Physiological indicators for pain

Detalhes bibliográficos
Autor(a) principal: Bento, Ana Luísa Baltazar
Data de Publicação: 2021
Tipo de documento: Dissertação
Idioma: eng
Título da fonte: Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)
Texto Completo: http://hdl.handle.net/10773/33691
Resumo: Pain is a complex, biopsychosocial phenomenon that arises from the interaction of multiple neuroanatomic and neurochemical systems with several cognitive and affective processes. Nowadays, the assessment of pain intensity still relies, mainly, on the use of self-reporting scales. These instruments rely on the individual to process external information and communicate a response, which may not always be a reliable method. The autonomic nervous system (ANS), which is divided into the parasympathetic nervous system (PNS) and the sympathetic nervous system (SNS), is a part of the human nervous system. The ANS functions as the subconscious regulator of the body. Studies have shown a connection between the perception of pain and exacerbated stress response on the ANS. As a result, there has been an increase in research on the use of autonomic reactivity, usually through physiological indicators, as an objective marker for pain. In this study four different physiological signals (electrocardiogram – ECG; two electromyogram – EMG, electrodermal activity – EDA and blood pressure – BP) were, simultaneously, recorded to study their relation to pain. For that, a pain-inducing protocol, more specifically Cold Pressor Task (CPT), which requires the participant to place their hand into cold water, was used. The data was processed and the differences between the painful and non-painful periods were investigated. The use of a higher number of physiological signals is a step forward in the studies of this kind, since it may allow a more solid analysis of the effects of pain that occur, concurrently, on the body. Consequently, this, also, enables a better validation of the hypothesis of these studies, by putting in juxtaposition the conclusions from the various systems. The results, for the ECG and BP, showed a statistically significant increase in the heart rate and blood pressure, during the painful periods, in comparison, with non-painful periods. Additionally, heart rate variability features demonstrated a decrease in the PNS influence. From the EMG, which was recorded on the trapezius and triceps muscle, the time-domain feature results showed an increase in power and contraction force of the muscle during the CPT. However, frequency-domain features did not display meaningful information regarding the reaction of the musculoskeletal system to the painful stimulus. Overall, the trapezius was able to provide more helpful information regarding the behaviour of the body. Lastly, the EDA, also showed an adjustment of the sudomotor activity, implying an increase in the SNS activity in the body during the CPT. These results indicate that in general, the features point to an autonomic reaction of the body in response to pain, mainly a decrease in the PNS activity, accompanied by an increase in the reactivity of the SNS.
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spelling Physiological indicators for painAutonomic nervous systemCold pressor taskPainPhysiological IndicatorsPain is a complex, biopsychosocial phenomenon that arises from the interaction of multiple neuroanatomic and neurochemical systems with several cognitive and affective processes. Nowadays, the assessment of pain intensity still relies, mainly, on the use of self-reporting scales. These instruments rely on the individual to process external information and communicate a response, which may not always be a reliable method. The autonomic nervous system (ANS), which is divided into the parasympathetic nervous system (PNS) and the sympathetic nervous system (SNS), is a part of the human nervous system. The ANS functions as the subconscious regulator of the body. Studies have shown a connection between the perception of pain and exacerbated stress response on the ANS. As a result, there has been an increase in research on the use of autonomic reactivity, usually through physiological indicators, as an objective marker for pain. In this study four different physiological signals (electrocardiogram – ECG; two electromyogram – EMG, electrodermal activity – EDA and blood pressure – BP) were, simultaneously, recorded to study their relation to pain. For that, a pain-inducing protocol, more specifically Cold Pressor Task (CPT), which requires the participant to place their hand into cold water, was used. The data was processed and the differences between the painful and non-painful periods were investigated. The use of a higher number of physiological signals is a step forward in the studies of this kind, since it may allow a more solid analysis of the effects of pain that occur, concurrently, on the body. Consequently, this, also, enables a better validation of the hypothesis of these studies, by putting in juxtaposition the conclusions from the various systems. The results, for the ECG and BP, showed a statistically significant increase in the heart rate and blood pressure, during the painful periods, in comparison, with non-painful periods. Additionally, heart rate variability features demonstrated a decrease in the PNS influence. From the EMG, which was recorded on the trapezius and triceps muscle, the time-domain feature results showed an increase in power and contraction force of the muscle during the CPT. However, frequency-domain features did not display meaningful information regarding the reaction of the musculoskeletal system to the painful stimulus. Overall, the trapezius was able to provide more helpful information regarding the behaviour of the body. Lastly, the EDA, also showed an adjustment of the sudomotor activity, implying an increase in the SNS activity in the body during the CPT. These results indicate that in general, the features point to an autonomic reaction of the body in response to pain, mainly a decrease in the PNS activity, accompanied by an increase in the reactivity of the SNS.A dor é um fenómeno complexo e biopsicossocial que advém da interação de múltiplos sistemas neuroanatómicos e neuroquímicos e, inclui, diversos processos cognitivos e afetivos. Atualmente, a medição da intensidade da dor depende maioritariamente de escalas de autorrelato. Estes instrumentos estão dependentes da capacidade do indivíduo em processar informação externa e comunicar uma resposta, o que nem sempre é um método viável. O Sistema Nervoso Autónomo (ANS, em inglês), que se divide em sistema nervoso simpático (SNS) e parassimpático (PNS), faz parte do sistema nervoso humano. O ANS funciona inconscientemente como o regulador corporal. Estudos anteriores revelaram uma relação entre a perceção de dor e uma resposta de stress do ANS exacerbada. Consequentemente, houve um aumento da investigação para o uso da reatividade autonómica, usualmente através de indicadores fisiológicos, como um marcador objetivo de dor. Neste estudo, quatro sinais fisiológicos diferentes (eletrocardiograma – ECG, dois eletromiogramas – EMG, atividade eletrodérmica – EDA e pressão arterial – BP), foram gravados simultaneamente, para estudar a sua reação à dor. Para tal foi utilizado um protocolo de indução de dor, mais especificamente uma cold pressor task (CPT), onde um participante submerge a sua mão em água fria. A utilização de um número mais elevado de indicadores fisiológicos para o estudo da dor é um novo passo nesta área da investigação, permitindo uma análise mais sólida dos efeitos da dor no corpo. Mais ainda, permite, igualmente, uma melhor validação do estudo, pois possibilita a comparação dos resultados obtidos nos vários sistemas. Os resultados para o ECG e BP, demonstraram um aumento no ritmo cardíaco e pressão arterial durante os períodos com dor comparativamente aos sem dor. Adicionalmente, os indicadores da variabilidade do ritmo cardíaco demonstraram um decréscimo da influência do PNS no sistema cardiovascular. No EMG, que foi gravado para o músculo trapézio e para o tríceps, os indicadores temporais revelaram um aumento na força e poder de contração durante a CPT. Contudo, os indicadores de frequência não revelaram informação pertinente referente ao comportamento do sistema musco esquelético perante o estímulo de dor. Globalmente, o EMG do trapézio obteve melhores resultados relativamente à reação do corpo à dor. Por fim, o EDA também revelou que a atividade sudomotora precisou de se adaptar durante a CPT, tendo sido verificado um aumento da atividade do SNS. Estes resultados indicam que, em geral, os indicadores fisiológicos apontaram para uma reação do ANS em resposta à sensação de dor, principalmente pela diminuição da atividade do PNS e pelo aumento da reatividade do SNS.2023-11-25T00:00:00Z2021-11-18T00:00:00Z2021-11-18info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10773/33691engBento, Ana Luísa Baltazarinfo:eu-repo/semantics/embargoedAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2024-05-06T04:37:00Zoai:ria.ua.pt:10773/33691Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-28T14:14:23.850765Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse
dc.title.none.fl_str_mv Physiological indicators for pain
title Physiological indicators for pain
spellingShingle Physiological indicators for pain
Bento, Ana Luísa Baltazar
Autonomic nervous system
Cold pressor task
Pain
Physiological Indicators
title_short Physiological indicators for pain
title_full Physiological indicators for pain
title_fullStr Physiological indicators for pain
title_full_unstemmed Physiological indicators for pain
title_sort Physiological indicators for pain
author Bento, Ana Luísa Baltazar
author_facet Bento, Ana Luísa Baltazar
author_role author
dc.contributor.author.fl_str_mv Bento, Ana Luísa Baltazar
dc.subject.por.fl_str_mv Autonomic nervous system
Cold pressor task
Pain
Physiological Indicators
topic Autonomic nervous system
Cold pressor task
Pain
Physiological Indicators
description Pain is a complex, biopsychosocial phenomenon that arises from the interaction of multiple neuroanatomic and neurochemical systems with several cognitive and affective processes. Nowadays, the assessment of pain intensity still relies, mainly, on the use of self-reporting scales. These instruments rely on the individual to process external information and communicate a response, which may not always be a reliable method. The autonomic nervous system (ANS), which is divided into the parasympathetic nervous system (PNS) and the sympathetic nervous system (SNS), is a part of the human nervous system. The ANS functions as the subconscious regulator of the body. Studies have shown a connection between the perception of pain and exacerbated stress response on the ANS. As a result, there has been an increase in research on the use of autonomic reactivity, usually through physiological indicators, as an objective marker for pain. In this study four different physiological signals (electrocardiogram – ECG; two electromyogram – EMG, electrodermal activity – EDA and blood pressure – BP) were, simultaneously, recorded to study their relation to pain. For that, a pain-inducing protocol, more specifically Cold Pressor Task (CPT), which requires the participant to place their hand into cold water, was used. The data was processed and the differences between the painful and non-painful periods were investigated. The use of a higher number of physiological signals is a step forward in the studies of this kind, since it may allow a more solid analysis of the effects of pain that occur, concurrently, on the body. Consequently, this, also, enables a better validation of the hypothesis of these studies, by putting in juxtaposition the conclusions from the various systems. The results, for the ECG and BP, showed a statistically significant increase in the heart rate and blood pressure, during the painful periods, in comparison, with non-painful periods. Additionally, heart rate variability features demonstrated a decrease in the PNS influence. From the EMG, which was recorded on the trapezius and triceps muscle, the time-domain feature results showed an increase in power and contraction force of the muscle during the CPT. However, frequency-domain features did not display meaningful information regarding the reaction of the musculoskeletal system to the painful stimulus. Overall, the trapezius was able to provide more helpful information regarding the behaviour of the body. Lastly, the EDA, also showed an adjustment of the sudomotor activity, implying an increase in the SNS activity in the body during the CPT. These results indicate that in general, the features point to an autonomic reaction of the body in response to pain, mainly a decrease in the PNS activity, accompanied by an increase in the reactivity of the SNS.
publishDate 2021
dc.date.none.fl_str_mv 2021-11-18T00:00:00Z
2021-11-18
2023-11-25T00:00:00Z
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