Author(s): Ahmed Z, Wieraszko A
Trans-spinal direct current (tsDC) stimulation is a modulator of spinal excitability and can influence cortically elicited muscle contraction in a polarity-dependent fashion. When combined with low-frequency repetitive cortical stimulation, cathodal tsDC [tsDC(-)] produces a long-term facilitation of cortically elicited muscle actions. We investigated the ability of this combined stimulation paradigm to facilitate cortically elicited muscle actions in spinal cord-injured and noninjured animals. The effect of tsDC-applied alone or in combination with repetitive spinal stimulation (rSS) on the release of the glutamate analog, D-2,3-(3)H-aspartate (D-Asp), from spinal cord preparations in vitro-was also tested. In noninjured animals, tsDC (-2 mA) reproducibly potentiated cortically elicited contractions of contralateral and ipsilateral muscles tested at various levels of baseline muscle contraction forces. Cortically elicited muscle responses in animals with contusive and hemisectioned spinal cord injuries (SCIs) were similarly potentiated. The combined paradigm of stimulation caused long-lasting potentiation of cortically elicited bilateral muscle contraction in injured and noninjured animals. Additional analysis suggests that at higher baseline forces, tsDC(-) application does not increase the rising slope of the muscle contraction but causes repeated firing of the same motor units. Both cathodal and anodal stimulations induced a significant increase of D-Asp release in vitro. The effect of the combined paradigm of stimulation (tsDC and rSS) on the concentration of extracellular D-Asp was polarity dependent. These results indicate that tsDC can powerfully modulate the responsiveness of spinal cord neurons. The results obtained from the in vitro preparation suggest that the changes in neuronal excitability were correlated with an increased concentration of extracellular glutamate. The combined paradigm of stimulation, used in our experiments, could be noninvasively applied to restore motor control in humans with SCI.
Referred From: https://www.ncbi.nlm.nih.gov/pubmed/22362399
Author(s): Seltzer Z, Cohn S, Ginzburg R, Beilin B
Author(s): Tseng AS, Beane WS, Lemire JM, Masi A, Levin M
Author(s): Ahmed Z, Wagdy M, Benjamin M, Mohamed S, Mohamed H, et al.
Author(s): Ahmed Z, Wieraszko A
Author(s): Debanne D, Poo MM
Author(s): Belmeguenai A, Hosy E, Bengtsson F, Pedroarena CM, Piochon C, et al.
Author(s): Hanse E
Author(s): Triesch J
Author(s): Desai NS, Rutherford LC, Turrigiano GG
Author(s): Kennard JT, Guévremont D, Mason-Parker SE, Abraham WC, Williams JM
Author(s): Richter-Levin G, Canevari L, Bliss TV
Author(s): Clarkson AN, Overman JJ, Zhong S, Mueller R, Lynch G, et al.
Author(s): Chi SI, Levine JD, Basbaum AI
Author(s): Boroujerdi A, Kim HK, Lyu YS, Kim DS, Figueroa KW, et al.
Author(s): Cohn S, Seltzer Z
Author(s): Seltzer Z, Beilin BZ, Ginzburg R, Paran Y, Shimko T
Author(s): Ghijsen WE, Besselsen E, Geukers V, Kamphuis W, Lopes da Silva FH
Author(s): Bliss TV, Errington ML, Laroche S, Lynch MA
Author(s): Dolphin AC, Errington ML, Bliss TV
Author(s): Ahmed Z, Freedland R, Wieraszko A
Author(s): Ahmed Z
Author(s): Gruner JA
Author(s): Jiang M, Schuster JE, Fu R, Siddique T, Heckman CJ
Author(s): Moghaddasi M, Velumian AA, Zhang L, Fehlings MG
Author(s): Jiang MC, Heckman CJ
Author(s): Sawynok J, Downie JW, Reid AR, Cahill CM, White TD
Author(s): Wieraszko A, Armani J, Maqsood N, Raja H, Philip S
Author(s): BROMAGE PR, JOYAL AC, BINNEY JC
Author(s): Foffani G, Humanes-Valera D, Calderon-Muñoz F, Oliviero A, Aguilar J
Author(s): Kuno M, Matsuura S
Author(s): McAdoo DJ, Hughes MG, Nie L, Shah B, Clifton C, et al.
Author(s): Xu GY, Hughes MG, Ye Z, Hulsebosch CE, McAdoo DJ
Author(s): Park E, Velumian AA, Fehlings MG
Author(s): Connelly TJ, Ahern C, Coronado R
Author(s): Kaye AD, Banister RE, Anwar M, Feng CJ, Kadowitz PJ, et al.
Author(s): Agrawal SK, Theriault E, Fehlings MG
Author(s): Lips J, de Haan P, Bodewits P, Vanicky I, Dzoljic M, et al.
Author(s): Gupta A, Devi LA, Gomes I
Author(s): Sarton E, Teppema LJ, Olievier C, Nieuwenhuijs D, Matthes HW, et al.
Author(s): Nemeth CL, Paine TA, Rittiner JE, Béguin C, Carroll FI, et al.
Author(s): Winkler T, Sharma HS, Stålberg E, Olsson Y, Nyberg F
Author(s): Bakshi R, Ni RX, Faden AI
Author(s): Chesler M, Sakatani K, Hassan AZ
Author(s): Katayama Y, Becker DP, Tamura T, Hovda DA
Author(s): Katayama Y, Kawamata T, Tamura T, Hovda DA, Becker DP, et al.
Author(s): Borgens RB
Author(s): Hamase K, Homma H, Takigawa Y, Fukushima T, Santa T, et al.
Author(s): Savage DD, Galindo R, Queen SA, Paxton LL, Allan AM
Author(s): Fleck MW, Barrionuevo G, Palmer AM
Author(s): Olsen ML, Campbell SC, McFerrin MB, Floyd CL, Sontheimer H
Author(s): Papke D, Gonzalez-Gutierrez G, Grosman C
Author(s): Sola E, Prestori F, Rossi P, Taglietti V, D'Angelo E
Author(s): Koyano K, Kuba K, Minota S
Author(s): Bliss TV, Douglas RM, Errington ML, Lynch MA
Author(s): Tsvetkov E, Shin RM, Bolshakov VY
Author(s): Levenson J, Weeber E, Selcher JC, Kategaya LS, Sweatt JD, et al.
Author(s): Correia SS, Bassani S, Brown TC, Lisé MF, Backos DS, et al.
Author(s): Williams JM, Guévremont D, Mason-Parker SE, Luxmanan C, Tate WP, et al.
Author(s): Malinow R
Author(s): Yang Y, Wang XB, Frerking M, Zhou Q
Author(s): Apaydin AZ, Büket S
Author(s): Kobrine AI, Evans DE, LeGrys DC, Yaffe LJ, Bradley ME
Author(s): Haghighi SS, Chehrazi BB, Higgins RS, Remington WJ, Wagner FC
Author(s): Robertson CS, Foltz R, Grossman RG, Goodman JC
Author(s): Hains BC, Saab CY, Lo AC, Waxman SG
Author(s): Schwartz G, Fehlings MG
Author(s): Waxman SG
Author(s): Borgens RB, Blight AR, Murphy DJ, Stewart L
Author(s): Borgens RB, Roederer E, Cohen MJ
Author(s): Borgens RB, Jaffe LF, Cohen MJ
Author(s): Obrenovitch TP, Urenjak J