The effect of paired associative stimulation with a high-intensity cortical component and a high-frequency peripheral component on heart rate and heart rate variability in healthy subjects
A novel protocol for paired associative stimulation (PAS), called high PAS, consists of high-intensity transcranial magnetic stimulation (TMS) and high-frequency peripheral nerve stimulation (PNS). High PAS was developed for spinal cord injury rehabilitation and targets plastic changes in stimulated...
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| Published in | Frontiers in rehabilitation sciences Vol. 4; p. 1200958 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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Frontiers Media S.A
26.07.2023
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| Abstract | A novel protocol for paired associative stimulation (PAS), called high PAS, consists of high-intensity transcranial magnetic stimulation (TMS) and high-frequency peripheral nerve stimulation (PNS). High PAS was developed for spinal cord injury rehabilitation and targets plastic changes in stimulated pathways in the corticospinal tract, which improves motor function. As therapy interventions can last many weeks, it is important to fully understand the effects of high PAS, including its effect on the cardiovascular system. Heart rate variability (HRV) has been used to measure changes in both sympathetic and parasympathetic systems.
We used short-term HRV measurements to evaluate the effects of one 20-min session of high PAS on 17 healthy individuals. HRV was recorded for 5 min before (PRE), during (STIM), immediately after (POST), 30 min after (POST30), and 60 min after (POST60) the stimulation. Five participants repeated the HRV setup with sham stimulation.
A significant decrease in low-frequency (LF) power (n.u.) (
= 0.002), low-frequency to high-frequency (HF) ratio (
= 0.017), in Poincaré plot [the standard deviation of RR intervals perpendicular to (SD1) and along (SD2) the line of identity SD2/SD1 ratio
< 0.001], and an increase in HF power (n.u.) (
= 0.002) were observed between PRE and STIM conditions; these changes were fully reversible immediately after stimulation. PRE to POST by 3% (
= 0.015) and continued to decline until POST60 by 5% (
= 0.011). LF power (ms
) (
= 0.017) and SD2 (
= 0.015) decreased from PRE to STIM and increased from PRE to POST (
= 0.025 and
= 0.017, respectively). The results from sham PAS exhibited a trend similar to active high-PAS stimulation.
High PAS does not have sustained effects during 60-min follow-up on cardiovascular functions, as measured by HRV. None of the short-term results indicates activation of the sympathetic nervous system in healthy individuals. Observed changes in HRV indicate higher parasympathetic activity during stimulation, which is reversible, and is plausibly explained by the fact that the participants spend 20 min without moving, talking, or using phones while being stimulated. |
|---|---|
| AbstractList | ObjectiveA novel protocol for paired associative stimulation (PAS), called high PAS, consists of high-intensity transcranial magnetic stimulation (TMS) and high-frequency peripheral nerve stimulation (PNS). High PAS was developed for spinal cord injury rehabilitation and targets plastic changes in stimulated pathways in the corticospinal tract, which improves motor function. As therapy interventions can last many weeks, it is important to fully understand the effects of high PAS, including its effect on the cardiovascular system. Heart rate variability (HRV) has been used to measure changes in both sympathetic and parasympathetic systems.MethodsWe used short-term HRV measurements to evaluate the effects of one 20-min session of high PAS on 17 healthy individuals. HRV was recorded for 5 min before (PRE), during (STIM), immediately after (POST), 30 min after (POST30), and 60 min after (POST60) the stimulation. Five participants repeated the HRV setup with sham stimulation.ResultsA significant decrease in low-frequency (LF) power (n.u.) (p = 0.002), low-frequency to high-frequency (HF) ratio (p = 0.017), in Poincaré plot [the standard deviation of RR intervals perpendicular to (SD1) and along (SD2) the line of identity SD2/SD1 ratio p < 0.001], and an increase in HF power (n.u.) (p = 0.002) were observed between PRE and STIM conditions; these changes were fully reversible immediately after stimulation. PRE to POST by 3% (p = 0.015) and continued to decline until POST60 by 5% (p = 0.011). LF power (ms2) (p = 0.017) and SD2 (p = 0.015) decreased from PRE to STIM and increased from PRE to POST (p = 0.025 and p = 0.017, respectively). The results from sham PAS exhibited a trend similar to active high-PAS stimulation.ConclusionsHigh PAS does not have sustained effects during 60-min follow-up on cardiovascular functions, as measured by HRV. None of the short-term results indicates activation of the sympathetic nervous system in healthy individuals. Observed changes in HRV indicate higher parasympathetic activity during stimulation, which is reversible, and is plausibly explained by the fact that the participants spend 20 min without moving, talking, or using phones while being stimulated. Objective A novel protocol for paired associative stimulation (PAS), called high PAS, consists of high-intensity transcranial magnetic stimulation (TMS) and high-frequency peripheral nerve stimulation (PNS). High PAS was developed for spinal cord injury rehabilitation and targets plastic changes in stimulated pathways in the corticospinal tract, which improves motor function. As therapy interventions can last many weeks, it is important to fully understand the effects of high PAS, including its effect on the cardiovascular system. Heart rate variability (HRV) has been used to measure changes in both sympathetic and parasympathetic systems. Methods We used short-term HRV measurements to evaluate the effects of one 20-min session of high PAS on 17 healthy individuals. HRV was recorded for 5 min before (PRE), during (STIM), immediately after (POST), 30 min after (POST30), and 60 min after (POST60) the stimulation. Five participants repeated the HRV setup with sham stimulation. Results A significant decrease in low-frequency (LF) power (n.u.) ( p = 0.002), low-frequency to high-frequency (HF) ratio ( p = 0.017), in Poincaré plot [the standard deviation of RR intervals perpendicular to (SD1) and along (SD2) the line of identity SD2/SD1 ratio p < 0.001], and an increase in HF power (n.u.) ( p = 0.002) were observed between PRE and STIM conditions; these changes were fully reversible immediately after stimulation. PRE to POST by 3% ( p = 0.015) and continued to decline until POST60 by 5% ( p = 0.011). LF power (ms 2 ) ( p = 0.017) and SD2 ( p = 0.015) decreased from PRE to STIM and increased from PRE to POST ( p = 0.025 and p = 0.017, respectively). The results from sham PAS exhibited a trend similar to active high-PAS stimulation. Conclusions High PAS does not have sustained effects during 60-min follow-up on cardiovascular functions, as measured by HRV. None of the short-term results indicates activation of the sympathetic nervous system in healthy individuals. Observed changes in HRV indicate higher parasympathetic activity during stimulation, which is reversible, and is plausibly explained by the fact that the participants spend 20 min without moving, talking, or using phones while being stimulated. A novel protocol for paired associative stimulation (PAS), called high PAS, consists of high-intensity transcranial magnetic stimulation (TMS) and high-frequency peripheral nerve stimulation (PNS). High PAS was developed for spinal cord injury rehabilitation and targets plastic changes in stimulated pathways in the corticospinal tract, which improves motor function. As therapy interventions can last many weeks, it is important to fully understand the effects of high PAS, including its effect on the cardiovascular system. Heart rate variability (HRV) has been used to measure changes in both sympathetic and parasympathetic systems. We used short-term HRV measurements to evaluate the effects of one 20-min session of high PAS on 17 healthy individuals. HRV was recorded for 5 min before (PRE), during (STIM), immediately after (POST), 30 min after (POST30), and 60 min after (POST60) the stimulation. Five participants repeated the HRV setup with sham stimulation. A significant decrease in low-frequency (LF) power (n.u.) ( = 0.002), low-frequency to high-frequency (HF) ratio ( = 0.017), in Poincaré plot [the standard deviation of RR intervals perpendicular to (SD1) and along (SD2) the line of identity SD2/SD1 ratio < 0.001], and an increase in HF power (n.u.) ( = 0.002) were observed between PRE and STIM conditions; these changes were fully reversible immediately after stimulation. PRE to POST by 3% ( = 0.015) and continued to decline until POST60 by 5% ( = 0.011). LF power (ms ) ( = 0.017) and SD2 ( = 0.015) decreased from PRE to STIM and increased from PRE to POST ( = 0.025 and = 0.017, respectively). The results from sham PAS exhibited a trend similar to active high-PAS stimulation. High PAS does not have sustained effects during 60-min follow-up on cardiovascular functions, as measured by HRV. None of the short-term results indicates activation of the sympathetic nervous system in healthy individuals. Observed changes in HRV indicate higher parasympathetic activity during stimulation, which is reversible, and is plausibly explained by the fact that the participants spend 20 min without moving, talking, or using phones while being stimulated. |
| Author | Haakana, P Shulga, A Nätkynmäki, A Kirveskari, E Holopainen, K Tarvainen, M P |
| AuthorAffiliation | 6 Department of Physical and Rehabilitation Medicine , Helsinki University Hospital and University of Helsinki , Helsinki , Finland 4 Department of Technical Physics , University of Eastern Finland , Kuopio , Finland 5 Department of Clinical Physiology and Nuclear Medicine , Kuopio University Hospital , Kuopio , Finland 3 HUS Medical Imaging Center, Clinical Neurophysiology, Clinical Neurosciences , Helsinki University Hospital and University of Helsinki , Helsinki , Finland 1 BioMag Laboratory , HUS Diagnostic Center, Helsinki University Hospital, University of Helsinki and Aalto University School of Science , Helsinki , Finland 2 Motion Analysis Laboratory , New Children’s Hospital, Helsinki University Hospital and University of Helsinki , Helsinki , Finland |
| AuthorAffiliation_xml | – name: 2 Motion Analysis Laboratory , New Children’s Hospital, Helsinki University Hospital and University of Helsinki , Helsinki , Finland – name: 4 Department of Technical Physics , University of Eastern Finland , Kuopio , Finland – name: 5 Department of Clinical Physiology and Nuclear Medicine , Kuopio University Hospital , Kuopio , Finland – name: 3 HUS Medical Imaging Center, Clinical Neurophysiology, Clinical Neurosciences , Helsinki University Hospital and University of Helsinki , Helsinki , Finland – name: 6 Department of Physical and Rehabilitation Medicine , Helsinki University Hospital and University of Helsinki , Helsinki , Finland – name: 1 BioMag Laboratory , HUS Diagnostic Center, Helsinki University Hospital, University of Helsinki and Aalto University School of Science , Helsinki , Finland |
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| Keywords | cardiovascular function autonomic nervous system transcranial magnetic stimulation parasympathetic activity peripheral nerve stimulation |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 These authors have contributed equally to this work Edited by: Gustavo Balbinot, University Health Network (UHN), Canada Reviewed by: Shirin Tajali, Toronto Rehabilitation Institute, University Health Network, Canada Ljubica Konstantinovic, University of Belgrade, Serbia |
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| Snippet | A novel protocol for paired associative stimulation (PAS), called high PAS, consists of high-intensity transcranial magnetic stimulation (TMS) and... Objective A novel protocol for paired associative stimulation (PAS), called high PAS, consists of high-intensity transcranial magnetic stimulation (TMS) and... ObjectiveA novel protocol for paired associative stimulation (PAS), called high PAS, consists of high-intensity transcranial magnetic stimulation (TMS) and... |
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| Title | The effect of paired associative stimulation with a high-intensity cortical component and a high-frequency peripheral component on heart rate and heart rate variability in healthy subjects |
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