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Impact of training volume and intensity on RBC-NOS/NO pathway and endurance capacity.
Biorheology. 2017; 54(1):37-50.B

Abstract

BACKGROUND

Acute exercise increases red blood cell-nitric oxide synthase (RBC-NOS) activation and RBC deformability but the effect of regular training remains unclear.

OBJECTIVE

To detect the chronic effect of enduring moderate and high intensity training on the RBC-NOS/NO pathway and to detect a relation between RBC deformability and endurance capacity.

METHODS

38 healthy male subjects were randomly assigned to one of three training groups: High Volume Training (HVT; 120-140 beats per minute (bpm)), High Intensity Training (HIT; 160-180 bpm) and Moderate Intensity Training (MIT; 140-160 bpm). Blood parameters, maximum oxygen capacity (VO2 max), RBC deformability, RBC nitrite level and RBC-NOS activation were measured after venous blood sampling at rest pre (T0) and after six weeks of training (T1).

RESULTS

RBC-NOS activation, RBC nitrite concentration and RBC deformability were significantly increased at T1 in the HIT group. Parameters were unaltered in MIT and HVT. Maximum oxygen uptake was only significantly increased in the HIT group and regression analysis revealed positive regression between VO2 max and RBC deformability.

CONCLUSIONS

High intensity training was the only training programme that sustainably affected RBC-NOS dependent NO production and performance capacity. HIT therefore represents a time efficient training program resulting in improved RBC function potentially improving physical condition.

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Authors+Show Affiliations

Koliamitra C
Department of Molecular and Cellular Sport Medicine, Institute of Sport Medicine and Cardiovascular Research, German Sport University Cologne, Germany.
Holtkamp B
Department of Molecular and Cellular Sport Medicine, Institute of Sport Medicine and Cardiovascular Research, German Sport University Cologne, Germany.
Zimmer P
Department of Molecular and Cellular Sport Medicine, Institute of Sport Medicine and Cardiovascular Research, German Sport University Cologne, Germany. Department of Physical Activity, Prevention and Cancer, German Cancer Research Center Heidelberg, Germany.
Bloch W
Department of Molecular and Cellular Sport Medicine, Institute of Sport Medicine and Cardiovascular Research, German Sport University Cologne, Germany. German Sport University Cologne, The German Research Center of Elite Sport (momentum), Germany.
Grau M
Department of Molecular and Cellular Sport Medicine, Institute of Sport Medicine and Cardiovascular Research, German Sport University Cologne, Germany. German Sport University Cologne, The German Research Center of Elite Sport (momentum), Germany.

MeSH

AdultBiological TransportBlood Chemical AnalysisEnzyme ActivationErythrocyte DeformabilityErythrocytesExerciseHumansMaleNitric OxideNitric Oxide SynthaseOxygenPhosphorylationPhysical EnduranceSignal Transduction

Pub Type(s)

Journal Article

Language

eng

PubMed ID

28697553

Citation

Koliamitra, Christina, et al. "Impact of Training Volume and Intensity On RBC-NOS/NO Pathway and Endurance Capacity." Biorheology, vol. 54, no. 1, 2017, pp. 37-50.
Koliamitra C, Holtkamp B, Zimmer P, et al. Impact of training volume and intensity on RBC-NOS/NO pathway and endurance capacity. Biorheology. 2017;54(1):37-50.
Koliamitra, C., Holtkamp, B., Zimmer, P., Bloch, W., & Grau, M. (2017). Impact of training volume and intensity on RBC-NOS/NO pathway and endurance capacity. Biorheology, 54(1), 37-50. https://doi.org/10.3233/BIR-16121
Koliamitra C, et al. Impact of Training Volume and Intensity On RBC-NOS/NO Pathway and Endurance Capacity. Biorheology. 2017;54(1):37-50. PubMed PMID: 28697553.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Impact of training volume and intensity on RBC-NOS/NO pathway and endurance capacity. AU - Koliamitra,Christina, AU - Holtkamp,Bastian, AU - Zimmer,Philipp, AU - Bloch,Wilhelm, AU - Grau,Marijke, PY - 2017/7/13/pubmed PY - 2018/5/19/medline PY - 2017/7/13/entrez KW - Nitric oxide KW - exercise KW - red blood cell deformability KW - red blood cell-nitric oxide synthase SP - 37 EP - 50 JF - Biorheology JO - Biorheology VL - 54 IS - 1 N2 - BACKGROUND: Acute exercise increases red blood cell-nitric oxide synthase (RBC-NOS) activation and RBC deformability but the effect of regular training remains unclear. OBJECTIVE: To detect the chronic effect of enduring moderate and high intensity training on the RBC-NOS/NO pathway and to detect a relation between RBC deformability and endurance capacity. METHODS: 38 healthy male subjects were randomly assigned to one of three training groups: High Volume Training (HVT; 120-140 beats per minute (bpm)), High Intensity Training (HIT; 160-180 bpm) and Moderate Intensity Training (MIT; 140-160 bpm). Blood parameters, maximum oxygen capacity (VO2 max), RBC deformability, RBC nitrite level and RBC-NOS activation were measured after venous blood sampling at rest pre (T0) and after six weeks of training (T1). RESULTS: RBC-NOS activation, RBC nitrite concentration and RBC deformability were significantly increased at T1 in the HIT group. Parameters were unaltered in MIT and HVT. Maximum oxygen uptake was only significantly increased in the HIT group and regression analysis revealed positive regression between VO2 max and RBC deformability. CONCLUSIONS: High intensity training was the only training programme that sustainably affected RBC-NOS dependent NO production and performance capacity. HIT therefore represents a time efficient training program resulting in improved RBC function potentially improving physical condition. SN - 1878-5034 UR - https://www.unboundmedicine.com/medline/citation/28697553/Impact_of_training_volume_and_intensity_on_RBC_NOS/NO_pathway_and_endurance_capacity_ L2 - https://content.iospress.com/openurl?genre=article&id=doi:10.3233/BIR-16121 DB - PRIME DP - Unbound Medicine ER -