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Cortical and brainstem mechanisms of pain: linking defensive responses, descending modulation, and affective-sensory integration

Pain is a multidimensional experience emerging from the coordinated activity of distributed neural circuits that integrate sensory, emotional, and cognitive information. The purpose of this review is to highlight and synthesise current understanding...

Key Findings

Pain is a multidimensional experience emerging from the coordinated activity of distributed neural circuits that integrate sensory, emotional, and cognitive information. The purpose of this review is to highlight and synthesise current understanding of the circuit mechanisms underlying ascending nociception and descending modulation of pain, with particular emphasis on brainstem areas and their involvement in shaping pain perception. We discuss how dysregulation of these control systems may contribute to persistent pain states. It is consistently demonstrated that pain is both a dynamic and context-dependent process, shaped by extensive bidirectional interactions within the central nervous system. In humans, nociceptive signals transmitted through spinal and trigeminal pathways engage brainstem and forebrain networks that generate protective behaviours and aversive subjective states, while descending modulatory systems exert powerful control over signal gain at early relay sites. Recent evidence asserts that this reciprocal organisation is what allows pain to be flexibly adjusted according to internal state, environmental threat, learning history, and behavioural priorities. Understanding the coordinated neural and behavioural responses that lead to typical pain processing, and which components of these myriad systems become maladaptive in clinical pain settings, is critical for optimising treatment selection to individual symptom profiles.

Why This Matters for Body-Mind Practice

[Draft — editorial context needed]

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