Pain, Postoperative Clinical Trial
Official title:
Does Pain Reporting Accuracy Relates to the Intensity of Acute Post-operative Pain and Analgesic Drug Consumption?
Pain is a subjective experience that differs in intensity from one person to another.
Appropriate medical care relies on an accurate assessment of the patients' condition.
However, when it comes to subjective assessment, accurate assessment is a challenge.
The most common tools used to estimate pain intensity depend on patient pain reports on a
numerical pain scale (NPS) or a similar scales. Although these tools are widely used, there
is a tendency to ignore the fact that the reliability and accuracy of pain reports are
strongly influenced not only by the measuring instrument, but also by the person who uses it.
A method has recently been developed to assess the accuracy of pain reports, and in a series
of studies it has been found that the more accurate a person is in pain reports in response
to stimulation,the smaller his placebo effect is .The aim of the study is to investigate
whether assessing the accuracy of a person's pain reports can predict who will experience
intensified post-operative pain and post-operative analgesic medications intake.The study
will include 40 patients undergoing elective head & neck surgery. The study will be conducted
prospectively and will include one pre-operative meeting to assess the accuracy of pain
reports using the Focused Analgesia Selection Test (FAST). Patients will also complete
pain-related psychological questionnaires during the session. In addition, post-operative
pain measurements (NPS), and the use of pain relieving drugs (SOS) will be taken until
release.
Objectives and hypotheses: The purpose of this study is to examine whether pain reporting
accuracy (as examined in the FAST test) predicts the intensity of acute post-operative pain
and the consumption of pain-relieving drugs. The investigators hypothesize that the more
accurate a person is in his pain reports, the more likely he will be to correlate
postoperative pain and Analgesic drugs consumption.
The study population: The sample will include 40 subjects (men and women) who are about to
undergo elective head & neck surgery in the Department of Otolaryngology.
Study design:
The institutional ethics committee of Carmel Medical Center approved the study protocol in
accordance with the Helsinki Declaration, and written consent will be obtained from each
subject before the beginning of the experiment. Participants will be enrolled into the study
after meeting the inclusion criteria. The experiment will consist of one session, which will
last about 45 minutes, during which the subject will undergo brief familiarization with the
device, the stimulation and the scale in the study. Thereafter, all subjects will undergo the
FAST procedure. Between the familiarization and the FAST, the subject will fill out
pain-related personality questionnaires. From the moment of returning to the department after
the surgery, the clinical follow-up will begin following pain reports and the consumption of
pain-relieving drugs until the patient is released.
Psychophysical assessment: The contact-heat Q-sense system (Medoc, Ramat-Yishai, Israel) will
be used to deliver the tonic heat stimulations applied by a 30 x 30 mm Peltier surface
stimulator, which will be attached by Velcro straps to the volar surface of the forearm of
the subject hand.
Familiarization: At the beginning of the experimental session, all subjects will undergo a
short training in order to familiarize them with the device and with the sensations evoked by
the painful stimulation, and to train them to report their perceived pain intensity using the
numerical pain scale. The training will include exposure to three short contact-heat stimuli
(44, 46.5, and 48°C), each lasting for 7 seconds from the time that the stimulation intensity
reach the destination temperature. Subjects will be asked to report their pain on numerical
pain scale (NPS) ranging from 0, denoting no pain, to 100, denoting the worst pain
imaginable, induced by each stimulus.
Pain reporting accuracy assessment: Will be assessed by the FAST procedure. During the
procedure, the thermode will be attached to the ventral surface of the subject's non-dominant
arm and the temperature will be raised from a baseline of 32°C, peaks for 3 seconds at 1 of 7
designated temperatures (44°C, 45°C, 46°C, 47°C, 48°C, 49°C, and 50°C), and then decreased
down to the baseline. Stimulus rate of rise and fall will be kept constant. Subjects will be
asked to rate the peak pain intensity of each stimulus verbally using the NPS. Each
temperature will be presented 7 times in a random block-ordered design (49 stimuli in total),
with Inter-stimulus intervals of 20 seconds. The location of the thermode will be adjusted
every 10 stimuli to minimize sensitization and/or habituation effects.
Evaluation of clinical variables: The clinical follow-up of patients begins from the moment
the operation ends and continues until discharge (24-48 hours post-operation), and includes
two measures:
1. Pain reports (NPS) - pain assessment at the time of analgesic medication consumption and
an hour after administration of the drug, in addition to regular monitoring of every 6
hours during hospitalization. The reports will be documented by the nursing staff.
2. Follow-up after use of analgesic medications (according to the standard protocol + SOS
medications including: Paracetamol IV, Optalgin PO, Oxycodone PO and Trimal IV).
Pain-related psychological questionnaires:
Pain sensitivity will be assessed by the Pain Sensitivity Questionnaire (PSQ). Dispositional
optimism will be assessed by the Life Orientation Test-Revised (LOT-R).
Data analysis:
Data will be processed and analyzed using Excel , and SPSS® software version 23.
Descriptive statistics will be used to present demographic and baseline characteristics. Pain
scores captured during the FAST procedure will be used to calculate 3 FAST outcomes as
follows: 1) R2 will be calculated by using a power model regression. Disparity between the
predicted function and actual scores could be a result of inaccuracy or unreliability. Close
concordance between actual and predicted scores (higher R2) suggests greater accuracy and
reliability. 2) Intraclass correlation coefficient (ICC) will be computed using a 2-way mixed
model for the 7 presentations of each of the 7 intensity levels. An ICC score approaching 1.0
denotes a high degree of reliability or the agreement in responses to the same stimulus over
several presentations. 3) The coefficient of variation (CoV) is the ratio of the standard
deviation to the mean. The average CoV will be calculated as the mean of 7 CoVs, 1 at each
stimulus level. Spearman's correlation between FAST outcome measures, NPS, analgesic
consumption, PSQ and LOT-R will be calculated in order to assess relationships between pain
reporting accuracy, clinical post-operative pain and pain-relates psychological measures.
Exploring whether being identified as more painful patient in the acute post-operative phase
(pro-nociceptive) could be predicted by pain reporting accuracy (as measures by FAST), and
pain sensitivity (as assessed by PSQ) and optimism (as assessed by LOT-R) will be made by
multivariate regression analyses.Statistical significance was defined as P≤0.05.
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