Whether or not this is true, ECT memory loss is not hard to believe. I don't mean that the mechanism is obvious (it isn't), but only that the result is not very surprising.
Neurons communicate via electric signals. There are multiple reasonnable ways to implement a memory based on that substrate, but the interface is almost certainly going to be through axons.
There must be a way, whatever it may be, to query and to alter the brain's memory through its interface. We don't have to know precisely how the system works to predict that fuzzing the interface might result in adverse effects.
That remains true whether the underlying storage is in the field, in synapses, a more complicated change in gene expression, or some other property of the cell.
There was a pretty fun Radiolab episode (https://www.wnycstudios.org/podcasts/radiolab/episodes/91569...) that suggested that the process of recall changes memories, and that they are susceptible to change while the memory is being recalled. I'm sure ECT is disruptive in many ways, including just through damage and toxicity to the cells. But, in your fuzzing idea--a hypothesis might be that recall is triggered, and while the memory is susceptible, it's disrupted permanently. Another possibility is that the memory is still there, but the proper mapping to it is lost. Reality is probably a combination of many factors.
Neurons communicate via electric signals. There are multiple reasonnable ways to implement a memory based on that substrate, but the interface is almost certainly going to be through axons.
There must be a way, whatever it may be, to query and to alter the brain's memory through its interface. We don't have to know precisely how the system works to predict that fuzzing the interface might result in adverse effects.
That remains true whether the underlying storage is in the field, in synapses, a more complicated change in gene expression, or some other property of the cell.