TY - JOUR A1 - Hortobagyi, Tibor A1 - Lesinski, Melanie A1 - Fernandez-del-Olmo, Miguel A1 - Granacher, Urs T1 - Small and inconsistent effects of whole body vibration on athletic performance: a systematic review and meta-analysis JF - European journal of applied physiology N2 - We quantified the acute and chronic effects of whole body vibration on athletic performance or its proxy measures in competitive and/or elite athletes. Systematic literature review and meta-analysis. Whole body vibration combined with exercise had an overall 0.3 % acute effect on maximal voluntary leg force (-6.4 %, effect size = -0.43, 1 study), leg power (4.7 %, weighted mean effect size = 0.30, 6 studies), flexibility (4.6 %, effect size = -0.12 to 0.22, 2 studies), and athletic performance (-1.9 %, weighted mean effect size = 0.26, 6 studies) in 191 (103 male, 88 female) athletes representing eight sports (overall effect size = 0.28). Whole body vibration combined with exercise had an overall 10.2 % chronic effect on maximal voluntary leg force (14.6 %, weighted mean effect size = 0.44, 5 studies), leg power (10.7 %, weighted mean effect size = 0.42, 9 studies), flexibility (16.5 %, effect size = 0.57 to 0.61, 2 studies), and athletic performance (-1.2 %, weighted mean effect size = 0.45, 5 studies) in 437 (169 male, 268 female) athletes (overall effect size = 0.44). Whole body vibration has small and inconsistent acute and chronic effects on athletic performance in competitive and/or elite athletes. These findings lead to the hypothesis that neuromuscular adaptive processes following whole body vibration are not specific enough to enhance athletic performance. Thus, other types of exercise programs (e.g., resistance training) are recommended if the goal is to improve athletic performance. KW - Exercise KW - Muscle KW - Force KW - Power KW - Skill KW - Reflex KW - Endocrine KW - Metabolism Y1 - 2015 U6 - https://doi.org/10.1007/s00421-015-3194-9 SN - 1439-6319 SN - 1439-6327 VL - 115 IS - 8 SP - 1605 EP - 1625 PB - Springer CY - New York ER - TY - GEN A1 - Hortobagyi, Tibor A1 - Lesinski, Melanie A1 - Gabler, Martijn A1 - VanSwearingen, Jessie M. A1 - Malatesta, Davide A1 - Granacher, Urs T1 - Gait Speed: A Systematic Review and Meta-Analysis (vol 45, pg 1627, 2015) T2 - Sports medicine Y1 - 2016 U6 - https://doi.org/10.1007/s40279-016-0498-9 SN - 0112-1642 SN - 1179-2035 VL - 46 SP - 453 EP - 453 PB - Springer CY - Northcote ER - TY - GEN A1 - Lesinski, Melanie A1 - Hortobagyi, Tibor A1 - Mühlbauer, Thomas A1 - Gollhofer, Albert A1 - Granacher, Urs T1 - Effects of Balance Training on Balance Performance in Healthy Older Adults: A Systematic Review and Meta-analysis (vol 45, pg 1721, 2015) T2 - Sports medicine Y1 - 2016 U6 - https://doi.org/10.1007/s40279-016-0500-6 SN - 0112-1642 SN - 1179-2035 VL - 46 SP - 457 EP - 457 PB - Springer CY - Northcote ER - TY - GEN A1 - Lesinski, Melanie A1 - Hortobagyi, Tibor A1 - Mühlbauer, Thomas A1 - Gollhofer, Albert A1 - Granacher, Urs T1 - Dose-Response Relationships of Balance Training in Healthy Young Adults: A Systematic Review and Meta-Analysis (vol 45, pg 557, 2015) T2 - Sports medicine Y1 - 2016 U6 - https://doi.org/10.1007/s40279-016-0499-8 SN - 0112-1642 SN - 1179-2035 VL - 46 SP - 455 EP - 455 PB - Springer CY - Northcote ER - TY - JOUR A1 - Lesinski, Melanie A1 - Hortobagyi, Tibor A1 - Mühlbauer, Thomas A1 - Gollhofer, Albert A1 - Granacher, Urs T1 - Dose-Response Relationships of Balance Training in Healthy Young Adults: A Systematic Review and Meta-Analysis JF - Sports medicine N2 - Background Balance training (BT) has been used for the promotion of balance and sports-related skills as well as for prevention and rehabilitation of lower extremity sport injuries. However, evidence-based dose-response relationships in BT parameters have not yet been established. Objective The objective of this systematic literature review and meta-analysis was to determine dose-response relationships in BT parameters that lead to improvements in balance in young healthy adults with different training status. Data Sources A computerized systematic literature search was performed in the electronic databases PubMed, Web of Knowledge, and SPORTDiscus from January 1984 up to May 2014 to capture all articles related to BT in young healthy adults. Study Eligibility Criteria A systematic approach was used to evaluate the 596 articles identified for initial review. Only randomized controlled studies were included if they investigated BT in young healthy adults (16-40 years) and tested at least one behavioral balance performance outcome. In total, 25 studies met the inclusion criteria for review. Study Appraisal and Synthesis Methods Studies were evaluated using the physiotherapy evidence database (PEDro) scale. Within-subject effect sizes (ESdw) and between-subject effect sizes (ESdb) were calculated. The included studies were coded for the following criteria: training status (elite athletes, sub-elite athletes, recreational athletes, untrained subjects), training modalities (training period, frequency, volume, etc.), and balance outcome (test for the assessment of steady-state, proactive, and reactive balance). Results Mean ESdb demonstrated that BT is an effective means to improve steady-state (ESdb = 0.73) and proactive balance (ESdb = 0.92) in healthy young adults. Studies including elite athletes showed the largest effects (ESdb = 1.29) on measures of steady-state balance as compared with studies analyzing sub-elite athletes (ESdb = 0.32), recreational athletes (ESdb = 0.69), and untrained subjects (ESdb = 0.82). Our analyses regarding dose-response relationships in BT revealed that a training period of 11-12 weeks (ESdb = 1.09), a training frequency of three (mean ESdb = 0.72) or six (single ESdb = 1.84) sessions per week, at least 16-19 training sessions in total (ESdb = 1.12), a duration of 11-15 min for a single training session (ESdb = 1.11), four exercises per training session (ESdb = 1.29), two sets per exercise (ESdb = 1.63), and a duration of 21-40 s for a single BT exercise (ESdb = 1.06) is most effective in improving measures of steady-state balance. Due to a small number of studies, dose-response relationships of BT for measures of proactive and reactive balance could not be qualified. Limitations The present findings must be interpreted with caution because it is difficult to separate the impact of a single training modality (e.g., training frequency) from that of the others. Moreover, the quality of the included studies was rather limited, with a mean PEDro score of 5. Conclusions Our detailed analyses revealed effective BT parameters for the improvement of steady-state balance. Thus, practitioners and coaches are advised to consult the identified dose-response relationships of this systematic literature review and meta-analysis to implement effective BT protocols in clinical and sports-related contexts. However, further research of high methodological quality is needed to (1) determine dose-response relationships of BT for measures of proactive and reactive balance, (2) define effective sequencing protocols in BT (e.g., BT before or after a regular training session), (3) discern the effects of detraining, and (4) develop a feasible and effective method to regulate training intensity in BT. Y1 - 2015 U6 - https://doi.org/10.1007/s40279-014-0284-5 SN - 0112-1642 SN - 1179-2035 VL - 45 IS - 4 SP - 557 EP - 576 PB - Springer CY - Northcote ER -