P Boadas-Vaello1, S Castany1, J Homs1,2, B Álvarez-Pérez1, M Deulofeu1, E Verdú1. 1. Research Group of Clinical Anatomy, Embryology and Neuroscience (NEOMA), Department of Medical Sciences, Universitat de Girona, Girona, Spain. 2. Department of Physical Therapy, EUSES - Universitat de Girona, Girona, Spain.
Abstract
STUDY DESIGN: This is a narrative review of the literature. OBJECTIVES: This review aims to be useful in identifying therapeutic targets. It focuses on the molecular and biochemical neuroplasticity changes that occur in the somatosensory system, including ascending and descending pathways, during the development of neuropathic pain. Furthermore, it highlights the latest experimental strategies, based on the changes reported in the damaged nociceptive neurons during neuropathic pain states. SETTING: This study was conducted in Girona, Catalonia, Spain. METHODS: A MEDLINE search was performed using the following terms: descending pain pathways; ascending pain pathways; central sensitization; molecular pain; and neuropathic pain pharmacological treatment. RESULTS AND CONCLUSION: Neuropathic pain triggered by traumatic lesions leads to sensitization and hyperexcitability of nociceptors and projection neurons of the dorsal horn, a strengthening in the descendent excitatory pathway and an inhibition of the descending inhibitory pathway of pain. These functional events are associated with molecular plastic changes such as overexpression of voltage-gated ion channels, algogen-sensitive receptors and synthesis of several neurotransmitters. Molecular studies on the plastic changes in the nociceptive somatosensory system enable the development of new pharmacological treatments against neuropathic pain, with higher specificity and effectiveness than classical drug treatments. Although research efforts have already focused on these aspects, additional research may be necessary to further explore the potential therapeutic targets in neuropathic pain involved in the neuroplasticity changes of neuropathological pathways from the injured somatosensory system.
STUDY DESIGN: This is a narrative review of the literature. OBJECTIVES: This review aims to be useful in identifying therapeutic targets. It focuses on the molecular and biochemical neuroplasticity changes that occur in the somatosensory system, including ascending and descending pathways, during the development of neuropathic pain. Furthermore, it highlights the latest experimental strategies, based on the changes reported in the damaged nociceptive neurons during neuropathic pain states. SETTING: This study was conducted in Girona, Catalonia, Spain. METHODS: A MEDLINE search was performed using the following terms: descending pain pathways; ascending pain pathways; central sensitization; molecular pain; and neuropathic pain pharmacological treatment. RESULTS AND CONCLUSION:Neuropathic pain triggered by traumatic lesions leads to sensitization and hyperexcitability of nociceptors and projection neurons of the dorsal horn, a strengthening in the descendent excitatory pathway and an inhibition of the descending inhibitory pathway of pain. These functional events are associated with molecular plastic changes such as overexpression of voltage-gated ion channels, algogen-sensitive receptors and synthesis of several neurotransmitters. Molecular studies on the plastic changes in the nociceptive somatosensory system enable the development of new pharmacological treatments against neuropathic pain, with higher specificity and effectiveness than classical drug treatments. Although research efforts have already focused on these aspects, additional research may be necessary to further explore the potential therapeutic targets in neuropathic pain involved in the neuroplasticity changes of neuropathological pathways from the injured somatosensory system.
Authors: Federica Frigerio; Corey Flynn; Ye Han; Kyle Lyman; Joaquin N Lugo; Teresa Ravizza; Antoine Ghestem; Julika Pitsch; Albert Becker; Anne E Anderson; Annamaria Vezzani; Dane Chetkovich; Christophe Bernard Journal: Mol Neurobiol Date: 2018-02-09 Impact factor: 5.590
Authors: Soha J Chhaya; Daniel Quiros-Molina; Alessandra D Tamashiro-Orrego; John D Houlé; Megan Ryan Detloff Journal: J Neurotrauma Date: 2018-10-18 Impact factor: 5.269
Authors: Petr Dubový; Ilona Klusáková; Ivana Hradilová-Svíženská; Marek Joukal; Pere Boadas-Vaello Journal: Front Cell Neurosci Date: 2018-02-19 Impact factor: 5.505