Central pain mechanisms following combined acid and capsaicin perfusion of the human oesophagus

Abstract Visceral afferents originating from different gut-segments converge at the spinal level. We hypothesized that chemically-induced hyperalgesia in the oesophagus could provoke widespread visceral hypersensitivity and also influence descending modulatory pain pathways. Fifteen healthy voluntee...

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Veröffentlicht in:	European journal of pain 2010-03, Vol.14 (3), p.273-281
Hauptverfasser:	Brock, Christina, Andresen, Trine, Frøkjær, Jens Brøndum, Gale, Jeremy, Olesen, Anne Estrup, Arendt-Nielsen, Lars, Drewes, Asbjørn Mohr
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Sprache:	eng
Schlagworte:	Acid Adult Analysis of Variance Anesthesia & Perioperative Care Body Temperature Capsaicin Capsaicin - administration & dosage Cerebral Cortex - physiopathology Electric Stimulation Electroencephalography Esophagus - drug effects Esophagus - physiopathology Evoked Potentials, Somatosensory - physiology Female Humans Hydrochloric Acid - administration & dosage Hyperalgesia - chemically induced Hyperalgesia - physiopathology Hypersensitivity Male Middle Aged Oesophagus Pain Pain - chemically induced Pain - physiopathology Pain Measurement Pain Medicine Pain Threshold - physiology Rectum Rectum - drug effects Rectum - physiopathology Sensitization
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container_title	European journal of pain
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description	Abstract Visceral afferents originating from different gut-segments converge at the spinal level. We hypothesized that chemically-induced hyperalgesia in the oesophagus could provoke widespread visceral hypersensitivity and also influence descending modulatory pain pathways. Fifteen healthy volunteers were studied at baseline, 30, 60 and 90 min after randomized perfusion of the distal oesophagus with either saline or 180 ml 0.1 M HCl + 2 mg capsaicin. Electro-stimulation of the oesophagus, 8 cm proximal to the perfusion site, rectosigmoid electrical stimulation and rectal mechanical and heat stimulations were used. Evoked brain potentials were recorded after electrical stimulations before and after oesophageal perfusion. After the perfusion, rectal hyperalgesia to heat ( P < 0.01, 37%) and mechanical ( P = 0.01, 11%) stimulations were demonstrated. In contrast, hypoalgesia to electro-stimulation was observed in both the oesophagus ( P < 0.03, 23%) and the sigmoid colon ( P < 0.001, 18%). Referred pain areas to electro-stimulation in oesophagus were reduced by 13% after perfusion ( P = 0.01). Evoked brain potentials to rectosigmoid stimulations showed decreased latencies and amplitudes of P1, N1 and P2 ( P < 0.05), whereas oesophagus-evoked brain potentials were unaffected after perfusion. In conclusion, modality-specific hyperalgesia was demonstrated in the lower gut following chemical sensitization of the oesophagus, reflecting widespread central hyperexcitability. Conversely, hypoalgesia to electrical stimulation, decreases in referred pain and latencies of evoked brain potentials was seen. This outcome may reflect a counterbalancing activation of descending inhibitory pathways. As these findings are also seen in the clinical setting, the model may be usable for future basic and pharmacological studies.
doi_str_mv	10.1016/j.ejpain.2009.05.013
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We hypothesized that chemically-induced hyperalgesia in the oesophagus could provoke widespread visceral hypersensitivity and also influence descending modulatory pain pathways. Fifteen healthy volunteers were studied at baseline, 30, 60 and 90 min after randomized perfusion of the distal oesophagus with either saline or 180 ml 0.1 M HCl + 2 mg capsaicin. Electro-stimulation of the oesophagus, 8 cm proximal to the perfusion site, rectosigmoid electrical stimulation and rectal mechanical and heat stimulations were used. Evoked brain potentials were recorded after electrical stimulations before and after oesophageal perfusion. After the perfusion, rectal hyperalgesia to heat ( P < 0.01, 37%) and mechanical ( P = 0.01, 11%) stimulations were demonstrated. In contrast, hypoalgesia to electro-stimulation was observed in both the oesophagus ( P < 0.03, 23%) and the sigmoid colon ( P < 0.001, 18%). Referred pain areas to electro-stimulation in oesophagus were reduced by 13% after perfusion ( P = 0.01). Evoked brain potentials to rectosigmoid stimulations showed decreased latencies and amplitudes of P1, N1 and P2 ( P < 0.05), whereas oesophagus-evoked brain potentials were unaffected after perfusion. In conclusion, modality-specific hyperalgesia was demonstrated in the lower gut following chemical sensitization of the oesophagus, reflecting widespread central hyperexcitability. Conversely, hypoalgesia to electrical stimulation, decreases in referred pain and latencies of evoked brain potentials was seen. This outcome may reflect a counterbalancing activation of descending inhibitory pathways. 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We hypothesized that chemically-induced hyperalgesia in the oesophagus could provoke widespread visceral hypersensitivity and also influence descending modulatory pain pathways. Fifteen healthy volunteers were studied at baseline, 30, 60 and 90 min after randomized perfusion of the distal oesophagus with either saline or 180 ml 0.1 M HCl + 2 mg capsaicin. Electro-stimulation of the oesophagus, 8 cm proximal to the perfusion site, rectosigmoid electrical stimulation and rectal mechanical and heat stimulations were used. Evoked brain potentials were recorded after electrical stimulations before and after oesophageal perfusion. After the perfusion, rectal hyperalgesia to heat ( P < 0.01, 37%) and mechanical ( P = 0.01, 11%) stimulations were demonstrated. In contrast, hypoalgesia to electro-stimulation was observed in both the oesophagus ( P < 0.03, 23%) and the sigmoid colon ( P < 0.001, 18%). Referred pain areas to electro-stimulation in oesophagus were reduced by 13% after perfusion ( P = 0.01). Evoked brain potentials to rectosigmoid stimulations showed decreased latencies and amplitudes of P1, N1 and P2 ( P < 0.05), whereas oesophagus-evoked brain potentials were unaffected after perfusion. In conclusion, modality-specific hyperalgesia was demonstrated in the lower gut following chemical sensitization of the oesophagus, reflecting widespread central hyperexcitability. Conversely, hypoalgesia to electrical stimulation, decreases in referred pain and latencies of evoked brain potentials was seen. This outcome may reflect a counterbalancing activation of descending inhibitory pathways. 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We hypothesized that chemically-induced hyperalgesia in the oesophagus could provoke widespread visceral hypersensitivity and also influence descending modulatory pain pathways. Fifteen healthy volunteers were studied at baseline, 30, 60 and 90 min after randomized perfusion of the distal oesophagus with either saline or 180 ml 0.1 M HCl + 2 mg capsaicin. Electro-stimulation of the oesophagus, 8 cm proximal to the perfusion site, rectosigmoid electrical stimulation and rectal mechanical and heat stimulations were used. Evoked brain potentials were recorded after electrical stimulations before and after oesophageal perfusion. After the perfusion, rectal hyperalgesia to heat ( P < 0.01, 37%) and mechanical ( P = 0.01, 11%) stimulations were demonstrated. In contrast, hypoalgesia to electro-stimulation was observed in both the oesophagus ( P < 0.03, 23%) and the sigmoid colon ( P < 0.001, 18%). Referred pain areas to electro-stimulation in oesophagus were reduced by 13% after perfusion ( P = 0.01). Evoked brain potentials to rectosigmoid stimulations showed decreased latencies and amplitudes of P1, N1 and P2 ( P < 0.05), whereas oesophagus-evoked brain potentials were unaffected after perfusion. In conclusion, modality-specific hyperalgesia was demonstrated in the lower gut following chemical sensitization of the oesophagus, reflecting widespread central hyperexcitability. Conversely, hypoalgesia to electrical stimulation, decreases in referred pain and latencies of evoked brain potentials was seen. This outcome may reflect a counterbalancing activation of descending inhibitory pathways. As these findings are also seen in the clinical setting, the model may be usable for future basic and pharmacological studies.</abstract><cop>Oxford, UK</cop><pub>Elsevier Ltd</pub><pmid>19541517</pmid><doi>10.1016/j.ejpain.2009.05.013</doi><tpages>9</tpages></addata></record>
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subjects	Acid Adult Analysis of Variance Anesthesia & Perioperative Care Body Temperature Capsaicin Capsaicin - administration & dosage Cerebral Cortex - physiopathology Electric Stimulation Electroencephalography Esophagus - drug effects Esophagus - physiopathology Evoked Potentials, Somatosensory - physiology Female Humans Hydrochloric Acid - administration & dosage Hyperalgesia - chemically induced Hyperalgesia - physiopathology Hypersensitivity Male Middle Aged Oesophagus Pain Pain - chemically induced Pain - physiopathology Pain Measurement Pain Medicine Pain Threshold - physiology Rectum Rectum - drug effects Rectum - physiopathology Sensitization
title	Central pain mechanisms following combined acid and capsaicin perfusion of the human oesophagus
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