anelectrotonus (Meaning)
anelectrotonus (n.)
The condition of decreased irritability of a nerve in the region of the positive electrode or anode on the passage of a current of electricity through it.
Synonyms & Antonyms of anelectrotonus
No Synonyms and anytonyms found
anelectrotonus Sentence Examples
- The study focused on understanding the dynamics of anelectrotonus, exploring how neuronal excitability changes during subthreshold electrical stimulation.
- Researchers observed a gradual increase in membrane potential during anelectrotonus, indicating a modulation of the neuron's responsiveness.
- The phenomenon of anelectrotonus was evident as the membrane potential approached its new steady state in response to the applied electrical current.
- The neuron displayed altered firing patterns during anelectrotonus, highlighting the impact of subthreshold stimulation on cellular excitability.
- Anelectrotonus can be influenced by factors such as ion channel conductance, contributing to the complex dynamics of neuronal membrane potential.
- The electrophysiologists recorded the changes in action potential threshold during anelectrotonus to elucidate the underlying mechanisms.
- Experimental findings suggested that anelectrotonus plays a crucial role in shaping the input-output relationship of neurons.
- Neuroscientists investigated the temporal characteristics of anelectrotonus, revealing the time-dependent nature of the neuronal response to subthreshold stimuli.
- The modulation of anelectrotonus could be a potential target for neuromodulation therapies aimed at treating certain neurological disorders.
- Understanding the factors influencing anelectrotonus is essential for unraveling the intricacies of neuronal excitability and developing targeted interventions for neurological conditions.
FAQs About the word anelectrotonus
The condition of decreased irritability of a nerve in the region of the positive electrode or anode on the passage of a current of electricity through it.
No synonyms found.
No antonyms found.
The study focused on understanding the dynamics of anelectrotonus, exploring how neuronal excitability changes during subthreshold electrical stimulation.
Researchers observed a gradual increase in membrane potential during anelectrotonus, indicating a modulation of the neuron's responsiveness.
The phenomenon of anelectrotonus was evident as the membrane potential approached its new steady state in response to the applied electrical current.
The neuron displayed altered firing patterns during anelectrotonus, highlighting the impact of subthreshold stimulation on cellular excitability.