This study is to investigate the effect of open-label placebo (OLP) application on acute pain in an experimental model of acute pain (simulating wound pain: this installation will apply monophasic, rectangular electrical pulses of 0.5ms duration with alternating polarity at 2 Hz frequency. The current will be increased to target a pain rating of 6 of 10 on the NRS (0 = no pain, 10 = worst imaginable pain). Three further adjustments in current will be made every 5 minutes for the next 15 minutes to compensate for habituation. This final current will be kept constant until the end of the particular experiment). In Part 1 duration of OLP analgesia will be examined, and onset and size of the effect will be reevaluated. In Part 2 of this study outcomes between subjects receiving one OLP injection, subjects receiving one repetition of the injection on a fixed time point and subjects receiving one repetition of the injection on-demand will be evaluated
Pain is highly prevalent in hospital settings. Standard systemic treatment for acute pain consists mainly of basic analgesia. The use of these drugs is often restricted due to their contraindications. Placebo is used nowadays to describe sham treatments and "inert" substances like sugar pills and saline injections. Placebos are proven to elicit clinically significant effects in various conditions, including pain. Ethical concerns about the use of deceptive placebos have prevented their implementation in clinical practice. A possibility to address this issue would be to prescribe placebos openly, that means, without deception. This randomized crossover study evaluates the efficacy of open-label placebo (OLP) in acute pain. Subjective pain ratings and areas of hyperalgesia and allodynia will be measured in a well-established experimental pain model (intradermal electrical stimulation model evoking pain: this installation will apply monophasic, rectangular electrical pulses of 0.5ms duration with alternating polarity at 2 Hz frequency. The current will be increased to target a pain rating of 6 of 10 on the NRS (0 = no pain, 10 = worst imaginable pain). Three further adjustments in current will be made every 5 minutes for the next 15 minutes to compensate for habituation. This final current will be kept constant until the end of the particular experiment) and analgesia elicited by OLP injections will be investigated. In Part 1 duration of OLP analgesia will be examined, and onset and size of the effect will be reevaluated. In Part 2 of this study outcomes between subjects receiving one OLP injection, subjects receiving one repetition of the injection on a fixed time point and subjects receiving one repetition of the injection on-demand will be evaluated (which leaves the last group a choice over when they would like to have the placebo "booster").
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
SINGLE
Enrollment
141
Open-label placebo injections without any active ingredient (5 ml 0.9% saline). All participants will be informed that the administered injections are placebo infusions.
As a second component the intervention will consist of an evidence-based treatment rationale, which will be delivered to patients receiving the intervention prior to the OLP-injections, explaining placebo analgesia in pain in general and specifically in OLP. In the context of OLP treatments this rationale is important in order to create a mental state of positive expectations.
Experimental model of acute pain (simulating wound pain: this installation will apply monophasic, rectangular electrical pulses of 0.5ms duration with alternating polarity at 2 Hz frequency. The current will be increased to target a pain rating of 6 of 10 on the NRS (0 = no pain, 10 = worst imaginable pain). Three further adjustments in current will be made every 5 minutes for the next 15 minutes to compensate for habituation. This final current will be kept constant until the end of the particular experiment).
University Hospital of Basel (USB); Department of Anaesthesiology
Basel, Switzerland
RECRUITINGPart 1: Change in Area under the Pain Curve (AUPC)
Area under the Pain Curve (AUPC) using the numeric rating scale (NRS; 0 = no pain, 10 = worst imaginable pain) during three hours after administering an OLP
Time frame: During three hours after administering an OLP
Part 2: Change in Area under the Pain Curve (AUPC)
Area under the Pain Curve (AUPC) using the numeric rating scale (NRS; 0 = no pain, 10 = worst imaginable pain). Comparison of the AUPCs of subjects receiving just one OLP injection with subjects additionally receiving one repetition of OLP administration at a time point derived from Part 1 and subjects getting the second OLP injection on-demand.
Time frame: During three hours after administering an OLP
Part 1 and 2: Change in subjective pain ratings on each measurement point using the numeric rating scale (NRS)
Change in subjective pain ratings on each measurement point using the numeric rating scale (NRS); NRS; 0 = no pain, 10 = worst imaginable pain) every five minutes after OLP administration)
Time frame: Up to 200 minutes after electrical pain stimulation
Part 1 and 2: Change in Area under the Curve (AUC) of area of hyperalgesia
Change in Area under the Curve (AUC) of area of hyperalgesia comparing the intervention and control (no treatment) visit. Pinprick hyperalgesia will be assessed every 10 minutes after OLP administration) using a 600 millinewton (mN) von Frey filament.
Time frame: Up to 200 minutes after electrical pain stimulation
Part 1 and 2: Change in Area under the Curve (AUC) of area of allodynia
Change in Area under the Curve (AUC) of area of allodynia comparing the intervention and control (no treatment) visit. Allodynia will be determined using a dry cotton swab every 10 minutes after OLP administration).
Time frame: Up to 200 minutes after electrical pain stimulation
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