Cell-Free Plasma DNA as a Novel Marker of Aseptic Inflammation Severity Related to Exercise Overtraining

Fatouros, Ioannis G.; Destouni, Aspasia; Margonis, Konstantinos; Jamurtas, Athanasios Z.; Vrettou, Christina; Kouretas, Demetrios; Mastorakos, George; Mitrakou, Asimina; Taxildaris, Kyriakos; Kanavakis, Emmanouel; Papassotiriou, Ioannis

doi:10.1373/clinchem.2006.070417

Cited by 121 publications

(125 citation statements)

References 31 publications

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“…Compared to the Co group, the Tr group exhibited a significant (P < 0.05) decrease in pure fiber IIA and IID CSA in the plantaris DR portion; there was also a tendency for pure fiber I and IIB CSA to decrease in this portion (P ¼ 0.08 and P ¼ 0.09, respectively). Our results are consistent with several studies which show a predominance of catabolic condition (Seene et al, 1999;Petibois et al, 2000;Seene et al, 2004) in situations with a persistent combination of excessive overload plus inadequate recovery (Jamurtas et al, 2000;Fatouros et al, 2006). Although the molecular events that underlie our findings remain unknown, these observations raise questions as to what signals and cellular conditions initiate muscle mass changes during overtraining conditions.…”

Section: Skeletal Muscle Changes During Resistance Trainingsupporting

confidence: 93%

“…Thus, progression from the benign adaptive microtrauma stage may exacerbate the initial injury (Stone et al, 1991) resulting in a subclinical injury in the overtrained athlete. Muscle injury induces a reduction in strength (Fatouros et al, 2006) due to extensive muscle damage (Seene et al, 1999), swelling in the injured area, soreness, edema (Jamurtas et al, 2000;Fatouros et al, 2006), and local inflammatory response (Smith, 2004). Also, Petibois et al (2003) demonstrated that overtrained individuals have higher amino acid and lower protein blood accumulation in response to exercise than welltrained individuals.…”

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confidence: 99%

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High‐Intensity Resistance Training with Insufficient Recovery Time Between Bouts Induce Atrophy and Alterations in Myosin Heavy Chain Content in Rat Skeletal Muscle

Souza

Aguiar

Carani

et al. 2011

The Anatomical Record

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The aim of this study was to test whether high-intensity resistance training with insufficient recovery time between bouts, could result in a decrease of muscle fiber cross-sectional area (CSA), alter fiber-type frequencies and myosin heavy chain (MHC) isoform content in rat skeletal muscle. Wistar rats were divided into two groups: trained (Tr) and control (Co). Tr group were subjected to a high-intensity resistance training program (5 days/week) for 12 weeks, involving jump bouts into water, carrying progressive overloads based on percentage body weight. At the end of experiment, animals were sacrificed, superficial white (SW) and deep red (DR) portions of the plantaris muscle were removed and submitted to mATPase histochemical reaction and SDS-PAGE analysis. Throughout the experiment, both groups increased body weight, but Tr was lower than Co. There was a significant reduction in IIA and IID muscle fiber CSA in the DR portion of Tr compared to Co. Muscle fiber-type frequencies showed a reduction in Types I and IIA in the DR portion and IID in the SW portion of Tr compared to Co; there was an increase in Types IIBD frequency in the DR portion. Change in muscle fiber-type frequency was supported by a significant decrease in MHCI and MHCIIa isoforms accompanied by a significant increase in MHCIIb isoform content. MHCIId showed no significant differences between groups. These data show that high-intensity resistance training with insufficient recovery time between bouts promoted muscle atrophy and a transition from slow-to-fast contractile activity in rat plantaris muscle. Anat Rec, 294:1393Rec, 294: -1400Rec, 294: , 2011. V V C 2011 Wiley-Liss, Inc.

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Section: Skeletal Muscle Changes During Resistance Trainingsupporting

confidence: 93%

mentioning

confidence: 99%

High‐Intensity Resistance Training with Insufficient Recovery Time Between Bouts Induce Atrophy and Alterations in Myosin Heavy Chain Content in Rat Skeletal Muscle

Souza

Aguiar

Carani

et al. 2011

The Anatomical Record

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“…However, few investigations of cf-DNA, as it relates to exercise and/or training, have been conducted. Recent studies of cf-DNA have explored the acute response of cf-DNA after a single bout of exercise [12][13][14][15][16][17] , as well as chronic changes in cf-DNA concentrations with resistance training 18 . These initial inquiries of post-exercise cf-DNA concentrations and training have suggested that cf-DNA may provide benefits over other markers of tissue damage and inflammation such as creatine kinase (CK) and C-reactive protein (CRP), for inclusion in a LTAMP.…”

Section: Introductionmentioning

confidence: 99%

Changes in cell free DNA during a college soccer season

Gentles¹,

Hornsby²,

Gray³

et al. 2015

Journal of Trainology

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Objectives: This study investigated chronic changes in cell free DNA (cf-DNA) throughout a collegiate soccer season. The relationship between cf-DNA, C-reactive protein (CRP), creatine kinase (CK), testosterone (T), cortisol (C), testosterone-cortisol ratio (T:C), body mass and body composition were also examined. Design: Longitudinal study design with repeated measures and group comparisons. Methods: Twenty three NCAA Division I male soccer players were divided into two groups. Starters were placed in Group 1 (G1) and non-starters were placed in Group 2 (G2). cf-DNA, CRP, CK, T, C, T:C, body mass and body composition were taken three times, corresponding to pre-season, approximately mid-season and immediately after the concluding the season. Results: In G1, cf-DNA, CRP, CK, cf-DNA %∆, CRP %∆ and, CK %∆ were all statistically higher at T2 and T3 than T1. In G2, CRP %∆ was statistically higher at T2 than T1. In G2, cf-DNA %∆, CRP %∆ and CK %∆ were higher at T2 and T3 than T1. Conclusions: This suggests that cf-DNA may be a useful marker that can reflect accumulated soccer training and competitive stressors.(Journal of Trainology 2015;4:25-31)

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“…The physiological role of sFasL is controversial since it has been reported to induce non-apoptotic signals, possibly including NF-kβ-mediated stimulation of cell proliferation, survival or inflammation within an elevated cytokine milieu (Suda, et al 1997, Mogi, et al 2001, Serrao, et al 2001). In addition to FasL, circulating cell free DNA (cfDNA) has quite recently been discovered as a potential marker of inflammation, apoptosis, senescence and malignant conditions (Stroun, et al 1987, Fatouros, et al 2006, Jylhava, et al 2012). …”

Section: Introductionmentioning

confidence: 99%

Circulating miR-21, miR-146a and Fas ligand respond to postmenopausal estrogen-based hormone replacement therapy – A study with monozygotic twin pairs

Kangas

Pöllänen

Rippo

et al. 2014

Mechanisms of Ageing and Development

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Cell-Free Plasma DNA as a Novel Marker of Aseptic Inflammation Severity Related to Exercise Overtraining

Cited by 121 publications

References 31 publications

High‐Intensity Resistance Training with Insufficient Recovery Time Between Bouts Induce Atrophy and Alterations in Myosin Heavy Chain Content in Rat Skeletal Muscle

High‐Intensity Resistance Training with Insufficient Recovery Time Between Bouts Induce Atrophy and Alterations in Myosin Heavy Chain Content in Rat Skeletal Muscle

Changes in cell free DNA during a college soccer season

Circulating miR-21, miR-146a and Fas ligand respond to postmenopausal estrogen-based hormone replacement therapy – A study with monozygotic twin pairs

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