
Signal transmission from nerve to muscle at the motor end plate. The neuromuscular junction is the synapse that is formed between an alpha motor neuron (α-MN) and the skeletal muscle fiber. In order for a muscle to contract, an action potential is first propagated down a nerve until it reaches the axon terminal of the motor neuron.
Scaritoxin, a potent toxic substance, is a ciguatoxin with molecular formula C 60 H 84 O 16. [1] Scaritoxin is also referred to as ciguaotoxin 4A, CTX4A. [1] Like other ciguatoxins, CTX4A is produced by dinoflagellate Gambierdiscus toxicus and isolated from poisonous fish.
The action potential in a normal skeletal muscle cell is similar to the action potential in neurons. [61] Action potentials result from the depolarization of the cell membrane (the sarcolemma), which opens voltage-sensitive sodium channels; these become inactivated and the membrane is repolarized through the outward current of potassium ions ...
This is due to depolarization of the muscle. Also, post-operative pain is associated with depolarizing blockers. The tetanic fade is the failure of muscles to maintain a fused tetany at sufficiently high frequencies of electrical stimulation. Non-depolarizing blockers have this effect on patients, probably by an effect on presynaptic receptors ...