electrogeny Sentence Examples
- Electrogeny is the branch of electrophysiology that deals with the generation of electric current in biological tissues.
- The study of electrogeny has led to important insights into the mechanisms of nerve and muscle function.
- Electrogeny is the process by which cells create an electric potential across their membranes.
- Electrogeny can occur through a variety of mechanisms, including ion channels, ion pumps, and redox reactions.
- Electrogeny is essential for many important cellular processes, such as nerve conduction, muscle contraction, and secretion.
- Defects in electrogeny can lead to a variety of diseases, such as epilepsy, arrhythmias, and muscular dystrophy.
- The study of electrogeny is helping to develop new treatments for these and other diseases.
- Electrogeny is a rapidly growing field of research, and new discoveries are being made all the time.
- The future of electrogeny is bright, and it is likely that this field will continue to play an important role in our understanding of biology and disease.
- Electrogeny is an important tool for studying the electrical properties of cells and tissues.
electrogeny Meaning
electrogeny (n.)
A term sometimes applied to the effects (tetanus) produced in the muscles of the limbs, when a current of electricity is passed along the spinal cord or nerves.
Synonyms & Antonyms of electrogeny
No Synonyms and anytonyms found
FAQs About the word electrogeny
A term sometimes applied to the effects (tetanus) produced in the muscles of the limbs, when a current of electricity is passed along the spinal cord or nerves.
No synonyms found.
No antonyms found.
Electrogeny is the branch of electrophysiology that deals with the generation of electric current in biological tissues.
The study of electrogeny has led to important insights into the mechanisms of nerve and muscle function.
Electrogeny is the process by which cells create an electric potential across their membranes.
Electrogeny can occur through a variety of mechanisms, including ion channels, ion pumps, and redox reactions.
