26 research outputs found
M & L Jaargang 4/2
RedactioneelJ. Vandenbreeden Het Belle-Vuehotel en de Rotonde (1910-1985) te Westende, een monument. [The Belle-Vue Hotel and the Rotunda (1910-1985) at Westende, a monument.]J. De Boeck en L. Masschelein Conservatie van textiel. [The Conservation of textile.]L. Meesters en L. Wylleman Het landschap Ertbrugge-Zwarte Arend in Wijnegem en Deurne. [The landscape Ertbrugge-Zwarte Arend at Wijnegem and Deurne.]Miek Goossens i.s.m. Hubert Davans De restauratie van De Olifant in Brugge. [The restoration of De Olifant at Bruges.]F. Welvaert 2000 jaar Zwinstreek. [2000 years of the Zwin region.]SummaryM&L Binnenkran
Correction: Crisis of confidence averted: Impairment of exercise economy and performance in elite race walkers by ketogenic low carbohydrate, high fat (LCHF) diet is reproducible.
[This corrects the article DOI: 10.1371/journal.pone.0234027.]
Crisis of confidence averted : Impairment of exercise economy and performance in elite race walkers by ketogenic low carbohydrate, high fat (LCHF) diet is reproducible
Introduction
We repeated our study of intensified training on a ketogenic low-carbohydrate (CHO), high-fat diet (LCHF) in world-class endurance athletes, with further investigation of a âcarryoverâ effect on performance after restoring CHO availability in comparison to high or periodised CHO diets.
Methods
After Baseline testing (10,000 m IAAF-sanctioned race, aerobic capacity and submaximal walking economy) elite male and female race walkers undertook 25 d supervised training and repeat testing (Adapt) on energy-matched diets: High CHO availability (8.6 gâkg-1âd-1 CHO, 2.1 gâkg-1âd-1 protein; 1.2 gâkg-1âd-1 fat) including CHO before/during/after workouts (HCHO, n = 8): similar macronutrient intake periodised within/between days to manipulate low and high CHO availability at various workouts (PCHO, n = 8); and LCHF (<50 gâd-1 CHO; 78% energy as fat; 2.1 gâkg-1âd-1 protein; n = 10). After Adapt, all athletes resumed HCHO for 2.5 wk before a cohort (n = 19) completed a 20 km race.
Results
All groups increased VO2peak (mlâkg-1âmin-1) at Adapt (p = 0.02, 95%CI: [0.35â2.74]). LCHF markedly increased whole-body fat oxidation (from 0.6 gâmin-1 to 1.3 gâmin-1), but also the oxygen cost of walking at race-relevant velocities. Differences in 10,000 m performance were clear and meaningful: HCHO improved by 4.8% or 134 s (95% CI: [207 to 62 s]; p < 0.001), with a trend for a faster time (2.2%, 61 s [-18 to +144 s]; p = 0.09) in PCHO. LCHF were slower by 2.3%, -86 s ([-18 to -144 s]; p < 0.001), with no evidence of superior âreboundâ performance over 20 km after 2.5 wk of HCHO restoration and taper.
Conclusion
Our previous findings of impaired exercise economy and performance of sustained high-intensity race walking following keto-adaptation in elite competitors were repeated. Furthermore, there was no detectable benefit from undertaking an LCHF intervention as a periodised strategy before a 2.5-wk race preparation/taper with high CHO availability.
Trial registration
Australia New Zealand Clinical Trial Registry: ACTRN12619000794101
Characterisation and pathogenicity of bacteria from shoot tips of the globe artichoke (Cynara scolymus L.)
Bacteria have been isolated from shoot tips of symptomless globe artichoke plants. These were identified as Pseudomonas fluorescens, Pseudomonas marginalis, Pseudomonas spp., Serratia liquefaciens, Enterobacter agglomerans/Erwinia, Agrobacterium radiobacter, an unidentified member of Rhizobiaceae and another classified in the âcorynebacteriaâ group. The most frequently isolated species was P. fluorescens, biovars II and III. The endogenous character of these bacteria was studied in plants growing in vitro and in the open field. P. fluorescens, P. marginalis, S. liquefaciens and E. agglomerans/Erwinia caused symptoms in plants growing in vitro, but only P. fluorescens biovar II and P. marginalis produced symptoms in plants growing in open fields. Differences in pathogenicity were observed on inoculated plants growing in vitro or in the open field. This suggests that several endophytic bacterial species may be responsible for the high levels of contaminants found during the micropropagation of globe artichoke