The Role of Pain Modulation in Non-Suicidal Self-Injury

The Role of Pain Modulation in Non-Suicidal Self-Injury

Individuals with non-suicidal self-injury (NSSI) behavior tend to report feeling little or no pain when they self-injure. Moreover, in laboratory studies the NSSI population tends to demonstrate reduced sensitivity to painful stimuli. There is reason to believe that hypoalgesia could be a risk facto...

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Bibliographic Details
Main Author: Fust, Jens
Format: Dissertation
Language:English
Published: ProQuest Dissertations & Theses 01-01-2022
Subjects:
Age
Behavioral psychology
Brain research
Cognition & reasoning
Cognitive psychology
Emotions
Hemodynamics
Magnetic resonance imaging
Medical imaging
Mental health
Meta-analysis
Morphology
Narcotics
Nervous system
Neurosciences
Pain
Personality disorders
Pharmaceutical sciences
Physiology
Psychology
Risk factors
Self destructive behavior
Teenagers
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Summary:Individuals with non-suicidal self-injury (NSSI) behavior tend to report feeling little or no pain when they self-injure. Moreover, in laboratory studies the NSSI population tends to demonstrate reduced sensitivity to painful stimuli. There is reason to believe that hypoalgesia could be a risk factor for developing and maintaining NSSI. Many theories have been proposed to explain the reduced sensitivity to pain in the NSSI population; some examples are dissociation, self-critical cognitive style, and low levels of endogenous opioids. However, the evidence supporting these theories are sparse. To understand why the NSSI population experiences less pain, there is a need for a better understanding of how individuals with NSSI process pain. We wanted to use methods that have been developed to study pain modulation in individuals with long-term pain to characterize the pain modulation system of women with ongoing NSSI. Our general hypothesis was that women with NSSI have a hyper-effective pain modulation system that inhibits pain to a greater extent and facilitates pain to a lesser extent, compared to women without NSSI. In Study I, a non-clinical population (N = 62) was recruited to test a pain testing protocol in order to produce offset analgesia (OA) and onset hyperalgesia (OH). Small deviations in a painful thermal stimulation have been found to produce disproportional hypoalgesic (OA) and hyperalgesic (OH) responses. Different stimulus ranges (±1°C and ±2°C) were included in the protocol to study the dynamic relation between heat and pain. The study was composed of two identical experiments. In experiment 1, we produced OA and OH responses, using ±2°C but not ±1°C. In experiment 2, we only produced OA responses, but no OH responses. Study II investigated if it was possible to induce sensory attenuation of pain in a non-clinical population (N = 40) by comparing self-administered pressure pain threshold to experimenteradministrated pressure pain threshold, using an algometer. An experimental condition, where the participants imagined that they pressed the algometer, was also included in the study, to examine if sensory attenuation could be induced with the help of imagery. Self-administered pressure was found to be less painful, compared to experimenter-administered pressure. Moreover, imagined self-administered pressure was also experienced as less painful than experimenter-administered pressure. Self-induced sensory attenuation of pain could be a factor in explaining hypoalgesia during NSSI. Study III consisted of an extensive battery of pain tests in order to study pain modulation in a sample of women with NSSI (N = 41) and an age-matched control group, consisting of healthy women (N = 40). The study also included a simple pain test combined with fMRI. We found that the NSSI group demonstrated higher pressure and heat pain thresholds, compared to the control group. The NSSI group also demonstrated a larger conditioned pain modulation (CPM) effect, compared to the control group. CPM is a test based on the principle pain inhibits pain, and is a measure of central down-regulation of pain. We found no difference between the groups regarding temporal summation of pain, a measure of pain facilitation, or in heat pain tolerance. Tonic painful heat stimulation produced a larger hemodynamic response in primary and secondary somatosensory cortex in the NSSI group, compared to the control group. In Study IV, we used the combined OA/OH protocol that was evaluated in Study I to study pain modulation in women with NSSI (N = 37) and controls (N = 39).
ISBN:9798835537990