Muscle fiber typology is associated with the incidence of overreaching in response to overload training

Bellinger, Phillip; Desbrow, Ben; Derave, Wim; Lievens, Eline; Irwin, Christopher; Sabapathy, Surendran; Kennedy, Ben; Craven, Jonathan; Pennell, Evan; Rice, Hal; Minahan, Clare

doi:10.1152/japplphysiol.00314.2020

Cited by 25 publications

(21 citation statements)

References 75 publications

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“…The training was periodized in a way that 2 intensive weeks were followed by 1 recovery week. The training volume progression was similar to previous studies ( 7 , 25 ): during intensive weeks, it increased by 10% compared with the baseline level (2 first weeks of PREP). To ensure sufficient recovery, training volume was always decreased by 25% after 2 intensive weeks ( 26 ).…”

Section: Methodssupporting

confidence: 87%

Individualized Endurance Training Based on Recovery and Training Status in Recreational Runners

Nuuttila

Nummela

Korhonen

et al. 2022

Medicine &Amp; Science in Sports &Amp; Exercise

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Purpose: Longterm development of endurance performance requires a proper balance between strain and recovery. Because responses and adaptations to training are highly individual, this study examined whether individually adjusted endurance training based on recovery and training status would lead to greater adaptations compared with a predefined program. Methods: Recreational runners were divided into predefined (PD; n = 14) or individualized (IND; n = 16) training groups.In IND, the training load was decreased, maintained, or increased twice a week based on nocturnal heart rate variability, perceived recovery, and heart rate-running speed index. Both groups performed 3-wk preparatory, 6-wk volume, and 6-wk interval periods. Incremental treadmill tests and 10-km running tests were performed before the preparatory period (T 0 ) and after the preparatory (T 1 ), volume (T 2 ), and interval (T 3 ) periods. The magnitude of training adaptations was defined based on the coefficient of variation between T 0 and T 1 tests (high >2Â, low <0.5Â). Results: Both groups improved (P < 0.01) their maximal treadmill speed and 10-km time from T 1 to T 3 . The change in the 10-km time was greater in IND compared with PD (−6.2% ± 2.8% vs −2.9% ± 2.4%, P = 0.002). In addition, IND had more high responders (50% vs 29%) and fewer low responders (0% vs 21%) compared with PD in the change of maximal treadmill speed and 10-km performance (81% vs 23% and 13% vs 23%), respectively. Conclusions: PD and IND induced positive training adaptations, but the individualized training seemed more beneficial in endurance performance. Moreover, IND increased the likelihood of high response and decreased the occurrence of low response to endurance training.

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Section: Methodssupporting

confidence: 87%

Individualized Endurance Training Based on Recovery and Training Status in Recreational Runners

Nuuttila

Nummela

Korhonen

et al. 2022

Medicine &Amp; Science in Sports &Amp; Exercise

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“…The majority of training intervention studies demonstrate that considerable variability in adaptation to a given exercise stimulus is the norm [e.g., [115][116][117]. The principle of individualization refers to the notion that training prescription must be adapted and optimized according to individual predispositions (performance level, training status/age, sex, recovery/injury status and physiological and structural/mechanical profiles) to maximize the effect and avoid non-responder outcomes [13,52,58,98,118]. Total training load is typically higher in well-trained adult runners of higher performance standard compared to their younger, less trained and lower-performing counterparts [19-21, 56, 58].…”

Section: Individualizationmentioning

confidence: 99%

Crossing the Golden Training Divide: The Science and Practice of Training World-Class 800- and 1500-m Runners

et al. 2021

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Despite an increasing amount of research devoted to middle-distance training (herein the 800 and 1500 m events), information regarding the training methodologies of world-class runners is limited. Therefore, the objective of this review was to integrate scientific and best practice literature and outline a novel framework for understanding the training and development of elite middle-distance performance. Herein, we describe how well-known training principles and fundamental training characteristics are applied by world-leading middle-distance coaches and athletes to meet the physiological and neuromuscular demands of 800 and 1500 m. Large diversities in physiological profiles and training emerge among middle-distance runners, justifying a categorization into types across a continuum (400–800 m types, 800 m specialists, 800–1500 m types, 1500 m specialists and 1500–5000 m types). Larger running volumes (120–170 vs. 50–120 km·week−1 during the preparation period) and higher aerobic/anaerobic training distribution (90/10 vs. 60/40% of the annual running sessions below vs. at or above anaerobic threshold) distinguish 1500- and 800-m runners. Lactate tolerance and lactate production training are regularly included interval sessions by middle-distance runners, particularly among 800-m athletes. In addition, 800-m runners perform more strength, power and plyometric training than 1500-m runners. Although the literature is biased towards men and “long-distance thinking,” this review provides a point of departure for scientists and practitioners to further explore and quantify the training and development of elite 800- and 1500-m running performance and serves as a position statement for outlining current state-of-the-art middle-distance training recommendations.

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“…Previous research has indicated that there is not only variability in the physiological response to different approaches to POR training (e.g., high-volume vs. high-intensity) (Fry and Kraemer, 1997 ; Bell et al, 2020 ; Grandou et al, 2020b ), but that differences might also occur in a group of individual athletes undertaking the same training protocol. These differences are likely to be modulated by multiple factors including genotype (Clarkson et al, 2005 ), sex differences (Hunter, 2016 ) muscle fiber typology (Bellinger et al, 2020 ; Lievens et al, 2020 ), age, and biological maturation (Moran et al, 2017 ). Additional factors such as level of competition/status (elite vs. non-elite) (Kreher and Schwartz, 2012 ) and the athlete's “stress capacity” (i.e., the ability to tolerate the combined effects of training and non-training stressors) (Kenttä and Hassmén, 1998 ; Stults-Kolehmainen and Bartholomew, 2012 ) are also likely to play a role in the response to POR.…”

Section: Discussionmentioning

confidence: 99%

“I Want to Create So Much Stimulus That Adaptation Goes Through the Roof”: High-Performance Strength Coaches' Perceptions of Planned Overreaching

Bell

Ruddock

Maden‐Wilkinson

et al. 2022

Front. Sports Act. Living

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Functional overreaching (FOR) occurs when athletes experience improved athletic capabilities in the days and weeks following short-term periods of increased training demand. However, prolonged high training demand with insufficient recovery may also lead to non-functional overreaching (NFOR) or the overtraining syndrome (OTS). The aim of this research was to explore strength coaches' perceptions and experiences of planned overreaching (POR); short-term periods of increased training demand designed to improve athletic performance. Fourteen high-performance strength coaches (weightlifting; n = 5, powerlifting; n = 4, sprinting; n = 2, throws; n = 2, jumps; n = 1) participated in semistructured interviews. Reflexive thematic analysis identified 3 themes: creating enough challenge, training prescription, and questioning the risk to reward. POR was implemented for a 7 to 14 day training cycle and facilitated through increased daily/weekly training volume and/or training intensity. Participants implemented POR in the weeks (~5–8 weeks) preceding competition to allow sufficient time for performance restoration and improvement to occur. Short-term decreased performance capacity, both during and in the days to weeks following training, was an anticipated by-product of POR, and at times used as a benchmark to confirm that training demand was sufficiently challenging. Some participants chose not to implement POR due to a lack of knowledge, confidence, and/or perceived increased risk of athlete training maladaptation. Additionally, this research highlights the potential dichotomy between POR protocols used by strength coaches to enhance athletic performance and those used for the purpose of inducing training maladaptation for diagnostic identification.

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Muscle fiber typology is associated with the incidence of overreaching in response to overload training

Cited by 25 publications

References 75 publications

Individualized Endurance Training Based on Recovery and Training Status in Recreational Runners

Individualized Endurance Training Based on Recovery and Training Status in Recreational Runners

Crossing the Golden Training Divide: The Science and Practice of Training World-Class 800- and 1500-m Runners

“I Want to Create So Much Stimulus That Adaptation Goes Through the Roof”: High-Performance Strength Coaches' Perceptions of Planned Overreaching

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