Rehaussement de la mémoire de travail et de l'inhibition de la douleur par la neuromodulation du cortex préfrontal dorsolatéral gauche chez des personnes jeunes et âgées = Improving working memory and pain inhibition using neuromodulation of left dorsolateral prefrontal cortex in young and older persons

Objectif: Cette thèse vise à étudier si l’inhibition de la douleur par l’activation de la mémoire de travail (MT) peut être rehaussée par la Stimulation Transcranienne à Courant Direct (tDCS) chez des volontaires jeunes et des personnes âgées en bonne santé. La MT permet de sélectionner l’information pertinente à une tâche et de diriger l’attention vers l’exécution de cette tâche, permettant ainsi de limiter la capture de l'attention par des distracteurs, incluant la douleur. Cependant, cette inhibition de la capture attentionnelle par la douleur puisqu’il s’agit d’un processus descendant (top-down), peut être diminuée chez les personnes âgées en raison de la réduction des capacités de la MT. La tDCS est une méthode prometteuse à cet égard puisque la stimulation anodale du cortex préfrontal dorsolatéral (DLPFC) gauche permet d’améliorer les capacités de la MT. Méthodes: Cette thèse comporte deux expériences menées sur quarante jeunes adultes (première étude) et quinze personnes âgées (deuxième étude). Les expériences comportent deux séances de tDCS (tDCS anodale et simulée), pendant lesquelles de la douleur et le réflexe nociceptif de flexion étaient évoqués par une stimulation électrique à la cheville, alors que les participants exécutaient une tâche n-back (0-back et 2-back). Le protocole expérimental comportait cinq conditions dont l'ordre a été contrebalancé (0-back, 2- back, douleur, 0-back avec douleur et 2-back avec douleur), et qui ont été réalisées deux fois chacune (avant tDCS et pendant tDCS). Résultats: Les résultats indiquent que la neuromodulation du DLPFC gauche permet d’améliorer l’inhibition de la douleur par la MT, autant chez les jeunes adultes que chez les personnes âgées. Cependant, le réflexe nociceptif de flexion n’a pas été modulé par l’activation de la MT, suggérant que les effets bénéfiques de la tDCS reposent sur des mécanismes supraspinaux indépendants des voies inhibitrices descendantes. Ces études ont permis l'avancement des connaissances sur les interactions entre la cognition, la douleur et l'âge et montrent comment la neuromodulation peut changer ces interactions pour améliorer l'inhibition de la douleur. Ces résultats permettront le développement de protocoles de neuromodulation pour la gestion de la douleur chez les personnes âgées.Objective: This thesis aimed to examine whether pain inhibition by working memory (WM) engagement can be enhanced by Transcranial Direct Current Stimulation (tDCS) in young and older healthy volunteers. Directing attention away from painful stimuli is under the control of WM that allows the selection of task-relevant information and directing attention towards task execution. However, top-down inhibition of nociceptive activity and pain may be altered in normal aging due to decreased WM. tDCS is a promising method in this regard since anodal tDCS of the left dorsolateral prefrontal cortex (DLPFC) was shown to improve WM performance. Methods: Two experiments were conducted on forty healthy (first study) and fifteen older volunteers (second study). They participated in two tDCS sessions (sham and anodal tDCS), in which the pain was evoked by electrical stimulation at the ankle. Participants performed an n-back task (0-back and 2-back) while they received random electrical stimulation to produce pain and the nociceptive flexion reflex, an index of spinal nociception. The experimental protocol comprised five counterbalanced conditions (0-back, 2-back, pain, 0-back with pain and 2-back with pain) that were performed twice (pre-tDCS baseline and during tDCS). Results: In both studies, neuromodulation of left DLPFC enhanced pain inhibition by WM. However, the nociceptive flexion reflex was not modulated by WM enhancement suggesting that improvement of pain inhibition by WM using tDCS is supraspinal and independent of descending inhibitory pathways. These studies improve our understanding of the interactions between cognition, pain and age and show how neuromodulation may change these interactions to improve pain inhibition. Findings support the development of neuromodulation protocols for pain management in older persons

Improving working memory and pain inhibition in older persons using transcranial direct current stimulation

The aim of the present study was to examine whether transcranial Direct Current Stimulation (tDCS) could enhance working memory and pain inhibition in older persons. Fifteen volunteers (7 women, 8 men; mean ± SD: 64 ± 4.4 y.o.) participated in two tDCS sessions during which an n-back task was performed with two levels of working memory load, while painful stimulation was delivered at the ankle. The experiment included five within-subject counterbalanced conditions (pain alone and 0-back or 2-back with or without pain) performed twice during each session. Compared with the pre-tDCS baseline, anodal tDCS decreased response times and improved pain inhibition by working memory in the 2-back condition (p 0.3). These results indicate that working memory and pain inhibition can be improved by tDCS in older persons. © 2019 Elsevier B.V. and Japan Neuroscience Societ

Enhancement of pain inhibition by working memory with anodal transcranial direct current stimulation of the left dorsolateral prefrontal cortex

The aim of this study was to examine whether transcranial direct current stimulation (tDCS) of the dorsolateral prefrontal cortex (DLPFC) enhances pain inhibition by improving working memory (WM). Forty healthy volunteers participated in two tDCS sessions. Pain was evoked by electrical stimulation at the ankle. Participants performed an n-back task (0-back and 2-back). The experimental protocol comprised five counterbalanced conditions (0-back, 2-back, pain, 0-back with pain and 2-back with pain) that were performed twice (pre-tDCS baseline and during tDCS). Compared with the pre-tDCS baseline values, anodal tDCS decreased response times for the 2-back condition (p  0.5). Anodal tDCS also decreased pain ratings marginally in the 2-back with pain condition, but not the 0-back with pain condition (p = 0.052 and p > 0.2, respectively). No effect was produced by sham tDCS for any condition (p > 0.2). These results indicate that tDCS of the left DLPFC may enhance pain inhibition by improving WM. © 2018, The Physiological Society of Japan and Springer Japan KK, part of Springer Nature

Reduction of pain and spinal nociceptive transmission by working memory is load dependant

Working memory (WM) engagement produces pain inhibition. However, it remains unclear whether higher WM load increases this effect. The aim of this study was to investigate the interaction between WM load and pain inhibition by WM and examine the contribution of cerebrospinal mechanism. Thirty-eight healthy volunteers were assigned to one of 2 n-back groups for which WM load was different (2-back or 3-back). The experimental protocol comprised 5 counterbalanced conditions (0-back, n-back, pain, 0-back with pain, and n-back with pain). Pain and the nociceptive flexion reflex (NFR) were evoked by transcutaneous electrical stimulation of the sural nerve. Pain was significantly different between conditions, but not between n-back groups. Both the 0-back and n-back tasks reduced pain compared with pain alone, but the n-back task produced stronger pain inhibition compared with the 0-back task. NFR amplitude was significantly different between conditions but not between n-back groups. NFR was inhibited by the 0-back and n-back tasks, with no difference between the 2 tasks. These findings indicate that pain inhibition by WM is increased by WM load, but only to a certain point. NFR inhibition by WM suggests that inhibition of pain by WM depends, at least in part, on cerebrospinal mechanism. Perspective: This behavioral and electrophysiological study shows that engaging in a cognitive task reduces pain by decreasing spinal nociceptive transmission, depending on task difficulty. These findings may yield better nonpharmacological pain therapies based on individual differences in working memory performance and capacity as well as several factors that regulate working memory. © 2021 United States Association for the Study of Pain, Inc

From hands-on to remote:Moderators of response to a novel self-management telehealth programme during the COVID-19 pandemic

BACKGROUND: In March 2020, state‐wide lockdowns were declared in many countries, including Spain. Citizens were confined to their homes and remotely supported activities were prioritized as an alternative to in‐person interactions. Previous data suggest that remote and self‐management interventions may be successful at reducing pain and related psychological variables. However, individual factors influencing the effectiveness of these interventions remain to be identified. We aimed to investigate the psychological and motivational factors moderating changes in pain observed in chiropractic patients undertaking a novel telehealth self‐management programme. METHODS: A cohort of 208 patients from a chiropractic teaching clinic was recruited to participate in the study. Patients received telehealth consultations and individualized self‐management strategies tailored for their current complaint. They were encouraged to make use of these strategies daily for 2–4 weeks, whilst rating their pain intensity, motivation and adherence. Validated questionnaires were completed online to assess catastrophizing, kinesiophobia and anxiety. RESULTS: A total of 168 patients completed the first 2 weeks of the programme, experiencing significant reductions in all variables. Kinesiophobia emerged as a key factor influencing pain reduction and moderating the association between motivation and pain relief. In turn, adherence to the programme was associated with lower pain intensity, although moderated by the degree of motivation. CONCLUSIONS: In the context of COVID‐19, when introducing remote and self‐management strategies, pain cognitions and motivational factors should be taken into consideration to foster adherence and yield better pain outcomes