We recently completed a studyReference Burns, Ueda and Stensel2 where we examined the effect of an intermittent resistance exercise protocol with a total estimated energy expenditure of 5·1 MJ on postprandial lipaemia. We found a 12 % and 18 % reduction in the total and incremental areas under the TAG concentration curves respectively. The calculated effect size for the total area under the TAG concentration curve in this study was low ( − 0·34) in comparison with that seen by Zafeiridis and colleagues ( − 0·53 and − 0·65 for low volume and high volume resistance exercise respectively) despite the estimated energy expenditure being much higher.
The evidence on this topic is confused further given that the only other refereed published studies disagree. Petitt and colleaguesReference Petitt, Arngrimsson and Cureton3 observed a reduction in TAG concentrations after resistance exercise with an estimated energy expenditure of 1·7 MJ and calculated an effect size for this study of − 0·78, much closer to that observed in the study by Zafeiridis and colleagues. However, weReference Burns, Corrie, Holder, Nightingale and Stensel4 and Shannon and coworkersReference Shannon, Shannon, Clore, Gennings, Warren and Potteiger5 have observed no reduction in TAG concentrations after resistance exercise with estimated energy expenditures of 2·3 and 2·58 MJ respectively. Zafeiridis and colleagues argue that the lack of an observed reduction in TAG concentrations in the study by Shannon et al. was because the energy deficit caused by exercise was fed back to the participants. Nonetheless, it is known that exercise produces a reduction in postprandial TAG concentrations over and above that brought on by energy deficit aloneReference Gill and Hardman6.
Perhaps, however, of most interest is that the calculated effect size of the low volume resistance exercise bout in the study by Zafeiridis et al. ( − 0·53) is similar to the mean weighted effect calculated previously for aerobic exercise ( − 0·57)Reference Petitt and Cureton7, despite a large proportion of these aerobic exercise studies involving exercise of long duration (up to 90 min). This suggests that resistance exercise may be much more effective than aerobic exercise in reducing postprandial TAG concentrations. Future studies are needed to elucidate the mechanism behind this reduction.
