Using fMRI to Quantify the Time Dependence of Remifentanil Analgesia in the Human Brain

Wise, Richard G.; Williams, Pauline; Tracey, Irene

doi:10.1038/sj.npp.1300364

Cited by 108 publications

(61 citation statements)

References 55 publications

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“…59 -62 Functional neuroimaging can be also used to study the pharmacodynamics and pharmacokinetics of analgesic drugs. 63 Furthermore, imaging is a tool that can improve or clarify our understanding of the likely mechanism of action of approved analgesic drugs, as well as their side effect profiles, such as the study on the capsaicin-evoked sensitization model and gabapentin by Iannetti et al 38 Moreover, and as previously mentioned, neuroimaging is useful for translation and reverse translation between preclinical models, healthy volunteer models, and patients, 64 as illustrated in FIG. 1.…”

Section: Neuroimaging As a Tool For Assessing Drug-induced Analgesia mentioning

confidence: 99%

Neuroimaging as a Tool for Pain Diagnosis and Analgesic Development

Wartolowska

Tracey

2009

Neurotherapeutics

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Summary:Neuroimaging makes it possible to study pain processing beyond the peripheral nervous system, at the supraspinal level, in a safe, noninvasive way, without interfering with neurophysiological processes. In recent years, studies using brain imaging methods have contributed to our understanding of the mechanisms responsible for the development and maintenance of chronic pain. Moreover, neuroimaging shows promising results for analgesic drug development and in characterizing different types of pain, bringing us closer to development of mechanism-based diagnoses and treatments for the chronic pain patient.

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Section: Neuroimaging As a Tool For Assessing Drug-induced Analgesia mentioning

confidence: 99%

Neuroimaging as a Tool for Pain Diagnosis and Analgesic Development

Wartolowska

Tracey

2009

Neurotherapeutics

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“…Using the insular cortical time course together with a simple pharmacokinetic model, they predicted the half-life of activity of remifentanil. They demonstrated reductions in BOLD activity in the right insula during remifentanil administration as compared to saline [34,35]. Their work provided important insights and support the concept that pharmacologic fMRI (phfMRI) can be used to investigate both the central neural systems correlates of analgesia and its time course.…”

Section: Neuroimaging the Pharmacologic Modulation Of Painmentioning

confidence: 79%

“…In their paper, they estimated the effect site concentration of remifentanil to identify pharmacologic modulation of evoked pain. They extended this study to use fMRI to monitor the time course of actions of remifentanil in the insula of healthy volunteers during evoked pain [35]. Using the insular cortical time course together with a simple pharmacokinetic model, they predicted the half-life of activity of remifentanil.…”

Section: Neuroimaging the Pharmacologic Modulation Of Painmentioning

confidence: 99%

Role of Neuroimaging in Analgesic Drug Development

Lawrence

Mackey

2008

Drugs in R & D

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Rapidly developing, non-invasive, neuroimaging methods provide increasingly detailed structural and functional information about the nervous system, helping advance our understanding of pain processing, chronic pain conditions, and the mechanisms of analgesia. However, effective treatment for many chronic pain conditions remains a large, unmet medical need. In this review, we examine how the neuroimaging of pain has enhanced our understanding of the mechanisms of chronic pain, our current understanding of the central neural correlates of pharmacologic modulation of pain, and the role of neuroimaging in analgesic development, discussing both current limitations and future directions

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“…In healthy volunteers, the analgesic effect appeared to be reduced to a half in 6 minutes (Glass et al 1993). In a fMRI study, Wise et al (2004) noted a somewhat shorter half time for the offset of the action (3.07 minutes). After termination of the drug infusion, a 50% recovery in minute ventilation was observed in 5.4 minutes (Kapila et al 1995).…”

Section: Remifentanilmentioning

confidence: 99%

“…Functional MRI has been employed to identify the locus where the blood-oxygen-leveldependent (BOLD) signal caused by somatic pain is reduced by an administration of systemic analgesic medication (Wise et al 2004). The activation of localised µ-receptor activated systems has been observed with positron emission tomography (PET) -scans using a µ-receptor-specific radiotracer.…”

Section: Nature and Assessment Of Labour Painmentioning

confidence: 99%

Intravenous patient-controlled analgesia with remifentanil in early labour

Volmanen¹

2011

Acta Anaesthesiologica Scandinavica

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Cover design Raimo Ahonen JUVENES PRINT TAMPERE 2010Volmanen, Petri, Intravenous patient controlled analgesia with remifentanil in early labour. AbstractIn four prospective clinical trials, 114 parturients used intravenous patient-controlled remifentanil analgesia during the 1 st stage of labour. The median effective dose per bolus was ascertained to be 0.4 μg/kg and the pain scores were reduced with this by a median of 2 on a numerical scale (0-10). Compared with nitrous oxide, 15 parturients included in a cross-over study reported a larger reduction in pain scores during remifentanil analgesia (1.5 vs. 0.5, p = 0.001) and better pain relief scores (2.5 vs. 0.5 on a ranked five point scale 0-4, p < 0.001). In a parallel study including 45 parturients, epidural analgesia (EDA, 20 ml bupivacaine 0.625 mg/ml and fentanyl 2 μg/ml) was associated with lower pain scores (5.2 vs. 7.3 with remifentanil, p = 0.004) but variables related to satisfaction with analgesia (pain relief score, proportion of mothers with desire to continue with the given medication and termination of the study due to inadequate pain relief) were similar. A comparison of two methods for timing the remifentanil bolus during the uterine contraction cycle suggested that delaying the bolus does not improve analgesia. A period effect was noted in the cross-over trial with higher pain scores and increased drug consumption during the second study period suggesting acute hyperalgesia.Side effects of remifentanil analgesia included respiratory depression warranting oxygen supplementation in 33% of parturients. Sedation was experienced by the parturients using remifentanil and this was scored as stronger than sedation during nitrous oxide and EDA. The number of parturients with nausea did not increase during remifentanil analgesia. Other maternal side effects included dizziness, a difficulty in visual focusing and itching. Foetal heart rate tracing abnormalities were noted. The incidence of abnormal tracings and decreased UapH were not different, however, from that observed during nitrous oxide or EDA. Apgar scores at 1 and 5 minute indicated no neonatal depression. Keywords

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Using fMRI to Quantify the Time Dependence of Remifentanil Analgesia in the Human Brain

Cited by 108 publications

References 55 publications

Neuroimaging as a Tool for Pain Diagnosis and Analgesic Development

Neuroimaging as a Tool for Pain Diagnosis and Analgesic Development

Role of Neuroimaging in Analgesic Drug Development

Intravenous patient-controlled analgesia with remifentanil in early labour

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