Performance and neuromuscular adaptations following differing ratios of concurrent strength and endurance training
Date
2013Author
Jones, Thomas W.
Howatson, Glyn
Russell, Mark
French, Duncan N.
Metadata
Show full item recordAbstract
The
interference effect attenuates strength and hypertrophic
responses when strength and endurance training are conducted
concurrently; however, the influence of training frequency
on these responses remain unclear when varying
ratios of concurrent strength and endurance training are performed.
Therefore, the purpose of the study was to examine
the strength, limb girth, and neuromuscular adaptations to varying
ratios of concurrent strength and endurance training.
Twenty-four men with .2 years resistance training experience
completed 6 weeks of 3 days per week of (a) strength training
(ST), (b) concurrent strength and endurance training ratio 3:1
(CT3), (c) concurrent strength and endurance training ratio 1:1
(CT1), or (d) no training (CON) in an isolated limb model. Assessments
of maximal voluntary contraction by means of isokinetic
dynamometry leg extensions (maximum voluntary
suppression [MVC]), limb girth, and neuromuscular responses
through electromyography (EMG) were conducted
at baseline, mid-intervention, and postintervention. After training,
ST and CT3 conditions elicited greater MVC increases
than CT1 and CON conditions (p # 0.05). Strength training
resulted in significantly greater increases in limb girth than both
CT1 and CON conditions (p = 0.05 and 0.004, respectively).
The CT3 induced significantly greater limb girth adaptations than
CON condition (p = 0.04). No effect of time or intervention was
observed for EMG (p . 0.05). In conclusion, greater frequencies
of endurance training performed increased the magnitude of the
interference response on strength and limb girth responses after
6 weeks of 3 days a week of training. Therefore, the frequency of
endurance training should remain low if the primary focus of the
training intervention is strength and hypertrophy.