The effects of exercise-induced muscle damage on endurance performance

Burt, Dean

January 2013

It is well documented that engaging in resistance exercise can lead to further improvements in endurance performance. Whilst, not fully understood, it is speculated that increased motor unit recruitment, improved muscle coordination and enhanced utilisation of stored elastic energy after resistance-based exercise improves exercise economy. Nevertheless, while prolonged exposure to resistance training improves endurance performance in the long-term, a consequence of such training when unaccustomed is the appearance of exercise-induced muscle damage (EIMD). Exercise-induced muscle damage is well known to affect athletic performance requiring muscular strength and power; however, its effects on markers of endurance exercise are unclear. Therefore, the aim of this thesis was to investigate the effects of EIMD on endurance performance, with an emphasis on the physiological (oxygen uptake; , minute ventilation; ), metabolic (blood lactate; [La]), perceptual (rating of perceived exertion; RPE) and kinematic (stride length; SL, stride frequency; SF) responses during sub-maximal endurance exercise.

612

A Comparison Of Differing Modalities Of Exercise on the Acute Satellite Cell Responses in Older Adults

Séguin, Christopher

11 1900

Introduction: A hallmark of the human aging process is the gradual loss of muscle mass and strength, a phenomenon commonly referred to as sarcopenia. Although sarcopenia is likely the result of both a reduction in fiber size and a loss of muscle fibers, it has become abundantly clear that sarcopenia is primarily characterized by the reduction in type II fiber size. The mechanism(s) driving this fiber type-specific loss still remain largely unknown, but it has become evident that the dysregulation of a muscle-specific stem cell population called satellite cells (SC) plays an important role in its progression. Luckily, older adults still retain the ability to activate and expand their SC in response to exercise; what remains unclear is which modality of exercise is optimal for promoting SC contribution to skeletal muscle remodelling. We sought to test the hypothesis that both resistance exercise (RE) and high-intensity interval training (HIIT) would stimulate greater expansion of SC when compared to traditional aerobic exercise (AE). Furthermore, we also sought to determine potential extrinsic/intrinsic factors that might contribute to regulating the differences in SC behavior across the different modalities of exercise Methods: Sedentary older men (n=22; 67 ± 4 yr; BMI: 27.0 ± 2.6 kg•m-2 [mean ± SEM]) were randomly assigned to complete an acute bout of either RE (3 sets of leg extensor and press, 95% 10RM, n = 7), HIIT (10 x 1min, 95% maximal heart rate [HRmax], n= 8) or AE (30min, 55-60% HRmax. n = 7). Muscle biopsies were obtained before and at 24h and 48h following each exercise bout, while blood samples were taken before and at 24h after exercise. The SC response was analyzed using immunofluorescent microscopy and whole-muscle mRNA analysis, while the variability in exercise-induced muscle damage (EIMD) was estimated by analyzing serum samples for creatine kinase (CK) concentration. Results: The muscle SC content increased 45% (p < 0.001) and 52% (p = 0.001) relative to baseline at 24h and 48h respectively following RE, while HIIT stimulated a significant increase of 33% (p = 0.007) at 48h. Fiber type-specific analysis further revealed that both RE and HIIT were capable of inducing significant increases in both type I and type II-specific SC by 48h post-exercise. Further analysis of individual SC responses also revealed a correlation (r = 0.737, p < 0.001) between the change in SC content across the acute time-course and the relative change in creatine kinase (CK) activity levels 24h post-exercise. The lack of any notable SC expansion following AE was to some degree explained by insufficient changes to cell cycle and myostatin (MSTN)-related genes. Conversely, RE produced the greatest reduction in MSTN mRNA over the 48h time-course while inducing a noticeable decrease of 124% in SMAD3 (a mediator of MSTN signaling) mRNA at 48 post-exercise. Conclusions: These data illustrate that RE is the most potent stimulator of acute SC activity in older men, while also showing for the first time that of HIIT can induce a SC response in the same population. The positive relationship between the changes in SC content in response to exercise and CK activity levels suggests that the level of muscle damage induced by an exercise type may influence the magnitude of the subsequent SC response. The magnitude of each SC response is also likely influenced by unique changes in MSTN signaling that follow each modality of exercise. / Thesis / Master of Science in Kinesiology

Satellite Cells

Aging

Exercise-Induced Muscle Damage

Human

Sarcopenia

Exercise

Grape-seed extract (oligomeric proanthocyanidin) or N-acetylcysteine antioxidant supplementation several days before and after an acute bout of plyometric exercise

Delport, Chris J.

03 1900

Thesis (MSc)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: This thesis aims to determine whether supplementation with a grape-seed derived antioxidant, oligomeric proanthocyanidin (PCO) or the glutathione precursor, N-acetylcysteine (NAC) may prove beneficial as treatment for exercise induced muscle damage (EIMD) in athletes. In this double-blind cohort study, 21 healthy, uninjured male rugby-players in mid-season training phase, aged between 18 and 25 years were randomly divided into three treatment groups. Participants received 210 mg PCO, NAC or placebo treatment for 9 consecutive days. The study comprised a 6-day wash-out period (protocol days: -12 to -7), followed by a 6-day supplement loading period (protocol days: -6 to -1) a plyometric exercise intervention (protocol day 0) and continued supplementation for 2 days (protocol days: 1 to 2). The exercise intervention comprised 15 sets of 10 near maximal, vertical plyometric squat jumps. Blood samples and delayed onset of muscle soreness (DOMS) scores were collected on protocol days: -6, 0, 1 and 2. Assessments included serum creatine kinase (CK) activity, oxygen radical absorbance capacity (ORAC), malondialdehyde (MDA) and soluble vascular cell adhesion molecule-1 (sVCAM-1) concentrations over time as well as a differential circulating leukocyte count (neutrophils, lymphocytes, monocytes, eosinophils and basophils). Data analysis of CK activity revealed no significant differences between groups. However, PCO treatment prevented a significant peak in the CK response at 24 h (as seen in the placebo and NAC groups) when compared to baseline, pre and post readings (p<0.05). NAC supplementation significantly improved serum ORAC after the exercise intervention. By 48 h, serum ORAC had improved significantly from readings taken immediately post exercise (p<0.05) only in the NAC group. For all groups, absolute neutrophil counts peaked at 6 h post exercise from baseline or pre readings (p<0.05). In both NAC and placebo treated groups, neutrophil counts had decreased significantly in circulation by 24 h post exercise from the 6 h time-point (p<0.05). However, neutrophil counts only reached significantly lower levels by 48 h post exercise (p<0.05) in the group supplemented with PCO. The monocyte count also peaked significantly at 6 h post exercise when compared with other time-points before and after the exercise intervention (p<0.05) in all treatment groups. Neither antioxidant treatment significantly altered the responses of other leukocyte sub-populations, MDA or sVCAM-1 concentrations where main effects of plyometric exercise was evident. Although not statistically significant, a trend toward diminished sVCAM-1 expression with either antioxidant supplementation was apparent. These findings suggest that PCO supplementation (210mg/d) which includes a 7 day loading period may diminish plyometric EIMD by limiting (but not completely inhibiting) the neutrophil response. Secondary muscle damage may be prevented by partially blunting neutrophil infiltration, rather than only quenching free radicals released during the neutrophil oxidative burst. Furthermore, the finding that NAC supplementation improves serum ORAC only after exercise may provide added benefit when administered in combination with PCO. / AFRIKAANSE OPSOMMING: Hierde tesis is daarop gerig om vas te stel of aanvulling met ‘n druifsaadekstrak (DSE) gederiveerde antioksidant: pro-antosianiedoliese oligomeer (PSO), of die glutathione voorloopermolekule, N-asetielsistien (NAS) voordelig beskou kan word as behandeling vir atlete onderhewig aan spierskade veroorsaak deur oefening. Gedurende hierdie dubbelblinde kohort studie is 21 gesonde, manlike rugbyspelers sonder beserings tussen die ouderdom van 18 en 25 jaar in middel-seison fase ewekansig in drie behandelingsgroepe verdeel. Deelneemers het elk 210 mg PSO, NAS of placebo-aanvulling geneem vir nege agtereenvolgende dae. Die studie het bestaan uit ‘n 6-dag uitwasperiode (protokoldae: -12 tot -7), as ook ‘n 6-dag aanvullings periode (protokoldae: -6 tot -1), gevolg deur ‘n pliometriese oefeningsintervensie (protokol dag 0) en verdere aanvulling tot en met 2 dae na die oefening (protokol dae: 1 tot 2). Die oefeningsintervensie het 15 stelle van 10 naastenby maksimale, vertikale pliometriese hurkspronge behels. Bloedmonsters en vertraagde aanvang spierseerheid (VAS) tellings is op protokoldae: -6, 0, 1 en 2 geneem. Analiese het serum kreatien kinase (KK) aktiwiteit, suurstof radikaal absorpsie kapasiteit (SRAK), Malondialdahied (MDA) en oplospare vaskulêresel adhesie molekule-1 (oVAM-1) konsentrasie bepalings asook ‘n differentiële sirkulerende leukosiet seltelling ingesluit. KK aktiewiteit het geen merkwaardige verskil tussen groepe getoon nie. PSO aanvulling het wel gelei tot die voorkoming van ‘n merkwaardige piek in die KK response soos in die placebo en NAC behandelde groepe bevind is by die 24 h tydspunt in vergelyking met basislyn-, voor- en na-oefeningslesings (p<0.05). NAS het ‘n merkwaardige verbetering in serum SRAK getoon, maar eers teen 48 h na oefening. Slegs die NAS behandelde groep het op hierdie tydspunt ‘n betekenisvolle verbetering in SRAK getoon in vergelyking met lesings direk na oefening (p<0.05). Vir alle groepe is ‘n betekenisvolle toename in absolute neutrophiltellings waargeneem 6 h na oefening in vergelyking met basislyn- en vooroefeningslesings (p<0.05). Beide NAS en placebo-behandelde groepe het ‘n betekenisvolle afname in neutrophiltellings teen 24 h na oefening getoon in vergelyking met die 6 h tydspunt (p<0.05) maar met die PSO-behandelde groep word hierde afname eers teen 48 h waargeneem (p<0.05). Monosiettellings het in alle groepe 6 h na oefening ‘n betekinsvolle piek getoon (p<0.05). Waar slegs die hoofeffek van die pliometriese oefening betekenisvol was, het nie een van die twee antioksidant aanvullings ‘n merkwaardige verandering aan die respons van ander leukosiet sub-populasies, MDA of oVAM-1 konsentrasies getoon nie. Al kon statistiese beduidenheid nie bewys word nie, wil dit blyk dat ‘n verminderde oVAM-1 uitdrukking onstaan het in die geval van beide antioksidant-behandelde groepe. Tesame stel hierdie bevindinge voor dat PSO toediening (210mg/d) insluitende ‘n 7-dag aanvullingsperiode die vermoë verleen om die neutrophielrespons gedeeltelik te onderdruk (sonder om dit heeltemal te inhibeer) en sodoende spierskade verminder. Dus word verdere spierskade moontlik verlaag deur die voorkoming van neutrophil weefsel infiltrasie eerder as verwydering van reaktiewe spesies wat vrygestel word tydens oefening. Die bevinding dat NAS aanvulling serum SRAK eers na oefening merkwaardig verbeter, kan as voordelig beskou word, veral wanneer toegedien in samewerking met PSO om verdere spierskade te voorkom en herstelling vinniger te bewerkstellig.

Grape-seed extract supplement

UCTD

The development of a novel rugby league match simulation protocol

Sykes, Dave

January 2011

The effectiveness of recovery interventions following prolonged multiple sprint team sports matches has rarely been studied despite the potential for exercise-induced muscle damage to adversely affect training in the days following games. The lack of research related to this topic is probably owing to the wide variability that exists in the movement demands of players between matches and the impact that this has on the subsequent rate and magnitude of recovery which makes it difficult to detect meaningful differences when conducting research with small sample sizes. Therefore, the purpose of this thesis was to develop a rugby league-specific match simulation protocol that replicates the movement demands, physiological responses and subsequent recovery from matches in order to study the effectiveness of recovery interventions. Hence, two time-motion analysis studies were conducted using a semi-automated image recognition system to inform the development of the rugby league match simulation protocol (RLMSP). Whilst mean total distance covered over the duration of the match was 8,503 m, ball in play and stoppage work-to-rest ratios were 1:6.9 and 1:87.4, respectively, for all players. Furthermore, a significant decline in high and very high intensity running locomotive rates were observed between the initial and final 20 min periods of the match. Thus a RLMSP was devised to replicate the overall movement demands, intra-match fatigue and recovery from a senior elite rugby league match. Not only was there a low level of variability in the movement demands during the RLMSP over consecutive trials, but with the exception of creatine kinase, the rate and magnitude of recovery following the RLMSP was similar to that that has been published following competitive matches. Therefore, the RLMSP devised in this thesis may be a more appropriate research tool for assessing the effectiveness of recovery interventions following match related exercise than following actual match play.

796.3338

Relação entre economia de corrida e força muscular: análise pelo modelo de dano muscular induzido pela corrida em declive / The relationship between running economy and strength: using the downhill running-induced muscle damage model for analyses

Lima, Leonardo Coelho Rabello de [UNESP]

07 August 2017

Submitted by LEONARDO COELHO RABELLO DE LIMA null (leonardocrlima@gmail.com) on 2017-10-04T00:12:09Z No. of bitstreams: 1 Tese Leonardo Lima.pdf: 5043553 bytes, checksum: bb0d2f3885d5719b2bd99d08ef4a0617 (MD5) / Approved for entry into archive by Monique Sasaki (sayumi_sasaki@hotmail.com) on 2017-10-04T17:00:41Z (GMT) No. of bitstreams: 1 Tese Leonardo Lima.pdf: 5043553 bytes, checksum: bb0d2f3885d5719b2bd99d08ef4a0617 (MD5) / Made available in DSpace on 2017-10-04T17:00:41Z (GMT). No. of bitstreams: 1 Tese Leonardo Lima.pdf: 5043553 bytes, checksum: bb0d2f3885d5719b2bd99d08ef4a0617 (MD5) Previous issue date: 2017-08-07 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Introdução: Alguns estudos longitudinais têm mostrado que a força pode influenciar a economia de corrida (EC). Entretanto, outros modelos [p.ex., dano muscular (DM) induzido por corridas em declive (CrED)] mostram que a magnitude e a cinética de recuperação da EC e da força máxima medida em exercícios de cadeia cinética aberta [pico de torque isométrico de extensão do joelho (PTI)] podem ser diferentes. Fatores como o tipo de exercício usado para medir a força e a forma pela qual a força se manifesta (máxima e explosiva), podem explicar, pelo menos em parte, estes dados antagônicos. O objetivo geral deste estudo foi utilizar o modelo de DM induzido pela CrED para analisar a relação entre força máxima e explosiva e a EC. Método: Para isso, foram empregadas três intervenções para modular o DM induzido pela CrED e verificar seus efeitos sobre a força e a EC. Participaram do estudo 85 sujeitos ativos (22,3 ± 2,4 anos, 78 ± 9,4 kg, 176,9 ± 5 cm) que foram aleatoriamente separados em grupo controle (CON), placebo (PLA), suplementação (SUP), isométrico (ISO) e combinado (COMB). CON foi dividido em indivíduos com presença e ausência da α-actinina-3, resultante de polimorfismo do gene ACTN3. Todos os grupos realizaram uma CrED (-15%) por 30 min a 70% VO2max. SUP ingeriu um suplemento rico em compostos flavonoides antes e após a CrED, PLA ingeriu um placebo nos mesmos períodos, ISO realizou 10 contrações isométricas máximas (CIM) dois dias antes da CrED e COMB ingeriu o suplemento e realizou 10 CIM antes da CrED. Foram avaliados marcadores indiretos de DM (força, dor, amplitude de movimento e circunferência da coxa, e atividade sérica de CK) e EC antes e imediatamente, 24, 48, 72 e 96 horas após a CrED. Alterações ao longo do tempo e entre grupos foram analisadas por meio de ANOVA de dois caminhos com post-hoc de Bonferroni. Resultados: Os resultados obtidos demonstraram comprometimento significante da EC após a CrED, assim como alterações significantes em marcadores de DM. Foi identificado um efeito de aceleração da recuperação nas alterações no DM e EC para os grupos SUP e COMB (que apresentaram retorno do VO2 e PTI a níveis basais no dia seguinte e dois dias após a CrED, respectivamente) em relação ao grupo CON. Os grupos que consumiram o suco antioxidante também apresentaram atenuação significante da dor muscular após a CrED. Entretanto, a diferença de cinética de recuperação entre força e EC se manteve mesmo frente aos tratamentos. O grupo ISO apresentou aceleração da recuperação do PTI, mas não da EC, assim como atenuação da dor muscular em relação ao grupo CON. Alterações na altura de saltos foram significantes, sendo que os valores retornaram a níveis basais antes dos valores de PTI. Em relação aos polimorfismos do gene ACTN3, não houve influência do genótipo nas alterações na EC. Entretanto, como esperado, houve maior perda de força para indivíduos RR (que sintetizam a α-actinina-3). Conclusão: Em conjunto, os resultados obtidos sugerem que há, sim, uma relação entre aspectos neuromusculares e a EC. Entretanto, outros fatores, que não a capacidade de produção de força isoladamente, parecem contribuir para essa relação. Ademais, as estratégias de atenuação do DM investigadas no presente estudo parecem ser eficazes na aceleração da recuperação da EC e da força muscular e o polimorfismo do gene ACTN3 parece ser um dos fatores que explicam a susceptibilidade ao DM. / Introduction: Longitudinal studies have been showing that strength production capacity might influence running economy (RE). However, other study models [e.g., downhill running (DhR) induced muscle damage (MD)] show different magnitudes of change and recovery kinetics between strength measured with open kinetic chain exercises [knee extension isometric peak torque (IPT)] and RE might differ. Factors such as the type of exercised used to measures strength and its form of manifestation (maximal or explosive) might, at least in part, explain these differences. The aim of the present study was to analyze the association between strength production capacity and RE using an DhR induced MD model. Methods: To do so, three different prophylactic strategies were adopted to modulate MD induced by DhR and also analyze their effects on strength production capacity and RE. Eighty five active subjects (22.3 ± 2.4 years, 78 ± 9.4 kg, 176.9 ± 5 cm) participated in the study and were randomly allocated to control (CON), placebo (PLA), supplementation (SUP), isometric (ISO), and combined (COMB) groups. Participants in CON were separated based on their ACTN3 polymorphisms. All groups ran downhill (-15%) for 30 min at 70%VO2max. SUP ingested a flavonoid-rich supplement before and following DhR, PLA ingested an isocaloric placebo at the same time points, ISO performed 10 maximal isometric contractinons (MIC) two days prior to the DhR, and COMB ingested the supplement and performed the MIC before DhR. MD symptoms (strength, soreness, knee joint range of motion, thigh circumference, and serum CK activity) and RE were assessed before, immediately after, and 1-4 days following DhR. Changes over time and between groups were analyzed with two-way ANOVA followed by Bonferroni’s post hoc tests. Results: Results showed that RE was significantly compromised following DhR and MD markers were also affected. Faster recovery of RE and MD markers was identified for the SUP and COMB groups (which reached full recovery of VO2 and IPT 1 and 3 days following the DhR, respectively), as compared to CON. Both groups that consumed the antioxidant supplement also presented significant attenuation of muscle soreness following DhR. However, the difference in the recovery kinetics of strength and RE was maintained with this treatment. ISO presented faster recovery of IPT, but not RE, and attenuation and faster recovery of soreness, as compared to CON. Significant changes in jump height were found for all groups, with faster recovery when compared to IPT. No influence of the ACTN3 gene polymorphism was found for changes in RE. However, as expected, RR individuals presented significantly greater strength loss following DhR. Conclusion: When put together, our results suggest that there is, indeed, an association between neuromuscular aspects and RE. However, factors other than strength production per se seem to contribute to this association. Moreover, the prevention/recovery strategies investigated in the present study seem to be effective to promote faster recovery of RE and strength following DhR. Also, ACTN3 gene polymorphism seems to be one of the factors contributing to susceptibility to MD, but not changes in RE. / FAPESP: 2013/23585-4

Força muscular

Economia de corrida

Dano muscular

Profilaxia

ACTN3

Strength

Running economy

Exercise-induced muscle damage

Prophylaxis

Repair and Adaptation of Aged Skeletal Muscle to Nonpathological Muscle Damage: The Influence of Macrophage Polarization

Sorensen, Jacob R

01 November 2018

The age-related loss of skeletal muscle mass and function is accompanied by a decline in regenerative capacity. The processes that facilitate healthy muscle repair are complex, involving several phases of degradation and rebuilding of muscle tissue and the surrounding microenvironment. Specifically, myogenic progenitor cells known as satellite cells are the most influential in repairing damaged muscle tissue. Following injury, satellite cells become activated and migrate, proliferate and fuse with mature skeletal muscle fibers to restore homeostasis to the tissue. However, satellite cells do not act in isolation, a robust inflammatory response is necessary to facilitate successful and rapid healing. Macrophages are one of the first and most abundant immune cells to infiltrate damaged skeletal muscle tissue. Primarily, macrophages adapt to a proinflammatory state to clear the area of cellular debris, promote degradation of the extracellular matrix and stimulate satellite cell activation and proliferation. Afterwards, a timely transition to an anti-inflammatory state directs rebuilding of the extracellular matrix and terminal differentiation of satellite cells. Indeed, the inhibition of macrophage activity leads to impaired healing and loss of skeletal muscle function. Little is known regarding the behavior of macrophages in aged skeletal muscle following injury in humans. Thus, the objective of this dissertation is to investigate the age-related response of macrophages in human skeletal muscle, and their role in muscle repair.

satellite cells

macrophage

inflammation

exercise-induced muscle damage

extracellular matrix

Life Sciences

The Role of T Cells in Muscle Damage Protective Adaptation

Deyhle, Michael Roger

01 July 2018

Skeletal muscle is prone to damage from a range of stimuli. The muscle repair process that ensues is complex, involving several phases and requiring the participation of many different cell types. Among the cells involved are various immune cells including neutrophils, macrophages, monocytes, and eosinophils. More recently, T cells were added to this list of immune cells known to participate in effective muscle repair from traumatic injuries in mice. We recently published data showing that T cells also accumulate in human muscle following contraction-induced damage. These data suggested that T cells might be involved an adaptation known as the repeated bout effect that renders muscle protected from future damage after an initial exposure. This document contains research on the role of the immune system, particularly T cells, in the "repeated bout effect."

inflammation

exercise-induced muscle damage

repeated bout effect

flow cytometry

T lymphocyte

lengthening contraction

eccentric contraction

Life Sciences

Frequency Response and Recovery of Muscles and Effects of Wrapping the Lower Leg on Surface Velocity Measurements

Smallwood, Cameron David

01 June 2019

This thesis is comprised of two studies. The objective of the first study was to find the frequency response and stiffness of the biceps brachii muscle group during recovery from exercise induced damage and to determine whether these data could be used to track muscle recovery by correlating changes in the frequency response with changes in muscle stiffness. Stiffness moduli were collected using Shear Wave Elastography (SWE) which were then applied to a proportional first mode frequency analysis. Data were collected for the muscle stiffness and frequency response for fifteen subjects (25.6 +- 4.5). By comparing the proportion of the square root of the SWE results, the variation in stiffness showed a less than 2 Hz change in first mode resonance for the control group. Frequency response results for the control group agreed with the modified SWE results and the proportion analysis. SWE results for the damage protocol group showed an average increase of 4 Hz. Frequency response results for the damage protocol group were sorted into three categories: three subjects had a change in frequency of peaks of at least 4 Hz in the positive direction; four subjects had an increase in amplitude, but no change in frequency of peaks; three subjects showed mixed responses like fewer resonance peaks, variable amplitudes, changes in peak bandwidth. This research allowed for the documentation of the in-vivo frequency response of the biceps brachii muscle. We believe that the frequency response of a muscle group may be used in the future to evaluate recovery from exercise induced damage. Lessons learned were also recorded for helping future studies in their efforts using an SLDV with human body testing.The second study focused on finding the effects on the surface velocity of tissue above and below a region of the lower leg wrapped in an elastic band when excited by an external source. Ten male subjects between the ages of 18-25 were seated in a chair with one foot placed on a vibrating platform. Two excitation frequencies were separately applied while three points along the leg were measured. A repeatability analysis, using results without the leg wrap, showed a 6.5%, 2.5%, and 10.5% variance in the x-, y-, and z-directions respectively, applying a 20 Hz frequency. With a 40 Hz frequency, the variations were 24%, 23.8%, and 28.4% respectively. A change in displacement of +38% and +10% occurred above the knee in the x-direction with 40 Hz and in the y-direction with 20 Hz, respectively. A change in displacement of -20% occurred below the knee in the x-direction with 20 Hz. A change in displacement of -24% occurred below the wrap location in the y-direction with 40Hz. With a confidence interval of 93%, surface velocity of the tissue located above the wrap increased, while the surface velocity of the tissue below the wrap decreased.

Frequency Response

Shear-wave Elastography

skeletal muscle

exercise-induced muscle damage

recovery

elastic modulus

stiffness

Engineering

Mechanical Engineering

A comparison of flexibility training and the repeated bout effect as priming interventions prior to eccentric training of the knee flexors.

2016 June 1900

Performance of a series of eccentric contractions produces adverse effects including muscle weakness, delayed onset muscle soreness (DOMS), fluid accumulation and decreased muscle function. The repeated bout effect is a physiological adaptation observed when a single-bout of eccentric exercise protects against muscle damage from subsequent eccentric bouts. Similar to the repeated bout effect, increases in flexibility have been linked to attenuations in acute muscle damage, muscle fatigue and strength loss after eccentric exercise. Purpose: The purpose of this study was to examine the muscle physiological responses to eccentric strength training after first priming the muscles with either a period of static flexibility training or a single intense bout of eccentric exercise performed weeks earlier; and compare these to the responses from eccentric strength training when no prior intervention is administered. Methods: Twenty-five participants were randomly assigned to a flexibility (F) (n=8), a single-bout (SB) (n=9), or a control (C) (n=8) group. The design consisted of two 4-week phases; 1) priming intervention, 2) eccentric training. The priming intervention included static stretching (3x/week; 30mins/day) (F), a single-bout of eccentric exercise (SB) or no priming intervention (C). All groups proceeded to complete eccentric training of the knee flexors using isotonic contractions (%load progressively increased over training period) on a dynamometer following the priming intervention phase. Testing was completed at baseline, post-priming intervention and post-eccentric training, in conjunction with data being collected during the acute eccentric training phase (0hr, 24hr, 48hr; post-bout 1 and 4). Dependent measures included muscle thickness, isometric maximal voluntary contraction (MVC), eccentric and concentric MVC, optimal angle, active range of motion (ROM), passive ROM, maximal power, electromyography (EMG) and delayed onset muscle soreness (DOMS). Results: Acute data during the eccentric training phase revealed a significant reduction in DOMS for both the F and SB groups compared to the C following the first bout of eccentric exercise (p<0.05). The F also had reduced soreness in comparison to both the SB and C post fourth bout of eccentric exercise (p<0.05). The F group demonstrated attenuated loss in isometric strength (post fourth bout) and maximal power (post first bout) during eccentric training compared to the C group (p<0.05). However, there was no significant difference between groups across all dependent variables following the eccentric training phase. Conclusion: This is the first study to directly compare the protective effects observed with static flexibility training to that of a single-bout of eccentric exercise throughout a subsequent eccentric training regime. Although differences in muscle soreness, strength and maximal power occurred during the acute stages of eccentric training, there appeared to be no significant advantage of either protective priming method at the end of eccentric training.

eccentric exercise

muscle priming

repeated bout effect

flexibility

static stretching

optimal angle

muscle soreness

exercise induced muscle damage

hamstrings

knee flexors

eccentric training

flexibility training

eccentric bout

Träningsvärk och anti-inflammatoriska läkemedel : Ibuprofens verkan på träningsvärk

Nygren, Per

January 2021

Träningsvärk efter fysisk aktivitet är ett välkänt fenomen. Vad som ligger bakomträningsvärkens effekter såsom smärta och nedsatt rörlighet är mindre välkänt. Träningsvärk, eller ”delayed onset muscle soreness” (DOMS), har i forskningenantagits bero på muskelskada och inflammation i skelettmusklerna efter att ovana ellerexcentriska övningar utförts. Försöken att lindra träningsvärkens effekter har varitmånga, t ex genom antiinflammatoriska läkemedel (NSAID). Syftet med dennasystematiska litteraturstudie var att svara på frågeställningen hur ibuprofen påverkarträningsvärk där hypotesen att ibuprofen skulle ha en dämpande effekt på träningsvärkantogs. Nio artiklar granskades för att besvara hypotesen utan att några slutsatser omibuprofens inverkan på träningsvärk kunde dras då resultaten pekade åt olika håll ochinga tendenser kunde observeras. Den slutsats som kunde dras utifrån litteraturstudienvar att ytterligare forskning på området är behövlig. Om studier inte kan visa att NSAIDdämpar träningsvärk så kan det ifrågasättas om inflammation är orsaken tillträningsvärken. Ytterligare studier på området är viktigt då NSAID är vanligtförekommande som smärtlindrande läkemedel samtidigt som det har biverkningar. Det finns också forskning som tyder på att NSAID kan ha negativ inverkan på de positivaeffekter som är av intresse i träningssammanhang.

Träningsvärk

delayed onset muscle soreness (DOMS)

exercise induced muscle damage (EIMD)

exercise recovery

ibuprofen.

Health Sciences

Hälsovetenskaper