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Potassium channel subtypes potentially targeted by phytocannabinoid compounds for seizure control are illustrated. Enhanced potassium conductance could stabilize neuronal membrane potential.
Figure 343
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Receptors and Channels Possibly Mediating the Effects of Phytocannabinoids on Seizures and Epilepsy.Cite This Figure
![Figure 343: Potassium channel subtypes potentially targeted by phytocannabinoid compounds for seizure control are illustrated. Enhanced potassium conductance could stabilize neuronal membrane potential.]() > Source: Lara Senn et al. "Receptors and Channels Possibly Mediating the Effects of Phytocannabinoids on Se." *Pharmaceuticals (Basel, Switzerland)*, 2020. PMID: [32751761](https://pubmed.ncbi.nlm.nih.gov/32751761/)
<figure> <img src="" alt="Potassium channel subtypes potentially targeted by phytocannabinoid compounds for seizure control are illustrated. Enhanced potassium conductance could stabilize neuronal membrane potential." /> <figcaption>Figure 343. Potassium channel subtypes potentially targeted by phytocannabinoid compounds for seizure control are illustrated. Enhanced potassium conductance could stabilize neuronal membrane potential.<br> Source: Lara Senn et al. "Receptors and Channels Possibly Mediating the Effects of Phytocannabinoids on Se." <em>Pharmaceuticals (Basel, Switzerland)</em>, 2020. PMID: <a href="https://pubmed.ncbi.nlm.nih.gov/32751761/">32751761</a></figcaption> </figure>