Bioelectricity in Morphogenesis
This narrative review discusses bioelectricity arising from membrane potentials and its role in morphogenesis beyond neural tissues. It reports that evidence supports bioelectric signals influencing embryonic development, tissue repair, and disease-related processes, and summarizes cellular mechanisms for generating and sensing these signals. The authors also highlight that potential health implications from natural and artificial electromagnetic fields warrant further scientific attention.
Key points
- Bioelectricity is described as arising from membrane potentials in cells enclosed by lipid bilayers.
- The review emphasizes bioelectric roles in non-neural contexts that are less consolidated in the literature.
- It states that evidence supports bioelectric signals influencing embryonic development, tissue repair, and disease states.
- The article reviews how cells generate and detect bioelectrical signals.
- It outlines mechanisms translating electrical stimuli into cellular responses affecting tissue morphogenesis.
- It notes that implications for health, including from natural and artificial EMF sources, require further attention.
Referenced studies & papers
Relevant papers in OpenMel
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AI-generated summaries may be incomplete or incorrect. This content is for informational purposes only and is not medical advice.
AI-generated summaries may be incomplete or incorrect. This content is for informational purposes only and is not medical advice.
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