Network Fragility: A Unified Computational Framework for Depression, Antidepressant Mechanisms, and Bipolar Progression

This volume brings together a series of interconnected studies united by a single core idea—that excessive synaptic pruning, driven by stress or episode recurrence, pushes neural networks past a critical threshold of fragility. From this foundation, the models explore how different antidepressant mechanisms interact with that fragile state: some merely stabilize remaining connections, others promote new growth, and a select few rebuild structural resilience capable of withstanding future stress. The framework further accounts for clinical phenomena long considered puzzling—rapid onset of ketamine’s effects, the risk of manic switches, cumulative scarring across mood episodes, and the kindling-like progression observed in bipolar disorder.

Perhaps most provocatively, the final contribution draws a parallel between psychiatric kindling and the progressive adversarial sensitization that emerges during the alignment of large language models—a reminder that principles of network destabilization may transcend biological substrates.

My hope is that these models do more than describe; I hope they provoke new experiments, refine treatment selection, and ultimately contribute to therapies that do not merely manage symptoms but repair the underlying architecture of vulnerability.