Modulating Brain Rhythms of Pain Using Transcranial Alternating Current Stimulation (tACS) - A Sham-Controlled Study in Healthy Human Participants

E, May; Hohn, Vanessa D.; Nickel, Moritz M.; Tiemann, Laura; Ávila, Cristina Gil; Heitmann, Henrik; Sauseng, Paul; Ploner, Markus

doi:10.1016/j.jpain.2021.03.150

Cited by 12 publications

(8 citation statements)

References 65 publications

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“…Nevertheless, the changes in pain ratings did not differ between real α-tACS and sham stimulation conditions, indicating that α-tACS of SM1 did not overwhelmingly affect perceptual responses to suprathreshold painful stimuli. The lack of an α-tACS effect was consistent with a recent study reporting that α-tACS did not successfully modulate tonic experimental pain in healthy human participants 33 but was inconsistent with a study reporting the analgesic effects of α-tACS. 3 Nevertheless, differences in both tACS stimulation protocols and pain assessments should be noted when comparing results from this study and these previous studies.…”

Section: Discussionsupporting

confidence: 61%

“…Subjective pain perception in response to mechanical pain has been shown to attenuate during the application of somatosensory α-tACS, provided that the intensity of painful stimulation is uncertain. 3 By contrast, using an experimental model of tonic pain among healthy participants, May et al 33 reported that pain or pain-related autonomic activity was not significantly affected by somatosensory α-tACS. These 2 studies thus reported inconsistent results regarding how experimental pain perception was affected during the application of sensorimotor α-tACS (ie, “online effects” during stimulation).…”

Section: Introductionmentioning

confidence: 95%

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Aftereffects of alpha transcranial alternating current stimulation over the primary sensorimotor cortex on cortical processing of pain

Peng

Zhan

Jin

et al. 2022

Pain

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Transcranial alternating current stimulation (tACS) is believed to modulate brain oscillations in a frequency-specific manner. Given the correlation between sensorimotor a-oscillations and pain perception, tACS that targets sensorimotor a-oscillations has the potential to reduce pain. Therefore, this study sought to determine the aftereffects of a-tACS over unilateral primary sensorimotor cortex (SM1) on the perceptual and neural responses to noxious painful stimulation of the contralateral hand. Using a double-blinded and sham-controlled design, 60 healthy participants were recruited to receive either a-tACS or sham stimulation of unilateral SM1 through an electrode montage in a 4 3 1 ring configuration. Neural responses to laser nociceptive stimuli were assessed using functional magnetic resonance imaging immediately before and after a-tACS intervention. Perceptual reports were recorded simultaneously. Compared with sham stimulation, a-tACS attenuated bilateral SM1 responses to painful stimuli delivered to the contralateral hand. Although a-tACS did not exert direct effect on subjective pain perception, it can indirectly decrease ratings of pain perception by reducing brain activity within the targeted SM1. Moreover, a-tACS decreased the functional connectivity between the targeted SM1 and a network of regions that are crucially involved in pain processing, including the middle cingulate cortex, contralateral somatosensory cortex, and dorsolateral prefrontal cortex. These results demonstrated that after a-tACS applied over the unilateral SM1 does attenuate subsequent neural processing of pain within bilateral sensorimotor regions as well as sensorimotor functional connectivity. The findings provide evidence that sensorimotor a-oscillations directly affect pain processing and support the application of sensorimotor a-tACS for inducing pain analgesia.

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Section: Discussionsupporting

confidence: 61%

Section: Introductionmentioning

confidence: 95%

Aftereffects of alpha transcranial alternating current stimulation over the primary sensorimotor cortex on cortical processing of pain

Peng

Zhan

Jin

et al. 2022

Pain

View full text Add to dashboard Cite

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“…The authors showed that alpha-tACS over bilateral sensorimotor cortices can reduce subject-reported pain when the intensity of an upcoming pain was uncertain. However, another study reported that alpha-tACS over bilateral sensorimotor cortices had no effect on experimental heat pain in healthy participants ( May et al, 2021 ). Clinical studies have investigated whether tACS modulates pain intensity in patients with chronic low back pain.…”

Section: Pain Control Targeting Abnormal Neural Oscillationsmentioning

confidence: 99%

“…Few tACS studies have adapted conditions other than somatosensory alpha oscillations to modulate pain. A recent study investigated whether gamma-tACS over bilateral prefrontal cortices modulates experimental heat pain ( May et al, 2021 ). Gamma oscillations in prefrontal areas encode pain intensity during experimental heat pain in healthy participants ( Schulz et al, 2015 ; Nickel et al, 2017 ) and are associated with ongoing back pain intensity ( May et al, 2019 ).…”

Section: Pain Control Targeting Abnormal Neural Oscillationsmentioning

confidence: 99%

Pain control based on oscillatory brain activity using transcranial alternating current stimulation: An integrative review

Takeuchi

2023

Front. Hum. Neurosci.

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Developing effective tools and strategies to relieve chronic pain is a high-priority scientific and clinical goal. In particular, the brain regions related to pain processing have been investigated as potential targets to relieve pain by non-invasive brain stimulation (NIBS). In addition to elucidating the relationship between pain and oscillatory brain activity, transcranial alternating current stimulation (tACS), which can non-invasively entrain oscillatory brain activity and modulate oscillatory brain communication, has attracted scientific attention as a possible technique to control pain. This review focuses on the use of tACS to relieve pain through the manipulation of oscillatory brain activity and its potential clinical applications. Several studies have reported that tACS on a single brain reduces pain by normalizing abnormal oscillatory brain activity in patients with chronic pain. Interpersonal tACS approaches based on inter-brain synchrony to manipulate inter-brain communication may result in pain relief via prosocial effects. Pain is encoded by the spatiotemporal neural communication that represents the integration of cognitive, emotional-affective, and sensorimotor aspects of pain. Therefore, future studies should seek to identify the pathological oscillatory brain communication in chronic pain as a therapeutic target for tACS. In conclusion, tACS could be effective for re-establishing oscillatory brain activity and assisting social interaction, and it might help develop novel approaches for pain control.

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“…Single-pulse TMS uses frequent sites of action, such as the primary motor cortex (M1) ( Savoie et al, 2020 ). tDCS and tACS cathode and anode positions: contralateral orbit (SO), primary sensory cortex (S1) ( Marlow et al, 2013 ; May et al, 2021 ). tRNS: cerebral cortex.…”

Section: Non-invasive Brain Stimulationmentioning

confidence: 99%

Non-invasive brain stimulation for osteoarthritis

Zhu

Luo

Wang

et al. 2022

Front. Aging Neurosci.

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Osteoarthritis (OA) is a degenerative joint disease, the prevalence of OA is increasing, and the elderly are the most common in patients with OA. OA has a severe impact on the daily life of patients, this increases the demand for treatment of OA. In recent years, the application of non-invasive brain stimulation (NIBS) has attracted extensive attention. It has been confirmed that NIBS plays an important role in regulating cortical excitability and oscillatory rhythm in specific brain regions. In this review, we summarized the therapeutic effects and mechanisms of different NIBS techniques in OA, clarified the potential of NIBS as a treatment choice for OA, and provided prospects for further research in the future.

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Modulating Brain Rhythms of Pain Using Transcranial Alternating Current Stimulation (tACS) - A Sham-Controlled Study in Healthy Human Participants

Cited by 12 publications

References 65 publications

Aftereffects of alpha transcranial alternating current stimulation over the primary sensorimotor cortex on cortical processing of pain

Aftereffects of alpha transcranial alternating current stimulation over the primary sensorimotor cortex on cortical processing of pain

Pain control based on oscillatory brain activity using transcranial alternating current stimulation: An integrative review

Non-invasive brain stimulation for osteoarthritis

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