Background and Objective: Near-infrared low-level laser (NIR-LLL) irradiation penetrates scalp and skull and can reach superficial layers of the cerebral cortex. It was shown to improve the outcome of acute stroke in both animal and human studies. In this study we evaluated whether transcranial laser stimulation (TLS) with NIR-LLL can modulate the excitability of the motor cortex (M1) as measured by transcranial magnetic stimulation (TMS). Methods: TLS was applied for 5 minutes over the representation of the right first dorsal interosseal muscle (FDI) in left primary motor cortex (M1), in 14 healthy subjects. Motor evoked potentials (MEPs) from the FDI, elicited by single-pulse TMS, were measured at baseline and up to 30 minutes after the TLS. Results: The average MEP size was significantly reduced during the first 20 minutes following the TLS. The pattern was present in 10(71.5%) of the participants. The MEP size reduction correlated negatively with the motor threshold at rest. Conclu...sions: TLS with NIR-LLL induced transitory reduction of the excitability of the stimulated cortex. These findings give further insights into the mechanisms of TLS effects in the human cerebral cortex, paving the way for potential applications of TLS in treatment of stroke and in other clinical settings. Lasers Surg. Med. 45:648-653, 2013.
Keywords:
neuronal excitability / membrane potential / transcranial magnetic stimulation / photobiomodulation / human
Source:
Lasers in Surgery & Medicine, 2013, 45, 10, 648-653
TY - JOUR
AU - Konstantinović, Ljubica
AU - Jelić, Milan
AU - Jeremić, Aleksandra
AU - Stevanović, Vuk B.
AU - Milanović, Slađan
AU - Filipović, Saša
PY - 2013
UR - http://rimi.imi.bg.ac.rs/handle/123456789/477
AB - Background and Objective: Near-infrared low-level laser (NIR-LLL) irradiation penetrates scalp and skull and can reach superficial layers of the cerebral cortex. It was shown to improve the outcome of acute stroke in both animal and human studies. In this study we evaluated whether transcranial laser stimulation (TLS) with NIR-LLL can modulate the excitability of the motor cortex (M1) as measured by transcranial magnetic stimulation (TMS). Methods: TLS was applied for 5 minutes over the representation of the right first dorsal interosseal muscle (FDI) in left primary motor cortex (M1), in 14 healthy subjects. Motor evoked potentials (MEPs) from the FDI, elicited by single-pulse TMS, were measured at baseline and up to 30 minutes after the TLS. Results: The average MEP size was significantly reduced during the first 20 minutes following the TLS. The pattern was present in 10(71.5%) of the participants. The MEP size reduction correlated negatively with the motor threshold at rest. Conclusions: TLS with NIR-LLL induced transitory reduction of the excitability of the stimulated cortex. These findings give further insights into the mechanisms of TLS effects in the human cerebral cortex, paving the way for potential applications of TLS in treatment of stroke and in other clinical settings. Lasers Surg. Med. 45:648-653, 2013.
PB - Wiley-Blackwell, Hoboken
T2 - Lasers in Surgery & Medicine
T1 - Transcranial Application of Near-Infrared Low-Level Laser Can Modulate Cortical Excitability
EP - 653
IS - 10
SP - 648
VL - 45
DO - 10.1002/lsm.22190
UR - conv_3128
ER -
@article{
author = "Konstantinović, Ljubica and Jelić, Milan and Jeremić, Aleksandra and Stevanović, Vuk B. and Milanović, Slađan and Filipović, Saša",
year = "2013",
abstract = "Background and Objective: Near-infrared low-level laser (NIR-LLL) irradiation penetrates scalp and skull and can reach superficial layers of the cerebral cortex. It was shown to improve the outcome of acute stroke in both animal and human studies. In this study we evaluated whether transcranial laser stimulation (TLS) with NIR-LLL can modulate the excitability of the motor cortex (M1) as measured by transcranial magnetic stimulation (TMS). Methods: TLS was applied for 5 minutes over the representation of the right first dorsal interosseal muscle (FDI) in left primary motor cortex (M1), in 14 healthy subjects. Motor evoked potentials (MEPs) from the FDI, elicited by single-pulse TMS, were measured at baseline and up to 30 minutes after the TLS. Results: The average MEP size was significantly reduced during the first 20 minutes following the TLS. The pattern was present in 10(71.5%) of the participants. The MEP size reduction correlated negatively with the motor threshold at rest. Conclusions: TLS with NIR-LLL induced transitory reduction of the excitability of the stimulated cortex. These findings give further insights into the mechanisms of TLS effects in the human cerebral cortex, paving the way for potential applications of TLS in treatment of stroke and in other clinical settings. Lasers Surg. Med. 45:648-653, 2013.",
publisher = "Wiley-Blackwell, Hoboken",
journal = "Lasers in Surgery & Medicine",
title = "Transcranial Application of Near-Infrared Low-Level Laser Can Modulate Cortical Excitability",
pages = "653-648",
number = "10",
volume = "45",
doi = "10.1002/lsm.22190",
url = "conv_3128"
}
Konstantinović, L., Jelić, M., Jeremić, A., Stevanović, V. B., Milanović, S.,& Filipović, S.. (2013). Transcranial Application of Near-Infrared Low-Level Laser Can Modulate Cortical Excitability. in Lasers in Surgery & Medicine
Wiley-Blackwell, Hoboken., 45(10), 648-653.
https://doi.org/10.1002/lsm.22190
conv_3128
Konstantinović L, Jelić M, Jeremić A, Stevanović VB, Milanović S, Filipović S. Transcranial Application of Near-Infrared Low-Level Laser Can Modulate Cortical Excitability. in Lasers in Surgery & Medicine. 2013;45(10):648-653.
doi:10.1002/lsm.22190
conv_3128 .
Konstantinović, Ljubica, Jelić, Milan, Jeremić, Aleksandra, Stevanović, Vuk B., Milanović, Slađan, Filipović, Saša, "Transcranial Application of Near-Infrared Low-Level Laser Can Modulate Cortical Excitability" in Lasers in Surgery & Medicine, 45, no. 10 (2013):648-653,
https://doi.org/10.1002/lsm.22190 .,
conv_3128 .
