Bernard Korzeniewski
Overview
Explore the profile of Bernard Korzeniewski including associated specialties, affiliations and a list of published articles.
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Articles
59
Citations
512
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Recent Articles
1.
Korzeniewski B
Eur J Appl Physiol
. 2024 Sep;
125(2):455-468.
PMID: 39312007
Purpose: The biochemical background of the (near-)linear direct relationship between the curvature constant (W') of the power-duration curve and the magnitude ( ) of the slow component of the on-kinetics...
2.
Korzeniewski B
Eur J Appl Physiol
. 2024 Sep;
125(1):49-59.
PMID: 39287637
Purpose: Endurance training improves running performance in distances where oxidative phosphorylation (OXPHOS) is the main ATP source. Here, a dynamic computer model is used to assess possible biochemical mechanisms underlying...
3.
Korzeniewski B
Metabolites
. 2023 Nov;
13(11).
PMID: 37999207
Computer simulations using a dynamic model of the skeletal muscle bioenergetic system, involving the P-double-threshold mechanism of muscle fatigue, demonstrate that the training-induced increase in V·O, increase in critical power...
4.
Korzeniewski B
Respir Physiol Neurobiol
. 2023 May;
314:104084.
PMID: 37230211
Simulations using a computer model of the skeletal muscle bioenergetic system demonstrate that the slowed V̇O on-kinetics of the second step in two-step incremental exercise (exercise initiated from elevated baseline...
5.
Korzeniewski B
Respir Physiol Neurobiol
. 2023 Feb;
311:104023.
PMID: 36731708
A computer model of the skeletal muscle bioenergetic system involving the P double-threshold mechanism of muscle fatigue was used to study the V̇O (non-)linear increase in time in ramp-incremental exercise...
6.
Korzeniewski B
Respir Physiol Neurobiol
. 2022 Oct;
307:103977.
PMID: 36206974
Relative sensitivities of the maximal oxygen uptake (V̇O), critical power (CP) and transition time of the primary phase II of the V̇O on-kinetics (t) to selected factors in skeletal muscle...
7.
Korzeniewski B, Rossiter H
Biosci Rep
. 2022 Jul;
42(8).
PMID: 35880531
This article presents the biochemical intra-skeletal-muscle basis of exercise intensity domains: moderate (M), heavy (H), very heavy (VH) and severe (S). Threshold origins are mediated by a 'Pi double-threshold' mechanism...
8.
9.
Korzeniewski B
Respir Physiol Neurobiol
. 2021 Oct;
296:103799.
PMID: 34624544
A computer model of the skeletal muscle bioenergetic system, involving the "P double-threshold" mechanism of muscle fatigue, was used to investigate the effect of muscle training on system kinetic properties...
10.
Korzeniewski B
J Appl Physiol (1985)
. 2021 Jul;
131(2):768-777.
PMID: 34197225
Simulations carried out using a previously developed model of the skeletal muscle bioenergetic system, involving the "inorganic phosphate (P) double-threshold" mechanism of muscle fatigue, lead to the conclusion that a...