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Naslov: Spinal mechanisms in post-activation potentiation : facilitation of presynaptic inhibition contrasts h-reflex amplitude reduction Avtorji: ID Kalc, Miloš (Avtor) ID Holobar, Aleš (Avtor) ID Kramberger, Matej (Avtor) ID Murks, Nina (Avtor) ID Škarabot, Jakob (Avtor) Datoteke: PDF - Predstavitvena datoteka, prenos (12,07 MB) MD5: A8327996638B887E59315BE2CADE241E   URL - Izvorni URL, za dostop obiščite https://journals.physiology.org/doi/abs/10.1152/jn.00031.2026   Jezik: Angleški jezik Tipologija: 1.01 - Izvirni znanstveni članek Organizacija: ZRS Koper - Znanstveno-raziskovalno središče Koper / Centro di Ricerche Scientifiche Capodistria Povzetek: This study invesƟgated the spinal neural mechanisms underlying post‐acƟvaƟon potenƟaƟon in ten16healthy young males (21.9 ± 4.8 years). ParƟcipants performed a 10‐second maximal isometric17plantarflexion, aŌer which we measured twitch torque and assessed spinal excitability using the18soleus H‐reflex, D1 presynapƟc inhibiƟon and heteronymous Ia facilitaƟon (HF). High‐density surface19EMG was decomposed to track single motor unit responses. The condiƟoning contracƟon increased20twitch torque by 12.2 Nm (p < 0.001) immediately and returning to baseline within nine minutes. This21mechanical potenƟaƟon was accompanied by a 29% reducƟon in H‐reflex amplitude (p < 0.001),22which recovered within three minutes. Paradoxically, neurophysiological indices of presynapƟc23inhibiƟon, D1 and HF were significantly increased (D1: p<0.017; HF: p<0.001), resulƟng in spinal24facilitaƟon. Single MU analysis revealed increased discharge probability, parƟcularly in higher‐25threshold units indicaƟng overall spinal facilitaƟon. These results demonstrate that post‐acƟvaƟon26potenƟaƟon involves a complex dissociaƟon: H‐reflex pathway inhibiƟon along with facilitaƟon of27presynapƟc spinal mechanisms. This paradox can be explained by either post‐acƟvaƟon depression28(caused by depleƟon of neurotransmiƩer at the Ia–motoneuron synapse) or muscle thixotropy, a29contracƟon history‐dependent decrease in muscle spindle sensiƟvity, which reduces the efficacy of30the Ia afferent volley independently of spinal inhibitory mechanisms. Our findings highlight a31dissociaƟon between spinal presynapƟc facilitaƟon and the decreased H‐reflex, underscoring the32need for future studies to explicitly test the roles of post‐acƟvaƟon depression and muscle thixotropy33aŌer condiƟoning contracƟons. Ključne besede: HDsEMG, Ia afference, soleus, heteroniumous Ia facilitation, spinal reflex, muscle contraction, neural mechanisms, performance enhancement Status publikacije: Objavljeno Verzija publikacije: Objavljena publikacija Datum objave: 01.01.2026 Leto izida: 2026 Št. strani: str. 1-35 Številčenje: Vol. , iss. PID: 20.500.12556/DiRROS-29360  UDK: 612.741 ISSN pri članku: 0022-3077 DOI: 10.1152/jn.00031.2026  COBISS.SI-ID: 277837059  Avtorske pravice: © 2026 The Authors. Opomba: Soavtorji: Aleš Holobar, Matej Kramberger, Nina Murks, Jakob Škarabot; Datum objave v DiRROS: 12.05.2026 Število ogledov: 34 Število prenosov: 18 Metapodatki:    Citiraj gradivo Navadno besedilo BibTeX EndNote XML EndNote/Refer RIS ABNT ACM Ref AMA APA Chicago 17th Author-Date Harvard IEEE ISO 690 MLA Vancouver : Kopiraj citat

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Gradivo je del revije

Naslov:	Journal of neurophysiology
Založnik:	American Physiological Society
ISSN:	0022-3077
COBISS.SI-ID:	430093

Gradivo je financirano iz projekta

Financer:	ARIS - Javna agencija za znanstvenoraziskovalno in inovacijsko dejavnost Republike Slovenije
Številka projekta:	P2-0041-2020
Naslov:	Računalniški sistemi, metodologije in inteligentne storitve

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Financer:	ARIS - Javna agencija za znanstvenoraziskovalno in inovacijsko dejavnost Republike Slovenije
Številka projekta:	J2-1731-2019
Naslov:	Dekompozicija sestavljenih mišičnih potencialov

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Financer:	ARIS - Javna agencija za znanstvenoraziskovalno in inovacijsko dejavnost Republike Slovenije
Številka projekta:	P5-0381-2022
Naslov:	Kineziologija za kakovost življenja

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Financer:	EC - European Commission
Številka projekta:	101079392
Naslov:	Hybrid neuroscience based on cerebral and muscular information for motor rehabilitation and neuromuscular disorders
Akronim:	HybridNeuro

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