Cortical and spinal assessment - a comparative study using encephalography and the nociceptive withdrawal reflex

Department of Drug Design and Pharmacology

Cortical and spinal assessment - a comparative study using encephalography and the nociceptive withdrawal reflex

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Cortical and spinal assessment - a comparative study using encephalography and the nociceptive withdrawal reflex. / Fischer, I W; Gram, M; Hansen, T M; Brokjaer, A; Graversen, C; Malver, L P; Mørch, C D; Christrup, L L; Drewes, A M; Olesen, A E.

In: Journal of Pharmacological and Toxicological Methods, Vol. 84, 03.2017, p. 37-43.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Fischer, IW, Gram, M, Hansen, TM, Brokjaer, A, Graversen, C, Malver, LP, Mørch, CD, Christrup, LL, Drewes, AM & Olesen, AE 2017, 'Cortical and spinal assessment - a comparative study using encephalography and the nociceptive withdrawal reflex', Journal of Pharmacological and Toxicological Methods, vol. 84, pp. 37-43. https://doi.org/10.1016/j.vascn.2016.10.008

APA

Fischer, I. W., Gram, M., Hansen, T. M., Brokjaer, A., Graversen, C., Malver, L. P., Mørch, C. D., Christrup, L. L., Drewes, A. M., & Olesen, A. E. (2017). Cortical and spinal assessment - a comparative study using encephalography and the nociceptive withdrawal reflex. Journal of Pharmacological and Toxicological Methods, 84, 37-43. https://doi.org/10.1016/j.vascn.2016.10.008

Vancouver

Fischer IW, Gram M, Hansen TM, Brokjaer A, Graversen C, Malver LP et al. Cortical and spinal assessment - a comparative study using encephalography and the nociceptive withdrawal reflex. Journal of Pharmacological and Toxicological Methods. 2017 Mar;84:37-43. https://doi.org/10.1016/j.vascn.2016.10.008

Author

Fischer, I W ; Gram, M ; Hansen, T M ; Brokjaer, A ; Graversen, C ; Malver, L P ; Mørch, C D ; Christrup, L L ; Drewes, A M ; Olesen, A E. / Cortical and spinal assessment - a comparative study using encephalography and the nociceptive withdrawal reflex. In: Journal of Pharmacological and Toxicological Methods. 2017 ; Vol. 84. pp. 37-43.

Bibtex

@article{c10bec77f43f4f02930a4493d4a9b850,

title = "Cortical and spinal assessment - a comparative study using encephalography and the nociceptive withdrawal reflex",

abstract = "BACKGROUND: Standardized objective methods to assess the analgesic effects of opioids, enable identification of underlying mechanisms of drug actions in the central nervous system. Opioids may exert their effect on both cortical and spinal levels. In this study actions of morphine at both levels were investigated, followed by analysis of a possible correlation between the cortical processing and spinal transmission.METHODS: The study was conducted after a double-blinded, two-way crossover design in thirty-nine healthy participants. Each participant received 30mg morphine or placebo as oral solution in randomized order. The electroencephalogram (EEG) was recorded during rest and during immersion of the hand into ice-water. Electrical stimulation of the sole of the foot was used to elicit the nociceptive withdrawal reflex and the reflex amplitude was recorded.RESULTS: Data from thirty subjects was included in the data analysis. There was no change in the activity in resting EEG (P>0.05) after morphine administration as compared to placebo. During cold pressor stimulation, morphine significantly lowered the relative activity in the delta (1-4Hz) band (P=0.03) and increased the activity in the alpha (8-12Hz) band (P=0.001) as compared to placebo. The reflex amplitudes significantly decreased after morphine administration (P=0.047) as compared to placebo. There was no correlation between individual EEG changes during cold pressor stimulation and the decrease in the reflex amplitude after morphine administration (P>0.05).CONCLUSIONS: Cold pressor EEG and the nociceptive reflex were more sensitive to morphine analgesia than resting EEG and can be used as standardized objective methods to assess opioid effects. However, no correlation between the analgesic effect of morphine on the spinal and cortical assessments could be demonstrated.",

author = "Fischer, {I W} and M Gram and Hansen, {T M} and A Brokjaer and C Graversen and Malver, {L P} and M{\o}rch, {C D} and Christrup, {L L} and Drewes, {A M} and Olesen, {A E}",

year = "2017",

month = mar,

doi = "10.1016/j.vascn.2016.10.008",

language = "English",

volume = "84",

pages = "37--43",

journal = "Journal of Pharmacological and Toxicological Methods",

issn = "1056-8719",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Cortical and spinal assessment - a comparative study using encephalography and the nociceptive withdrawal reflex

AU - Fischer, I W

AU - Gram, M

AU - Hansen, T M

AU - Brokjaer, A

AU - Graversen, C

AU - Malver, L P

AU - Mørch, C D

AU - Christrup, L L

AU - Drewes, A M

AU - Olesen, A E

PY - 2017/3

Y1 - 2017/3

N2 - BACKGROUND: Standardized objective methods to assess the analgesic effects of opioids, enable identification of underlying mechanisms of drug actions in the central nervous system. Opioids may exert their effect on both cortical and spinal levels. In this study actions of morphine at both levels were investigated, followed by analysis of a possible correlation between the cortical processing and spinal transmission.METHODS: The study was conducted after a double-blinded, two-way crossover design in thirty-nine healthy participants. Each participant received 30mg morphine or placebo as oral solution in randomized order. The electroencephalogram (EEG) was recorded during rest and during immersion of the hand into ice-water. Electrical stimulation of the sole of the foot was used to elicit the nociceptive withdrawal reflex and the reflex amplitude was recorded.RESULTS: Data from thirty subjects was included in the data analysis. There was no change in the activity in resting EEG (P>0.05) after morphine administration as compared to placebo. During cold pressor stimulation, morphine significantly lowered the relative activity in the delta (1-4Hz) band (P=0.03) and increased the activity in the alpha (8-12Hz) band (P=0.001) as compared to placebo. The reflex amplitudes significantly decreased after morphine administration (P=0.047) as compared to placebo. There was no correlation between individual EEG changes during cold pressor stimulation and the decrease in the reflex amplitude after morphine administration (P>0.05).CONCLUSIONS: Cold pressor EEG and the nociceptive reflex were more sensitive to morphine analgesia than resting EEG and can be used as standardized objective methods to assess opioid effects. However, no correlation between the analgesic effect of morphine on the spinal and cortical assessments could be demonstrated.

AB - BACKGROUND: Standardized objective methods to assess the analgesic effects of opioids, enable identification of underlying mechanisms of drug actions in the central nervous system. Opioids may exert their effect on both cortical and spinal levels. In this study actions of morphine at both levels were investigated, followed by analysis of a possible correlation between the cortical processing and spinal transmission.METHODS: The study was conducted after a double-blinded, two-way crossover design in thirty-nine healthy participants. Each participant received 30mg morphine or placebo as oral solution in randomized order. The electroencephalogram (EEG) was recorded during rest and during immersion of the hand into ice-water. Electrical stimulation of the sole of the foot was used to elicit the nociceptive withdrawal reflex and the reflex amplitude was recorded.RESULTS: Data from thirty subjects was included in the data analysis. There was no change in the activity in resting EEG (P>0.05) after morphine administration as compared to placebo. During cold pressor stimulation, morphine significantly lowered the relative activity in the delta (1-4Hz) band (P=0.03) and increased the activity in the alpha (8-12Hz) band (P=0.001) as compared to placebo. The reflex amplitudes significantly decreased after morphine administration (P=0.047) as compared to placebo. There was no correlation between individual EEG changes during cold pressor stimulation and the decrease in the reflex amplitude after morphine administration (P>0.05).CONCLUSIONS: Cold pressor EEG and the nociceptive reflex were more sensitive to morphine analgesia than resting EEG and can be used as standardized objective methods to assess opioid effects. However, no correlation between the analgesic effect of morphine on the spinal and cortical assessments could be demonstrated.

U2 - 10.1016/j.vascn.2016.10.008

DO - 10.1016/j.vascn.2016.10.008

M3 - Journal article

C2 - 27989852

VL - 84

SP - 37

EP - 43

JO - Journal of Pharmacological and Toxicological Methods

JF - Journal of Pharmacological and Toxicological Methods

SN - 1056-8719

ER -

ID: 172100899