Source
Sport Performance
Research Institute New Zealand, AUT University, Mail code P1, AUT-Millennium,
17 Antares Place, Mairangi Bay, Private Bag 92006, Auckland, 1020, New Zealand,
travis.mcmaster@aut.ac.nz.
Abstract
BACKGROUND
AND AIM:
Strength and power are
crucial components to excelling in all contact sports; and understanding how a
player's strength and power levels fluctuate in response to various resistance
training loads is of great interest, as it will inevitably dictate the loading
parameters throughout a competitive season. This is a systematic review of
training, maintenance and detraining studies, focusing on the development,
retention and decay rates of strength and power measures in elite rugby union,
rugby league and American football players.
SEARCH
STRATEGIES:
A literature search
using MEDLINE, EBSCO Host, Google Scholar, IngentaConnect, Ovid LWW, ProQuest
Central, ScienceDirect Journals, SPORTDiscus™ and Wiley InterScience was
conducted. References were also identified from other review articles and
relevant textbooks. From 300 articles, 27 met the inclusion criteria and were
retained for further analysis.
STUDY
QUALITY:
Study quality was
assessed via a modified 20-point scale created to evaluate research conducted
in athletic-based training environments. The mean ± standard
deviation (SD) quality rating of the included studies was 16.2 ± 1.9;
the rating system revealed that the quality of future studies can be improved
by randomly allocating subjects to training groups, providing greater
description and detail of the interventions, and including control groups where
possible.
DATA
ANALYSIS:
Percent change, effect
size (ES = [Post-Xmean - Pre-Xmean)/Pre-SD) calculations and SDs were used to
assess the magnitude and spread of strength and power changes in the included
studies. The studies were grouped according to (1) mean intensity relative
volume (IRV = sets × repetitions × intensity; (2)
weekly training frequency per muscle group; and (3) detraining duration. IRV is
the product of the number of sets, repetitions and intensity performed during a
training set and session. The effects of weekly training frequencies were
assessed by normalizing the percent change values to represent the weekly
changes in strength and power. During the IRV analysis, the percent change
values were normalized to represent the percent change per training session. The
long-term periodized training effects (12, 24 and 48 months) on strength
and power were also investigated.
RESULTS:
Across the 27 studies
(n = 1,015), 234 percent change and 230 ES calculations were
performed. IRVs of 11-30 (i.e. 3-6 sets of 4-10 repetitions at 74-88 %
one-repetition maximum [1RM]) elicited strength and power increases of
0.42 % and 0.07 % per training session, respectively. The following
weekly strength changes were observed for two, three and four training sessions
per muscle region/week: 0.9 %, 1.8 % and 1.3 %, respectively. Similarly,
the weekly power changes for two, three and four training sessions per muscle
group/week were 0.1 %, 0.3 % and 0.7 %, respectively. Mean
decreases of 14.5 % (ES = -0.64) and 0.4 (ES = -0.10)
were observed in strength and power across mean detraining periods of
7.2 ± 5.8 and 7.6 ± 5.1 weeks, respectively. The
long-term training studies found strength increases of
7.1 ± 1.0 % (ES = 0.55), 8.5 ± 3.3 %
(ES = 0.81) and 12.5 ± 6.8 % (ES = 1.39)
over 12, 24 and 48 months, respectively; they also found power increases
of 14.6 % (ES = 1.30) and 12.2 % (ES = 1.06) at
24 and 48 months.
CONCLUSION:
Based on current
findings, training frequencies of two to four resistance training sessions per
muscle group/week can be prescribed to develop upper and lower body strength
and power. IRVs ranging from 11 to 30 (i.e. 3-6 sets of 4-10 repetitions of
70-88 % 1RM) can be prescribed in a periodized manner to retain power and
develop strength in the upper and lower body. Strength levels can be maintained
for up to 3 weeks of detraining, but decay rates will increase thereafter
(i.e. 5-16 weeks). The effect of explosive-ballistic training and
detraining on pure power development and decay in elite rugby and American
football players remain inconclusive. The long-term effects of periodized
resistance training programmes on strength and power seem to follow the law of diminishing
returns, as training exposure increases beyond 12-24 months, adaptation
rates are reduced.
PMID: 23529287 [PubMed - as supplied by publisher]
Link: http://www.ncbi.nlm.nih.gov/pubmed?Db=pubmed&Cmd=Retrieve&list_uids=23529287&dopt=abstractplus
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