Aktive Unterbrechungen sedentären Verhaltens : eine balancierte Kontrollstudie

Sedentäres Verhalten steht als Risikofaktor in Verbindung mit kardiovaskulären und metabolischen Erkrankungen sowie der Gesamtsterblichkeit. Die Unterbrechung sedentären Verhaltens durch körperlicher Aktivität wird mit einem verringerten Risiko für kardiovaskuläre und metabolische Erkrankungen in Zusammenhang gebracht. Ziel der Studie ist der Vergleich akuter Effekte aktiver Unterbrechungen während- und körperlicher Aktivität vor mehrstündigem sedentärem Verhalten auf metabolische Veränderungen, innerhalb einer Gruppe junger gesunder Frauen. 18 gesunde Frauen (25.6y±2.6, BMI 21.5 kg/m2±2.0) nahmen an einer balancierten Crossover-Studie mit Kontroll-(CTRL) und 2 verschiedenen Bewegungsarmen teil. Alle Studienarme umfassten eine 4 stündige Sitzphase und eine Frühstücksmahlzeit mit standardisierter Zusammensetzung und selbstgewählter Menge. Während der Bewegungsarme fuhren die Probandinnen 30min am Stück vor (PRE) oder in 5x je 6min als aktive Unterbrechung (BREAK) der Sitzphase auf einem Radergometer (70% VO2max). Es wurden Insulin-, Glucose- und Triacylglycerol-Blutwerte vor (Baseline) und zu 6 Zeitpunkten während der Sitzphase in allen 3 Studienarmen erfasst. Die Kinetik dieser metabolischen Parameter wurde mittels maximaler- und minimaler Differenz zum Baselinewert sowie „incremental Area Under the Curve“ (iAUC) als Hauptzielparameter erfasst. Die Untersuchung auf Unterschiede der Hauptzielparameter zwischen den Untersuchungsarmen wurde mittels Varianzanalysen unter Berücksichtigung der aufgenommenen Nahrungsmenge als Kovariate (ANCOVA) durchgeführt.   Die Analyse der Insulinkinetik zeigte geringere Serum Insulinkonzentrationen im Zeitverlauf (iAUC) im Untersuchungsarm mit aktiven Unterbrechungen (BREAK). Weiterhin war in BREAK die maximale Differenz zum Baselinewert der Insulinkonzentration verglichen zur Bedingung ohne Aktivität (CTRL) niedriger. Die Kinetik der Blutglukose und Serum Triacylglycerolkonzentration unterschied sich nicht zwischen den Untersuchungsarmen. Die aufgenommene Nahrungsmenge zeigte einen deutlichen Einfluss auf die Kinetik der Insulin und Glukosekonzentration. Die Resultate bestätigen spezifische Effekte von aktiven Unterbrechungen auf die zelluläre Glukoseaufnahme während sedentären Verhaltens. Die Nahrungsmenge beeinflusst das Ausmaß der postprandialen metabolischen Veränderungen während sedentären Verhaltens. Zukünftige Studien sollten den Einfluss der Häufigkeit und zeitliche Anordnung von Pausen in Abhängigkeit der Nahrungsaufnahme überprüfen

Laufökonomie : ein unterschätzter Faktor für Amateursportler?

Die Laufökonomie erfasst den Wirkungsgrad der kardiometabolischen Energiebereitstellung eines Menschen für die bipedale Fortbewegung. Ob diese, im Leistungssport häufig angewandte, Größe auch bei Amateursportlern ein leistungsbeeinflussender Faktor ist, wurde bislang noch nicht systematisch untersucht. Speziell die großen Leistungsunterschiede bei Amateursportlern und die Vielzahl an Erfassungs- und Auswertungsmethoden stellen für die interindividuelle Vergleichbarkeit in diesem Kollektiv bislang noch ungelöste Probleme dar. Die vorliegende Untersuchung verfolgt drei Ziele: 1) Die Überprüfung der Eignung standardisierter stufenförmiger Belastungsprotokolle zur Laufökonomieermittlung; 2) Die Analyse des Einflusses der relativen Beanspruchungsintensität auf die Laufökonomie; und 3) Den Nachweis der Bedeutung der Laufökonomie für die Laufleistung von Amateursportlern unterschiedlicher Leistungsfähigkeit. Zu diesem Zweck wurden zwei unabhängige Studien im Querschnittdesign entworfen. Das erste Experiment überprüfte die Eignung spiroergometrischer Kenngrößen aus stufenförmigen Belastungstests zur Bestimmung der Laufökonomie und deren Einflüsse auf die Laufleistung bei Amateursportlern. Die zweite dieser Arbeit zugrundeliegende Studie diente zur Identifikation des optimalen Beanspruchungsniveaus zur zuverlässigen Bestimmung von Parametern der Laufökonomie bei Amateursportlern. Die vorliegenden Ergebnisse deuten darauf hin, dass stufenförmige Belastungsprotokolle zur Laufökonomieermittlung an definierten Beanspruchungspunkten geeignet sind. Sie bestätigen den Einfluss der Laufökonomie auf die Laufleistung bei Amateursportlern unabhängig von der maximalen Sauerstoffaufnahme. Die Auswertung als Sauerstoff- (ml/kg/m) und/oder Kalorienumsetzung (kcal/kg/km) pro zurückgelegte Strecke an standardisierten submaximalen Referenzpunkten erscheint im Amateurbereich empfehlenswert. Speziell für Amateursportler können diese Größen nicht nur als leistungslimitierender Faktor interpretiert sondern auch zur Quantifizierung des bewegungsbezogenen Energieverbrauchs und des damit assoziierten Gesundheitsnutzen körperlicher Aktivität herangezogen werden.Running Economy assessment is an approach to convert gross aerobic capacity into net performance output during endurance running. It is often prescribed as a key quality of running performance for elite athletes. However, its influence on submaximal running performance in recreational distance runners is unclear. Furthermore, due to a variety of available assessment methods the evaluation and in particular interindividual comparability is limited. The aim of this study was to evaluate the feasibility of individual threshold based assessment approaches and the influence of running economy on running performance of recreational runners. Two independent cross-sectional studies were conducted. The first experiment evaluated the feasibility of running economy assessment within routine cardiopulmonary exercise testing and the influence on running performance in amateur runners. The second study compared two measures of running economy, (oxygen cost in ml/kg/km and caloric unit cost in kcal/kg/km) at individual respiratory determined thresholds. Complementing routine exercise testing with running economy assessment seems feasible. Oxygen cost and caloric cost can be assessed as markers for running economy at individual threshold intensities for amateur athletes. Furthermore, this study provides evidence that running economy influences submaximal running performance in recreational distance runners within a broad range of maximal aerobic capacity. Running economy data can be used to supplement running performance evaluation and to quantify physical activity related energy expenditure

The impact of regular activity and exercise intensity on the acute effects of resistance exercise on cognitive function

Beneficial acute effects of resistance exercise on cognitive functions may be modified by exercise intensity or by habitual physical activity. Twenty-six participants (9 female and 17 male; 25.5 ± 3.4 years) completed four resistance exercise interventions in a randomized order on separate days (≥48 h washout). The intensities were set at 60%, 75%, and 90% of the one repetition maximum (1RM). Three interventions had matched workloads (equal resistance*nrepetitions). One intervention applied 75% of the 1RM and a 50% reduced workload (resistance*nrepetitions = 50%). Cognitive attention (Trail Making Test A—TMTA), task switching (Trail Making Test B—TMTB), and working memory (Digit Reading Spans Backward) were assessed before and immediately after exercise. Habitual activity was assessed as MET hours per week using the International Physical Activity Questionnaire. TMTB time to completion was significantly shorter after exercise with an intensity of 60% 1RM and 75% 1RM and 100% workload. Friedman test indicated a significant effect of exercise intensity in favor of 60% 1RM. TMTA performance was significantly shorter after exercise with an intensity of 60% 1RM, 90% 1RM, and 75% 1RM (50% workload). Habitual activity with vigorous intensity correlated positively with the baseline TMTB and Digit Span Forward performance but not with pre- to post-intervention changes. Task switching, based on working memory, mental flexibility, and inhibition, was beneficially influenced by acute exercise with moderate intensity whereas attention performance was increased after exercise with moderate and vigorous intensity. The effect of regular activity had no impact on acute exercise effects

Acute effects of aerobic exercise on cognitive attention and memory performance: an investigation on duration-based dose-response relations and the impact of increased arousal levels

Current evidence indicates that acute aerobic exercise might increase domain-specific cognitive performance. However, only a small number of studies deduced the impact on lower and higher cognitive functions systematically or analyzed dose–response relationships and the underlying mechanisms. This study aimed to expose the dose–response relationships by investigating the influence of exercise duration on subjective and objective arousal, cognitive attention and visual recognition memory tasks. Nineteen participants (eight female; 25.69 ± 3.11 years) were included in a randomized, three-armed intervention study in a cross-over design. The participants completed three different interventions consisting of either 15, 30 or 45 min of cycling at 60–70% VO2max. Arousal and cognitive measurements were taken before and immediately after (<2 min) exercise. All three interventions led to significant but comparable effects on self-perceived arousal, heart rate (HR) and rating of perceived exertion (RPE) (p < 0.05). Analysis of variance (ANOVA) indicated significant effects of exercise duration on visual recognition memory accuracy. Reaction times for higher and lower cognitive tasks did not change after exercise. Fifteen minutes of aerobic exercise was feasible to induce beneficial changes in self-perceived arousal. Processing speed of visual recognition memory and attention remained unaltered. Exercise exceeding fifteen minutes seemed to negatively impact visual recognition memory accuracy

The impact of ubiquitous face masks and filtering face piece application during rest, work and exercise on gas exchange, pulmonary function and physical performance: a systematic review with meta-analysis

Background: Protection against airborne infection is currently, due to the COVID-19-associated restrictions, ubiquitously applied during public transport use, work and leisure time. Increased carbon dioxide re-inhalation and breathing resistance may result thereof and, in turn, may negatively impact metabolism and performance. Objectives: To deduce the impact of the surgical mask and filtering face piece type 2 (FFP2) or N95 respirator application on gas exchange (pulse-derived oxygen saturation (SpO2), carbon dioxide partial pressure (PCO2), carbon dioxide exhalation (VCO2) and oxygen uptake (VO2)), pulmonary function (respiratory rate and ventilation) and physical performance (heart rate HR, peak power output Wpeak). Methods: Systematic review with meta-analysis. Literature available in Medline/Pubmed, the Cochrane Library and the Web of Knowledge with the last search on the 6th of May 2021. Eligibility criteria: Randomised controlled parallel group or crossover trials (RCT), full-text availability, comparison of the acute effects of ≥ 1 intervention (surgical mask or FFP2/N95 application) to a control/comparator condition (i.e. no mask wearing). Participants were required to be healthy humans and > 16 years of age without conditions or illnesses influencing pulmonary function or metabolism. Risk of bias was rated using the crossover extension of the Cochrane risk of bias assessment tool II. Standardised mean differences (SMD, Hedges' g) with 95% confidence intervals (CI) were calculated, overall and for subgroups based on mask and exercise type, as pooled effect size estimators in our random-effects meta-analysis. Results: Of the 1499 records retrieved, 14 RCTs (all crossover trials, high risk of bias) with 25 independent intervention arms (effect sizes per outcome) on 246 participants were included. Masks led to a decrease in SpO2 during vigorous intensity exercise (6 effect sizes; SMD = − 0.40 [95% CI: − 0.70, − 0.09], mostly attributed to FFP2/N95) and to a SpO2-increase during rest (5 effect sizes; SMD = 0.34 [95% CI: 0.04, 0.64]); no general effect of mask wearing on SpO2 occurred (21 effect sizes, SMD = 0.34 [95% CI: 0.04, 0.64]). Wearing a mask led to a general oxygen uptake decrease (5 effect sizes, SMD = − 0.44 [95% CI: − 0.75, − 0.14]), to slower respiratory rates (15 effect sizes, SMD = − 0.25 [95% CI: − 0.44, − 0.06]) and to a decreased ventilation (11 effect sizes, SMD = − 0.43 [95% CI: − 0.74, − 0.12]). Heart rate (25 effect sizes; SMD = 0.05 [95% CI: − 0.09, 0.19]), Wpeak (9 effect sizes; SMD = − 0.12 [95% CI: − 0.39, 0.15]), PCO2 (11 effect sizes; SMD = 0.07 [95% CI: − 0.14, 0.29]) and VCO2 (4 effect sizes, SMD = − 0.30 [95% CI: − 0.71, 0.10]) were not different to the control, either in total or dependent on mask type or physical activity status. Conclusion: The number of crossover-RCT studies was low and the designs displayed a high risk of bias. The within-mask- and -intensity-homogeneous effects on gas exchange kinetics indicated larger detrimental effects during exhausting physical activities. Pulse-derived oxygen saturation was increased during rest when a mask was applied, whereas wearing a mask during exhausting exercise led to decreased oxygen saturation. Breathing frequency and ventilation adaptations were not related to exercise intensity. FFP2/N95 and, to a lesser extent, surgical mask application negatively impacted the capacity for gas exchange and pulmonary function but not the peak physical performance. Registration: Prospero registration number: CRD4202124463

The acute effects of single or repeated bouts of vigorous-intensity exercise on insulin and glucose metabolism during postprandial sedentary behavior

Fitness and exercise may counteract the detrimental metabolic and mood adaptations during prolonged sitting. This study distinguishes the immediate effects of a single bout vs. work-load and intensity-matched repeated exercise breaks on subjective well-being, blood glucose, and insulin response (analyzed as area under the curve) during sedentary time; and assesses the influence of fitness and caloric intake on metabolic alterations during sedentariness. Eighteen women underwent cardiopulmonary exercise testing and three 4 h sitting interventions: two exercise interventions (70% VO2max, 30 min, cycle ergometer: (1) cycling prior to sitting; (2) sitting interrupted by 5 × 6 min cycling), and one control condition (sitting). Participants consumed one meal with ad libitum quantity (caloric intake), but standardized macronutrient proportion. Exercise breaks (4057 ± 2079 μU/mL·min) reduced insulin values compared to a single bout of exercise (5346 ± 5000 μU/mL·min) and the control condition (6037 ± 3571 μU/mL·min) (p ≤ 0.05). ANCOVA revealed moderating effects of caloric intake (519 ± 211 kilocalories) (p ≤ 0.01), but no effects of cardiorespiratory fitness (41.3 ± 4.2 mL/kg/min). Breaks also led to lower depression, but higher arousal compared to a no exercise control (p ≤ 0.05). Both exercise trials led to decreased agitation (p ≤ 0.05). Exercise prior to sitting led to greater peace of mind during sedentary behavior (p ≤ 0.05). Just being fit or exercising prior to sedentary behavior are not feasible to cope with acute detrimental metabolic changes during sedentary behavior. Exercise breaks reduce the insulin response to a meal. Despite their vigorous intensity, breaks are perceived as positive stimulus. Detrimental metabolic changes during sedentary time could also be minimized by limiting caloric intake

Effects of open skill visuomotor choice reaction time training on unanticipated jump-landing stability and quality: a randomized controlled trial

Adapting movements rapidly to unanticipated external stimuli is paramount for athletic performance and to prevent injuries. We investigated the effects of a 4-week open-skill choice-reaction training intervention on unanticipated jump-landings. Physically active adults (n = 37; mean age 27, standard deviation 2.7 years, 16 females, 21 males) were randomly allocated to one of two interventions or a control group (CG). Participants in the two intervention groups performed a 4-week visuomotor open skill choice reaction training, one for the upper and one for the lower extremities. Before and after the intervention, two different types of countermovement jumps with landings in split stance position were performed. In the (1) pre-planned condition, we informed the participants regarding the landing position (left or right foot in front position) before the jump. In the (2) unanticipated condition, this information was displayed after take-off (350–600 ms reaction time before landing). Outcomes were landing stability [peak vertical ground reaction force (pGRF) and time to stabilization (TTS)], and landing-related decision-making quality (measured by the number of landing errors). To measure extremity-specific effects, we documented the number of correct hits during the trained drills. A two-factorial (four repeated measures: two conditions, two time factors; three groups) ANCOVA was carried out; conditions = unanticipated versus pre-planned condition, time factors = pre versus post measurement, grouping variable = intervention allocation, co-variates = jumping time and self-report arousal. The training improved performance over the intervention period (upper extremity group: mean of correct choice reaction hits during 5 s drill: +3.0 hits, 95% confidence interval: 2.2–3.9 hits; lower extremity group: +1.6 hits, 0.6–2.6 hits). For pGRF (F = 8.4, p < 0.001) and landing errors (F = 17.1, p < 0.001) repeated measures effect occurred. Significantly more landing errors occurred within the unanticipated condition for all groups and measurement days. The effect in pGRF is mostly impacted by between-condition differences in the CG. No between-group or interaction effect was seen for these outcomes: pGRF (F = 0.4, p = 0.9; F = 2.3, p = 0.1) landing errors (F = 0.5, p = 0.6; F = 2.3, p = 0.1). TTS displayed a repeated measures (F = 4.9, p < 0.001, worse values under the unanticipated condition, improvement over time) and an interaction effect (F = 2.4, p = 0.03). Healthy adults can improve their choice reaction task performance by training. As almost no transfer to unanticipated landing successfulness or movement quality occurred, the effect seems to be task-specific. Lower-extremity reactions to unanticipated stimuli may be improved by more specific training regimens

The age-related decline in spatiotemporal gait characteristics is moderated by concerns of falling, history of falls & diseases, and sociodemographic-anthropometric characteristics in 60-94 years old adults

Background: Associations between age, concerns or history of falling, and various gait parameters are evident. Limited research, however, exists on how such variables moderate the age-related decline in gait characteristics. The purpose of the present study was to investigate the moderating effects of concerns of falling (formerly referred to as fear of falling), history of falls & diseases, and sociodemographic characteristics on changes in gait characteristics with increasing age in the elderly. Methods: In this individual participant level data re-analysis, data from 198 participants (n = 125 females) from 60 to 94 years of age were analysed (mean 73.9, standard deviation 7.7 years). Dependent variables were major spatiotemporal gait characteristics, assessed using a capacitive force measurement platform (zebris FDM-T). Age (independent variable) and the moderating variables concerns of falling (FES-I), gender/sex, history of falls and fall-related medical records, number of drugs daily taken, and body mass index were used in the statistical analysis. Hierarchical linear mixed moderation models (multilevel analysis) with stepwise (forward) modelling were performed. Results: Decreases of gait speed (estimate = −.03, equals a decrease of 0.03 m/s per year of ageing), absolute (− 1.4) and gait speed-normalized (−.52) stride length, step width (−.08), as well as increases in speed normalized cadence (.65) and gait speed variability (.15) are all age-related (each p < .05). Overall and specific situation-related concerns of falling (estimates: −.0012 to −.07) were significant moderators. History of potentially gait- and/or falls-affecting diseases accelerated the age-related decline in gait speed (−.002) and its variability (.03). History of falls was, although non-significant, a relevant moderator (in view of increasing the model fit) for cadence (.058) and gait speed (−.0027). Sociodemographics and anthropometrics showed further moderating effects (sex moderated the ageing effect on stride length, .08; height moderated the effect on the normalised stride length, .26; BMI moderated the effects on step width, .003). Conclusion: Age-related decline in spatiotemporal gait characteristics is moderated by concerns of falling, (non-significantly) by history of falls, significantly by history of diseases, and sociodemographic characteristics in 60–94 years old adults. Knowing the interactive contributions to gait impairments could be helpful for tailoring interventions for the prevention of falls. Trial registration: Re-analysis of [21–24]

Neurophysiological correlates of motor planning and movement initiation in ACL-reconstructed individuals : a case–control study

Introduction Current: evidence suggests that the loss of mechanoreceptors after anterior cruciate ligament (ACL) tears might be compensated by increased cortical motor planning. This occupation of cerebral resources may limit the potential to quickly adapt movements to unforeseen external stimuli in the athletic environment. To date, studies investigating such neural alterations during movement focused on simple, anticipated tasks with low ecological validity. This trial, therefore, aims to investigate the cortical and biomechanical processes associated with more sport-related and injury-related movements in ACL-reconstructed individuals. Methods and analysis: ACL-reconstructed participants and uninjured controls will perform repetitive countermovement jumps with single leg landings. Two different conditions are to be completed: anticipated (n=35) versus unanticipated (n=35) successful landings. Under the anticipated condition, participants receive the visual information depicting the requested landing leg prior to the jump. In the unanticipated condition, this information will be provided only about 400 msec prior to landing. Neural correlates of motor planning will be measured using electroencephalography. In detail, movement-related cortical potentials, frequency spectral power and functional connectivity will be assessed. Biomechanical landing quality will be captured via a capacitive force plate. Calculated parameters encompass time to stabilisation, vertical peak ground reaction force, and centre of pressure path length. Potential systematic differences between ACL-reconstructed individuals and controls will be identified in dependence of jumping condition (anticipated/ unanticipated, injured/uninjured leg and controls) by using interference statistics. Potential associations between the cortical and biomechanical measures will be calculated by means of correlation analysis. In case of statistical significance (α<0.05.) further confounders (cofactors) will be considered. Ethics and dissemination: The independent Ethics Committee of the University of Frankfurt (Faculty of Psychology and Sports Sciences) approved the study. Publications in peer-reviewed journals are planned. The findings will be presented at scientific conferences. Trial status: At the time of submission of this manuscript, recruitment is ongoing. Trial registration number: NCT03336060; Pre-results