Saturday, February 6, 2021

Learning and Cues for the Bench Press

             A movement that I am most familiar with from powerlifting would be a maximal effort competition bench press. Utilizing the model proposed by Atkinson and Shiffrin (1968), one can first look at the relevant learning and performing skills. Structurally speaking and following with this, the first thing one could look at is the sensory register. This also coincides with a skill that one may have to filter eventually, which is your visual field during performance of the bench press. One thing that I have personally had to filter out would be something as simple as the direction of the tiles. If the bench wasn’t perfectly parallel to the wall to make the tiles go perfectly in a left-right up-down direction, I found it quite distracting and had to attempt to filter it out as my brain didn’t interpret it as “straight.”

               As you progress beyond the initial stage, one must next look at proper body positioning. Generally in my coaching practice, I’ve advised the feet to be planted in the floor below the knees, glutes on the bench, a slight arch in the back, and shoulders squeezed together. One point of contention could be the arched back. Though preferences may vary on the use of it, a narrative review on injuries by Bengtsson et al. (2019) did not find any instances of back injuries being caused by a “powerlifting” style bench press. That information makes me feel confident that you can safely have a slight arch without increasing injury risk to your back. This, of course, discounts some of the extreme outliers that one could find through the Internet where the lordosis becomes an almost “Exorcist” movie style proportion.

               The next cue would be the lift-off. As a personal point, I usually advise that the lifter performs the lift-off on their own. This could mitigate another distraction that would need to be filtered out, the first “shock” of how the weight feels. I find this to be especially true with heavier weights. As one lifts the weight off and can feel it, it tends to decrease the distraction of having a spotter lift it off and not feeling the full weight until you’re at a locked-out position.

               After this is the cue for the eccentric phase of the movement. As there is a required pause in competition, the cue that I use is to pretend that there is a piece of glass on your chest. You want to lower the weight controlled, and touch is on your chest. If you let the weight sink into your chest, you are possibly delaying the next cue. The next cue is an auditory one, which is the command of “Press” from the judge. The command is usually not given until the bar is on the chest and not moving; something that could possibly take more time if one is letting the bar sink into the chest and it takes longer to stop in place.

               The next part would be the concentric phase. One background cue would be to ensure your feet are planted into the floor, and you are getting a drive upward with your legs. This can’t be so much drive that your glutes come off the bench. Beyond that, there are two parts to consider in the concentric phase, bar path and bar velocity. A 1984 study by McLaughlin and Madsen looked at bar path from lifters, focusing on novice, intermediate, and advanced lifters. Figure 3 on p 64 (McLaughlin & Madsen, 1984) split them into the groups based on bar path. The novice lifter had a bar path that started straight up off the chest, then moving back towards the had after the mid-range point. The intermediate had more of a general “straight” line back towards the head as the bar path moved through the motion. The advanced had a movement that moved towards the head off the chest, then straightened out into a movement more perpendicular to the floor as it moved. Figure 2 on p. 63 of the same study found that the novice bar path required the greatest amount of force on the bar immediately off the chest, with a sharp drop-off in force as the bar moves through its path. On the other hand, the advanced bar path showed the most even distribution of force throughout the movement. That in mind, it seems reasonable that you could cue the lifter to push the weight off the chest towards the head to begin, before straightening out the bar. One could accomplish this with auditory cues, or if possible, film from the side to allow the lifter to have a visual representation. This would be dependent on getting to know your lifter and how they best learn.

               The other part of the concentric movement would be the bar velocity. Krol et al. (2010) looked at bar velocity through the movement. The bar velocity was slower and constant through the first half of the movement, until moving through the “sticking” point (about halfway through the concentric portion) before velocity increased markedly. The results also noted that one issue with the strength would be a delay in the pectoral muscles and the deltoid muscles being more activated than the triceps. With this in mind, an external cue that would need to be filtered would be any noise at this point in the movement. When in competition, a lot of times there are spectators cheering loudly, with volume increasing as the lifter hits their sticking point. If a lifter is unable to properly filter these cues and becomes distracted, the delay could in theory become longer, resulting in a failed lift.

References

Atkinson, R. C., & Shiffrin, R. M. (1968). Human memory: a proposed system and its control processes. Psychology of Learning and Motivation, 2(1), 89-195. https://doi.org/10.1016/S0079-7421(08)60422-3

Bengtsson, V., Berglund, L., & Aasa, U. (2018). Narrative review of injuries in powerlifting with special reference to their association to the squat, bench press and deadlift. BMJ Open Sport & Exercise Medicine, 4(e000382), 108. https://doi.org/10.1136/bmjsem-2018-000382

McLaughlin, T. M., & Madsen, N. H. (1984). Bench press technique of elite heavyweight powerlifters. Strength and Conditioning Journal, 6(4), 44, 62-65. https://journals.lww.com/nsca-scj/Abstract/1984/08000/Bench_Press__Bench_press_techniques_of_elite.10.aspx

Krol, H., Golas, A., & Sobota, G. (2010). Complex analysis of movement in evaluation of flat bench press performance. Acta of Bioengineering and Biomechanics, 12(2), 93-98. http://www.actabio.pwr.wroc.pl/Vol12No2/10.pdf