Decoding Neural Circuit Dysregulation in Bipolar Disorder: Toward an Advanced Paradigm for Multidimensional Cognitive, Emotional, and Psychomotor Treatment

Bipolar disorder (BD) is characterized by a complex constellation of emotional, cognitive, and psychomotor disturbances, each deeply intertwined with underlying dysfunctions in large-scale brain networks and neurotransmitter systems. This manuscript integrates recent advances in neuroimaging, neuromodulation, and pharmacological research to provide a comprehensive view of BD's pathophysiology, emphasizing the role of network-specific dysfunctions and their clinical manifestations. We explore how dysregulation within the fronto-limbic network, particularly involving the prefrontal cortex (PFC) and amygdala, underpins the emotional instability that defines both manic and depressive episodes. Additionally, impairments in the central executive network (CEN) and default mode network (DMN) are linked to cognitive deficits, with hyperactivity in the DMN driving rumination and cognitive inflexibility, while CEN underactivity contributes to attentional lapses and impaired executive function. Psychomotor symptoms, which oscillate between hyperactivity in mania and retardation in depression, are closely associated with imbalances in neurotransmitter systems, particularly dopamine and serotonin, within the basal ganglia-thalamo-cortical motor pathway. Recent studies indicate that these psychomotor disturbances are further exacerbated by disruptions in network connectivity, leading to impairments in both motor control and emotional regulation. Emerging therapeutic strategies are discussed, with a focus on neuromodulation techniques such as transcranial magnetic stimulation (TMS) and deep brain stimulation (DBS), which show promise in restoring balance within these critical networks. Furthermore, pharmacological interventions that modulate synaptic functioning and neuronal plasticity offer potential for addressing both the emotional and motor symptoms of BD. This manuscript underscores the need for an integrative treatment approach that simultaneously targets neural circuits and neurotransmitter systems to address the full spectrum of symptoms in BD. Drawing on recent advancements in neurobiological models and therapeutic frameworks, this proposal outlines a pathway for the development of precision-tailored interventions. These approaches are designed to optimize cognitive, emotional, and psychomotor outcomes, ultimately striving to elevate the quality of life for individuals living with bipolar disorder (BD), while remaining firmly grounded in the latest empirical evidence and theoretical insights.