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A master's thesis from Aalborg University
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Eccentric Exercise Inhibits the H Reflex in the Middle Trapezius Muscle

Authors

; ;

Term

4. term

Education

Biomedical Engineering and Informatics, Master

Publication year

2011

Submitted on

Pages

128

Abstract

Formålet var at undersøge to ting: om H-refleksen kan måles pålideligt over flere dage, og hvordan den påvirkes lige efter eksentrisk træning og under forsinket muskelømhed (DOMS) 24 timer senere. H-refleksen er en nerve‑muskelrefleks, der kan udløses med mild elektrisk stimulering af en nerve; den bruges som et mål for, hvor let rygmarvens motorneuroner aktiverer en muskel. Vi målte H‑reflekser fra deltagernes (n=10) dominerende midterste trapeziusmuskel ved stimulering af C3/4‑nerven i nakken. DOMS blev fremkaldt ved eksentrisk skuldertræning (musklen arbejder mens den forlænges), som typisk giver ømhed. Målingerne blev lavet i fire sessioner: 24 timer før træning, lige før, lige efter og 24 timer efter. Vi sammenlignede forholdet mellem den maksimale H‑refleks og den direkte muskelrespons (M‑bølge) (Hmax/Mmax) på tværs af sessioner. Derudover sammenlignede vi H‑refleksstørrelser ved 75% og 50% af den stimulusintensitet, der i baseline‑sessionen (24 timer før) gav maksimal H‑refleks (H75/Mmax og H50/Mmax). Resultaterne før træning viste ingen ændringer i disse forhold, hvilket tyder på god reproducerbarhed. Lige efter træning faldt H50/Mmax (statistisk signifikant). Når deltagerne havde DOMS 24 timer senere, faldt både H75/Mmax og H50/Mmax (statistisk signifikant). Samlet viser studiet, at grundmålinger var stabile med det valgte design, og at der skulle stærkere stimulering til både umiddelbart og 24 timer efter træning for at opnå samme H‑refleksstørrelse. Denne ændring i stimulus‑responsforholdet kan skyldes præsynaptisk hæmning af Ia‑afferente fibres input til motorneuronen via gruppe III og IV afferente fibre (beskyttende sensoriske signaler fra musklen).

This study had two aims: to test whether the H‑reflex can be measured reliably across consecutive days, and to examine how it changes immediately after eccentric exercise and during delayed‑onset muscle soreness (DOMS) 24 hours later. The H‑reflex is a nerve–muscle reflex elicited by mild electrical nerve stimulation; it is used to gauge how readily spinal motor neurons activate a muscle. We recorded H‑reflexes from the dominant middle trapezius muscle of 10 participants by stimulating the C3/4 cervical nerve. DOMS was induced with eccentric shoulder exercise (the muscle lengthens while contracting), which commonly causes soreness. Measurements were taken in four sessions: 24 hours before exercise, just before, immediately after, and 24 hours after. We compared the ratio of the maximal H‑reflex to the direct muscle response (M‑wave) (Hmax/Mmax) across sessions. We also compared H‑reflex amplitudes at 75% and 50% of the stimulus intensity that produced a maximal H‑reflex in the baseline session 24 hours before exercise (H75/Mmax and H50/Mmax). Results from sessions before exercise showed no changes, indicating good reproducibility. Immediately after exercise, H50/Mmax decreased (statistically significant). With DOMS at 24 hours, both H75/Mmax and H50/Mmax decreased (statistically significant). Overall, baseline measures were stable, and stronger stimulation was required both immediately and 24 hours after exercise to reach the same H‑reflex magnitude. This altered stimulus–response relationship may be due to presynaptic inhibition of Ia afferent input to the motoneuron by group III and IV afferent fibers (protective sensory signals from the muscle).

[This abstract was generated with the help of AI]

Keywords

H reflex ; trapezius ; electrical stimulation ; reproducibility ; delayed-onset muscle soreness

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