nociception

Bedside to bench and back again, a path to translational pain research?

Pain has both a sensory and emotional component and is driven by activation of sensory neurones called nociceptors that are tuned to detect noxious stimuli in a process called nociception. Although nociception functions as a detect and protect mechanism. and is found in many organisms, this system becomes dysregulated in a number of conditions where chronic pain presents as a key symptom, for example osteoarthritis. Nociceptors do not innervate empty space though and do not act alone. Going beyond the neurone, other cell types, such as fibroblast-like synoviocytes interact with and modify the function of nociceptors, which is likely a key contributor to the chronification of pain. In this talk, I will look at how combining pre-clinical mouse work with human tissue and genetics might provide a way to accelerate new analgesics from bench to bedside, giving examples from our work in joint pain, bowel pain and labour pain.

Deciphering the Dynamics of the Unconscious Brain Under General Anesthesia

General anesthesia is a drug-induced, reversible condition comprised of five behavioral states: unconsciousness, amnesia (loss of memory), antinociception (loss of pain sensation), akinesia (immobility), and hemodynamic stability with control of the stress response. Our work shows that a primary mechanism through which anesthetics create these altered states of arousal is by initiating and maintaining highly structured oscillations. These oscillations impair communication among brain regions. We illustrate this effect by presenting findings from our human studies of general anesthesia using high-density EEG recordings and intracranial recordings. These studies have allowed us to give a detailed characterization of the neurophysiology of loss and recovery of consciousness due to propofol. We show how these dynamics change systematically with different anesthetic classes and with age. As a consequence, we have developed a principled, neuroscience-based paradigm for using the EEG to monitor the brain states of patients receiving general anesthesia. We demonstrate that the state of general anesthesia can be rapidly reversed by activating specific brain circuits. Finally, we demonstrate that the state of general anesthesia can be controlled using closed loop feedback control systems. The success of our research has depended critically on tight coupling of experiments, signal processing research and mathematical modeling.

Chemically-induced nociception in planaria and its regulation by morphine and other antinociceptive compounds

Exploring Pain and Nociception in a Valproate-induced mouse model of Autism Spectrum Disorder

Green light-induced antinociception involves descending modulation of mechanical sensitivity

Relationship between the activity of posterior insular cortical neurons and nociception in mice

FENS Forum 2024

A neural mechanism involved in the motivational suppression of feeding by nociception

Principles of Nociception in the Anterior Cingulate Cortex

Unravelling the Role of spinal Astrocytes in Nociception and Pain

Dual effect of anandamide and its endogenous precursor 20:4-NAPE on DRG neuronal excitability and nociception

FENS Forum 2024

Epigenetic modulation of burn injury-induced nociception in murine spinal cord

FENS Forum 2024

Influence of the balancing arm of the renin-angiotensin system on motivational behavior and nociception in mice

FENS Forum 2024