Resistance Training Induces Antiatherogenic Effects on Metabolomic Pathways

Sarin, Heikki V.; Ahtiainen, Juha P.; Hulmi, Juha J.; Ihalainen, Johanna K.; Walker, Simon; Küüsmaa-Schildt, Maria; Perola, Markus; Peltonen, Heikki

doi:10.1249/mss.0000000000002003

Cited by 5 publications

(6 citation statements)

References 38 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Recently, Nikolova-Karakashian and Reid (2011) explained the 'sphingolipid rheostat' mechanism whereby sphingosine-1-phosphate slows fatigue, preserving force over time, ceramides, on the other hand, promote fatigue. The findings of Shepherd et al (2014) and Sarin et al (2019) were contradictory to the present study as they demonstrated that ST led to a significant increment in intramuscular triglyceride (IMTG) storage, muscle strength, and body fat percentage reduction. Shepherd et al (2014) assumed that greater IMTG storage might be created, leading to low availability of circulating ceramides following the ST.…”

Section: Discussioncontrasting

confidence: 99%

The Predictive Ability of Total Genotype Score and Serum Metabolite Markers in Power-Based Sports Performance Following Different Strength Training Intensities — A Pilot Study

Khairul¹,

Wahab²,

Teh³

et al. 2023

JST

View full text Add to dashboard Cite

Muscular power is one of the factors that contribute to an athlete’s performance. This study aimed to explore the predictive ability of total genotype score (TGS) and serum metabolite markers in power-based sports performance following different strength training (ST) intensities. We recruited 15 novice male field hockey players (age = 16.27 ± .12 years old, body mass index = 22.57 ± 2.21 kg/m2) and allocated them to; high-intensity strength training (HIST, n=5), moderate intensity strength (MIST, n=5), and control group (C, n=5). Both training groups completed an eight-week ST intervention. Pre- and post-training muscular power (vertical jump) was measured. The participants were genotyped for; ACE (rs1799752), ACTN3 (rs1815739), ADRB3 (rs4994), AGT (rs699), BDKRB2 (rs1799722), PPARA (rs4253778), PPARGC1A (rs8192678), TRHR (rs7832552), and VEGF (rs1870377). TGS was calculated to annotate for strength-power (STP) and endurance (END) qualities. Subsequently, serum metabolomics analysis was conducted using Liquid chromatography-mass spectrometry Quadrupole-Time-of-Flight (LC-MS QTOF) to profile differentially expressed metabolite changes induced by training. Multiple regression analysis was conducted to explore the ability of TGS and differentially expressed metabolite markers to predict muscular power changes following the intervention. Multiple Regression revealed that only TGS STP might be a significant predictor of muscular power changes following MIST (adjusted R2=.906, p<.05). Additionally, ST also resulted in significant muscular power improvement (p<.05) and perturbation of the sphingolipid metabolism pathway (p<.05). Therefore, selected gene variants may influence muscular power. Therefore, STP TGS might be able to predict muscular power changes following MIST.

show abstract

Section: Discussioncontrasting

confidence: 99%

The Predictive Ability of Total Genotype Score and Serum Metabolite Markers in Power-Based Sports Performance Following Different Strength Training Intensities — A Pilot Study

Khairul¹,

Wahab²,

Teh³

et al. 2023

JST

View full text Add to dashboard Cite

show abstract

“…Lowering blood cholesterol levels in athletes of group B in response to high intensity training load (Ra = 0.72) confirm the results of studies concerning strength training ( Costa et al, 2019 ; Sarin et al, 2019 ). However, these studies were not focused on the parameters of the volume and intensity of strength training, but only assessed the overall impact on training with weights on certain biochemical markers of blood.…”

Section: Discussionsupporting

confidence: 80%

“…One of the directions of this problem is related to the need to identify the most informative criteria for assessing the adaptive body changes in MMA athletes of strike fighting style and to find effective regimes of power training in the process of special training. Despite the generally accepted system of performance control in world practice, mainly by assessing the dynamics of morphometric parameters, changes in maximum muscle strength parameters (1RM) and special training ( Del Vecchio & Franchini, 2011 ; Schoenfeld et al, 2016 ; James et al, 2016a ; James et al, 2016b ; Loturco et al, 2021 ), in recent years scientists ( Marques et al, 2017 ; Walker et al, 2017 ; Crewther, Obmiński & Cook, 2018 ; Stajer, Vranes & Ostojic, 2020 ; Sarin et al, 2019 ) have paid attention to the use of biochemical blood markers to determine the course of adaptive changes.…”

Section: Discussionmentioning

confidence: 99%

Criteria for assessing the adaptive changes in mixed martial arts (MMA) athletes of strike fighting style in different training load regimes

Чернозуб

Manolachi

Korobeynikov

et al. 2022

PeerJ

View full text Add to dashboard Cite

Background To study the peculiarities of changes in functional indicators and body composition parameters of mixed martial arts (MMA) athletes of strike fighting style and a number of biochemical blood indicators during two months of using different intensity training load regimes, and to determine the most informative criteria for assessing adaptive body changes in these training conditions. Methods We examined 40 MMA athletes (men) aged 20–22, who used mainly strike fighting style in their competitive activity, and divided them into 2 research groups (A and B), 20 athletes in each group. Group A athletes used medium intensity (Ra = 0.64), and group B—high intensity (Ra = 0.72) training load regime. To assess the adaptive body changes we applied methods of control testing of maximum muscle strength growth (1 RM), special training (the number of accurate kicks on the mannequin for 30 s), and bioimpedansometry. By monitoring biochemical parameters (testosterone, cortisol, creatinine, phosphorus, calcium, cholesterol, LDH) in the blood serum of athletes, we determined the peculiarities of adaptive-compensatory body reactions in response to training loads. Results The obtained results of special training increased during the study period by an average of 10.5% in group B athletes, but group A participants’ results had no significant changes compared to basal data. The largest increase in the development of maximum muscle strength growth by an average of 44.4% was recorded after 2 months of research in group B. Group B athletes also had positive changes in body fat and fat-free mass indicators during the study which were two times higher than the results of group A. The laboratory studies and correlation analysis showed informative biochemical markers (cortisol, testosterone and creatinine) for assessing the condition of athletes in both groups before using high and medium training load regimes. The biochemical markers for assessing the adaptive-compensatory reactions of athletes in response to high-intensity physical stimuli at the beginning of the study were indicators of LDH and cholesterol, and in conditions of medium intensity it was LDH, testosterone and cortisol. After 2 months of study the set of biochemical markers assessing the adaptation processes before the load completely changed only in group B athletes and consisted of LDH, phosphorus, cholesterol, and calcium. At the same time, the set of biochemical criteria for assessing adaptive-compensatory reactions after training in group B athletes was completely changed compared with the data recorded at the beginning of the study. Conclusion Defining the optimal set of criteria for assessing the adaptive-compensatory changes in MMA athletes of strike fighting style will allow in the shortest possible time to correct the parameters of the training load regime for accelerating the body functionality in the process of special power training.

show abstract

“…Some studies also support the correlation between RC and DM from the side. A DM prevention cohort study ( 22 ) shows that the RC concentration in the pre diabetes group is significantly higher than that in the normal population. Additionally, in a single-center cohort study ( 29 ), it was found that elevated RC levels were independently linked to a higher risk of developing new DM ( HR : 2.44, 95% CI : 1.50–3.89).…”

Section: Discussionmentioning

confidence: 99%

“…Recent meta-analyses underscore the beneficial effects of higher levels of exercise on various health markers, including fasting blood glucose, total cholesterol, and triglycerides, suggesting the potential role of PA in regulating blood lipid levels ( 12 , 13 , 21 ). Additionally, as a component of the exercise regimen, resistance training has been associated with a decrease in RC levels, highlighting the connection between specific types of PA and lipid metabolism ( 22 ). Building upon the relationship between PA, RC, and DM mentioned above, we speculate that RC may play a crucial role in the complex interplay between PA and DM.…”

Section: Introductionmentioning

confidence: 99%

Role of remnant cholesterol in the relationship between physical activity and diabetes mellitus: an intermediary analysis

Yang,

Chen,

Lai

et al. 2024

Front. Public Health

View full text Add to dashboard Cite

ObjectiveThe purpose of this investigation was to evaluate the potential link between physical activity (PA) and the heightened susceptibility to diabetes mellitus (DM), by examining whether remnant cholesterol (RC) might act as a mediator in this correlation.MethodsThe research utilized data from the National Health and Nutrition Examination Survey, spanning from 2005 to 2018. Various statistical analyses were conducted for continuous and categorical variables, including the t-test, ANOVA, and χ2 test. Logistic regression was employed to analyze the association between PA and DM across three distinct models. Mediation analysis was also conducted to assess the potential mediation effects of RC.ResultsThe study encompassed a total of 9,149 participants, and it was observed that individuals with DM exhibited lower levels of PA. Furthermore, PA levels were found to be associated with all participant characteristics except poverty income ratio, fasting blood glucose, and HOMA-IR (p < 0.05). After adjusting for covariates (Model 3), individuals with high PA levels demonstrated a decreased likelihood of developing DM compared to those in the low PA group (OR: 0.73, 95%CI: 0.54–0.99). A significant dose–response relationship was identified (p < 0.05). No interaction between PA and RC in relation to DM risk was detected, and RC was found to serve as a mediator in the connection between PA and DM. After considering covariates, the mediating effect of RC between PA and DM weakens.DiscussionOur findings suggest that higher levels of PA are linked to a reduced risk of DM in U.S. adults, with RC likely playing a mediating role.

show abstract

Resistance Training Induces Antiatherogenic Effects on Metabolomic Pathways

Cited by 5 publications

References 38 publications

The Predictive Ability of Total Genotype Score and Serum Metabolite Markers in Power-Based Sports Performance Following Different Strength Training Intensities — A Pilot Study

The Predictive Ability of Total Genotype Score and Serum Metabolite Markers in Power-Based Sports Performance Following Different Strength Training Intensities — A Pilot Study

Criteria for assessing the adaptive changes in mixed martial arts (MMA) athletes of strike fighting style in different training load regimes

Role of remnant cholesterol in the relationship between physical activity and diabetes mellitus: an intermediary analysis

Contact Info

Product

Resources

About