Effect of Remifentanil on Pain and Secondary Hyperalgesia Associated with the Heat–Capsaicin Sensitization Model in Healthy Volunteers

The heat--capsaicin sensitization model was developed as a noninvasive and noninjurious human experimental pain model. The sequential application of moderate intensity thermal and topical chemical stimuli produces stable and long-lasting areas of cutaneous secondary hyperalgesia. The aim of the pres...

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Published in	Anesthesiology (Philadelphia) Vol. 94; no. 1; pp. 15 - 20
Main Authors	Petersen, Karin L., Jones, Bruce, Segredo, Veronica, Dahl, Jørgen B., Rowbotham, Michael C.
Format	Journal Article
Language	English
Published	Hagerstown, MD Lippincott 01.01.2001
Subjects	Adult Analgesics Analgesics, Opioid - therapeutic use Biological and medical sciences Capsaicin - adverse effects Female Hot Temperature - adverse effects Humans Hyperalgesia - drug therapy Hyperalgesia - etiology Male Medical sciences Middle Aged Neuropharmacology Pain Measurement Pharmacology. Drug treatments Piperidines - therapeutic use Remifentanil Human Secondary Healthy subject Capsaicin Opiates Narcotic analgesic Remifentanil Hyperalgesia Analgesia Heat Chemotherapy Pain Treatment Models
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Abstract	The heat--capsaicin sensitization model was developed as a noninvasive and noninjurious human experimental pain model. The sequential application of moderate intensity thermal and topical chemical stimuli produces stable and long-lasting areas of cutaneous secondary hyperalgesia. The aim of the present study was to validate the heat--capsaicin sensitization model as a tool for testing analgesic drug efficacy. Responsivity of model-associated measures was tested with remifentanil, a potent and ultrashort acting mu-opioid agonist. Sensitization was induced by heating forearm skin with a thermode at 45 degrees C for 5 min, immediately followed by application of 0.075% capsaicin cream for 30 min. Sensitization was rekindled four times at 40-min intervals with the thermode at 40 degrees C for 5 min. After each rekindling, areas of secondary hyperalgesia were measured, and the painfulness of thermal stimulation in normal skin with 45 degrees C for 1 min (long thermal stimulation [LTS]) was rated. Before and during the second rekindling, remifentanil 0.10 microg x kg(-1) x min(-1) or saline-placebo was infused for 35 min. Infusion of remifentanil reduced the areas of secondary hyperalgesia to 29--30% of baseline size compared with 75--83% during placebo. Similarly, remifentanil reduced the painfulness of LTS to 29% of baseline severity compared with 84% during placebo. Areas of secondary hyperalgesia and LTS painfulness returned to baseline levels by the time of the third rekindling, demonstrating rapid disappearance of remifentanil analgesia and possibly transient spontaneous opioid withdrawal hyperalgesia. Using the heat-capsaicin sensitization model, opioid analgesia and suppression of secondary hyperalgesia was reliably demonstrated without skin injury.
AbstractList	The heat--capsaicin sensitization model was developed as a noninvasive and noninjurious human experimental pain model. The sequential application of moderate intensity thermal and topical chemical stimuli produces stable and long-lasting areas of cutaneous secondary hyperalgesia. The aim of the present study was to validate the heat--capsaicin sensitization model as a tool for testing analgesic drug efficacy. Responsivity of model-associated measures was tested with remifentanil, a potent and ultrashort acting mu-opioid agonist.BACKGROUNDThe heat--capsaicin sensitization model was developed as a noninvasive and noninjurious human experimental pain model. The sequential application of moderate intensity thermal and topical chemical stimuli produces stable and long-lasting areas of cutaneous secondary hyperalgesia. The aim of the present study was to validate the heat--capsaicin sensitization model as a tool for testing analgesic drug efficacy. Responsivity of model-associated measures was tested with remifentanil, a potent and ultrashort acting mu-opioid agonist.Sensitization was induced by heating forearm skin with a thermode at 45 degrees C for 5 min, immediately followed by application of 0.075% capsaicin cream for 30 min. Sensitization was rekindled four times at 40-min intervals with the thermode at 40 degrees C for 5 min. After each rekindling, areas of secondary hyperalgesia were measured, and the painfulness of thermal stimulation in normal skin with 45 degrees C for 1 min (long thermal stimulation [LTS]) was rated. Before and during the second rekindling, remifentanil 0.10 microg x kg(-1) x min(-1) or saline-placebo was infused for 35 min.METHODSSensitization was induced by heating forearm skin with a thermode at 45 degrees C for 5 min, immediately followed by application of 0.075% capsaicin cream for 30 min. Sensitization was rekindled four times at 40-min intervals with the thermode at 40 degrees C for 5 min. After each rekindling, areas of secondary hyperalgesia were measured, and the painfulness of thermal stimulation in normal skin with 45 degrees C for 1 min (long thermal stimulation [LTS]) was rated. Before and during the second rekindling, remifentanil 0.10 microg x kg(-1) x min(-1) or saline-placebo was infused for 35 min.Infusion of remifentanil reduced the areas of secondary hyperalgesia to 29--30% of baseline size compared with 75--83% during placebo. Similarly, remifentanil reduced the painfulness of LTS to 29% of baseline severity compared with 84% during placebo. Areas of secondary hyperalgesia and LTS painfulness returned to baseline levels by the time of the third rekindling, demonstrating rapid disappearance of remifentanil analgesia and possibly transient spontaneous opioid withdrawal hyperalgesia.RESULTSInfusion of remifentanil reduced the areas of secondary hyperalgesia to 29--30% of baseline size compared with 75--83% during placebo. Similarly, remifentanil reduced the painfulness of LTS to 29% of baseline severity compared with 84% during placebo. Areas of secondary hyperalgesia and LTS painfulness returned to baseline levels by the time of the third rekindling, demonstrating rapid disappearance of remifentanil analgesia and possibly transient spontaneous opioid withdrawal hyperalgesia.Using the heat-capsaicin sensitization model, opioid analgesia and suppression of secondary hyperalgesia was reliably demonstrated without skin injury.CONCLUSIONUsing the heat-capsaicin sensitization model, opioid analgesia and suppression of secondary hyperalgesia was reliably demonstrated without skin injury. The heat--capsaicin sensitization model was developed as a noninvasive and noninjurious human experimental pain model. The sequential application of moderate intensity thermal and topical chemical stimuli produces stable and long-lasting areas of cutaneous secondary hyperalgesia. The aim of the present study was to validate the heat--capsaicin sensitization model as a tool for testing analgesic drug efficacy. Responsivity of model-associated measures was tested with remifentanil, a potent and ultrashort acting mu-opioid agonist. Sensitization was induced by heating forearm skin with a thermode at 45 degrees C for 5 min, immediately followed by application of 0.075% capsaicin cream for 30 min. Sensitization was rekindled four times at 40-min intervals with the thermode at 40 degrees C for 5 min. After each rekindling, areas of secondary hyperalgesia were measured, and the painfulness of thermal stimulation in normal skin with 45 degrees C for 1 min (long thermal stimulation [LTS]) was rated. Before and during the second rekindling, remifentanil 0.10 microg x kg(-1) x min(-1) or saline-placebo was infused for 35 min. Infusion of remifentanil reduced the areas of secondary hyperalgesia to 29--30% of baseline size compared with 75--83% during placebo. Similarly, remifentanil reduced the painfulness of LTS to 29% of baseline severity compared with 84% during placebo. Areas of secondary hyperalgesia and LTS painfulness returned to baseline levels by the time of the third rekindling, demonstrating rapid disappearance of remifentanil analgesia and possibly transient spontaneous opioid withdrawal hyperalgesia. Using the heat-capsaicin sensitization model, opioid analgesia and suppression of secondary hyperalgesia was reliably demonstrated without skin injury.
Author	Petersen, Karin L. Dahl, Jørgen B. Jones, Bruce Segredo, Veronica Rowbotham, Michael C.
Author_xml	– sequence: 1 givenname: Karin L. surname: Petersen fullname: Petersen, Karin L. organization: Postdoctoral Fellow, Pain Clinical Research Center, Department of Neurology., Laboratory of Pain Physiology, Department of Anesthesiology and Intensive Care Medicine – sequence: 2 givenname: Bruce surname: Jones fullname: Jones, Bruce organization: Clinical Instructor, Department of Emergency Medicine – sequence: 3 givenname: Veronica surname: Segredo fullname: Segredo, Veronica organization: Assistant Adjunct Professor, Department of Anesthesia – sequence: 4 givenname: Jørgen B. surname: Dahl fullname: Dahl, Jørgen B. organization: Clinical Director, Division of Anesthesia and Postoperative Care, Department of Anesthesiology and Intensive Care Medicine, Herlev University Hospital, Herlev, Denmark – sequence: 5 givenname: Michael C. surname: Rowbotham fullname: Rowbotham, Michael C. organization: Associate Professor, Pain Clinical Research Center, Departments of Neurology and Anesthesia, University of California–San Francisco
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SubjectTerms	Adult Analgesics Analgesics, Opioid - therapeutic use Biological and medical sciences Capsaicin - adverse effects Female Hot Temperature - adverse effects Humans Hyperalgesia - drug therapy Hyperalgesia - etiology Male Medical sciences Middle Aged Neuropharmacology Pain Measurement Pharmacology. Drug treatments Piperidines - therapeutic use Remifentanil
Title	Effect of Remifentanil on Pain and Secondary Hyperalgesia Associated with the Heat–Capsaicin Sensitization Model in Healthy Volunteers
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