Analgesia Clinical Trial
Official title:
Effect of Exercise on Pain Responses in Non-Hispanic Blacks and Whites
Non-Hispanic Blacks tend to report higher levels of pain, experience pain more frequently, and be under-treated for pain compared to non-Hispanic Whites. Acute (single session) exercise is known to be effective at reducing pain but it is unknown what effect chronic exercise training has on pain responses. The broad goal of this study is to determine whether regular exercise training is more effective at reducing pain responses in non-Hispanic Blacks compared to non-Hispanic Whites. The investigators are interested in comparing regular aerobic exercise training versus high-intensity interval training.
Racial discrepancy in the experience of pain is well documented within the literature.
Non-Hispanic Blacks (NHB) report greater amounts and severity of clinical pain compared to
non-Hispanic Whites (NHW) in a variety of clinical conditions. NHB also experience greater
pain-related symptoms and disability, regardless of descriptive factors such as age, gender,
and socioeconomic status or clinical factors such as comorbidities and duration of disease.
Further, NHB tend to be medically undertreated for pain, regardless of nearly identical
reporting of pain level and severity compared with NHW. Not only is adequate pain treatment
infrequent, but many pain treatments are less effective in NHB than in NHW, commonly
resulting in less reduction of pain severity in this population.
In comparison to NHW, NHB report greater sensitivity to several types of pain, including heat
pain, cold pressor pain, ischemic pain, and electrical stimulation. NHB show increased
temporal summation, implying central nervous system hypersensitivity and hyperexcitability to
noxious (painful) stimuli. Specifically, regarding experimental heat pain, NHB differ
minimally in pain threshold or ratings of pain intensity compared to NHW, but perceive
greater unpleasantness of pain and show a lower pain tolerance. The physiological mechanisms
underlying this racial discrepancy remain unknown.
Experimental pain assessment is valuable in understanding the experience of pain between
individuals. Pain is an individual experience and differs from one to another. However,
differences in experimental pain perceived may estimate the clinical pain one would
experience. Studies show that greater experimental pain sensitivity is associated with
greater experience of day-to-day pain in healthy adults and can predict higher levels of
clinical pain in adult patients.
While affective (subjective) pain perception has been the focus of the majority of pain
assessment studies, in 2008 Campbell et al. investigated the nociceptive flexion reflex
(NFR), an involuntary and objective component of the pain response. The NFR is a
spinal-mediated reflex that follows activation of nociceptive A-delta afferents by noxious
stimuli. This study shows the NFR threshold in NHB is decreased compared to NHW, implying a
physiological difference between these racial groups that may contribute to the discrepancy
in pain perception. Skin blood flow via vasodilation, another physiological measure, has been
shown to increase in response to noxious thermal stimuli in order to distribute heat away
from a singular point in the cutaneous environment and prevent damage. Assessing changes in
skin blood flow in response to noxious thermal stimuli may further elucidate physiological
differences between races that affect pain perception.
It is important to investigate more effective prevention or treatment methods for pain in
NHB. Exercise-induced hypoalgesia (EIH) is characterized by decreased pain sensation
following physical exercise. Specifically, EIH leads to decreased sensitivity to noxious
(painful) stimuli, increased pain thresholds, increased pain tolerance, and decreased pain
ratings. EIH has been shown to occur following several types of exercise, such as acute bouts
of submaximal, continuous aerobic exercise and acute bouts of isometric hand-grip exercise.
Lending to the knowledge of racial discrepancy in pain perception, a study by Umeda et al. in
2016 showed NHB had a smaller magnitude of EIH compared to NHW following isometric hand-grip
exercise, but racial differences in EIH remain incompletely understood.
It is suggested that hypoalgesia following exercise may be due to an overlapping of pain
perception and cardiovascular mechanisms. For example, pain regulation and blood pressure
control are associated with the same brain stem nuclei. Further, hypertensive individuals
have shown reduced sensitivity to noxious (painful) stimuli compared to normotensives, and
acute pharmacological elevations in blood pressure have been shown to alter pain perception.
Therefore, it is important to investigate alterations in pain perception following both acute
(which should elicit elevations in blood pressure) and chronic (which should elicit overall
declines in blood pressure) exercise.
Several studies have investigated the effects of submaximal exercise on various types of pain
and it is typical to see moderate-intensity continuous (MIC) exercise incorporated into pain
management programs (generally 30 minutes of 70% VO2max exercise). However, two studies in
particular display data indicating that as workload increases, pain thresholds increase in a
stepwise manner. Other studies show EIH occurs more consistently following exercise at higher
intensities (> 70% VO2max), indicating that high intensity interval training (HIIT) may
produce more beneficial results in affective and/or objective responses to pain than MIC
exercise. Several studies have looked at affective pain perception following acute submaximal
bouts of aerobic and isometric exercise. Those that have investigated acute HIIT have only
examined affective responses. The investigators do not know of any studies that have looked
at the acute and chronic effect of MIC exercise and HIIT on affective and objective pain
perception in NHB and NH There are three main purposes of this study, and they are as
follows: 1) to assess objective and subjective responses to pain in NHB and NHW, 2) to assess
the use of acute versus chronic exercise in pain management for NHW and NHB, and 3) to assess
the use of MIC exercise versus HITT in pain management for NHW and NHB. The investigators
hypothesize that 1) NHB will show decreased skin blood flow response to noxious stimuli
compared to NHW prior to exercise training, 2) NHB will report greater pain ratings than NHW
prior to exercise training, and 3) chronic HIIT will mitigate the differences in skin blood
flow and pain ratings between NHB and NHW.
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