Wednesday, May 23, 2018

Fingerboard Training Guide (II). Maximal grip Strength and Endurance Methods and Load Training management

Versión en español

I. The current state of affairs: Preliminary Evaluation
This topic was addressed in the first part of this series. You can read it here.

II. Methodology

2.1. Naming Conventions and Training Methods
In case you aren’t aware of the terminology we will explain it through examples of each method.

2.1.1. Maximal dead hangs on the minimum edge depth (MED hangs), no added weight.

3-5 x MED Hangs x 5”-15” (1-5) :3’-5’

EXAMPLE: 2 x MED Hangs  x 12” (3) :3’

The first number (2) indicates the number of sets; after the “x” we write the name of the method or protocol and exercise (MED = minimum edge depth; Hangs = dead hangs); what follows is the duration of each dead hang in seconds and the effort level (EL) or margin in parentheses; last is the rest interval length indicated by the colon. It reads like this:

“Perform 2 sets of dead hangs on the smallest edge that would allow you to hang for 15 seconds max, but do just 12 to keep a margin of 3 seconds; rest 3 minutes between sets”.
Traning MaxHangs MED on Transgression board. Photo: Javipec.

This term was proposed by González-Badillo & Gorostiaga in 1993 and was called ‘carácter del esfuerzo’ in the original Spanish. Some English-speaking authors like Schoenfeld (2016) have used alternative terms like ‘intensity of effort’ to refer to the same concept.

The particular layout we use to describe a session puts the EL between parentheses, to the right of the effort duration for each set. The effort level tells us how close to our limit we get, the difference between the # of seconds or reps that we could possibly do and how many we actually do. In other words, how many seconds (or repetitions) we leave before muscle failure. The closer to our limit, the higher the EL and the more fatigued we get. We can also think of it as a margin, buffer, distance to failure or ‘repetitions in reserve’ (RIR; Steele et col., 2017).
When we are working our maximal strength with methods that seek neural adaptations through the use of high loads, the effort level is one of the parameters that will help us monitor and adjust the load. The reason is twofold:

  1. It has been shown that leaving a margin yields similar results than reaching failure as far as these methods are concerned, with the bonus of reduced risk of overuse and injury, and faster recovery between sessions (Davies et al., 2017; Morán-Navarro et al., 2017; Sampson & Groeller, 2016).
  2. Additionally, controlling the intensity of each set via the margin ensures we achieve the desired results in contrast to reaching failure in each set (Sánchez-Medina, 2010). The latter modality makes us remove some added weight or choose a deeper edge for each successive set due to fatigue. The physiological consequences (lactate, uric acid and ammonia buildup) are associated to the glycolytic pathway and phosphagen depletion (González-Badillo & Sánchez-Medina, 2011), which would trade the neural adaptations we seek for others, conducive to changes in endurance instead.

The practical application of this concept in MaxHangs is shown in this video.

2.1.2. Maximal dead hangs with added weight (MAW hangs)

In this method we start by choosing one edge size:
3-5  MAW Hangs x 8mm-20mm x 5”-15” (1-5) :3’-5’
Only Babette Roy can train weighted hangs on that edge size. Gym: Allez up centre d'escalade (Montreal, Canada). Hangboard: Transgression board. Source: Instagram. Photo courtesy of Babette.

EXAMPLE: 3 x MAW Hangs  x 18mm x 10” (3) :3’

And that reads: Repeat 3 times (sets) the dead hangs exercise with a 18mm-deep edge, adding enough extra weight to last 13 seconds, but hanging just for 10 seconds to honor the 3-second margin; recover for 3 minutes between sets.
This figure helps learning the MaxHangs nomenclature. It is part of the Transgression and Progression training guides, that will be available for purchase separate from the fingerboards shortly.

2.1.3. Intermittent dead hangs (IntHangs) on the minimum edge or with added weight

Check this blog post to learn more about this method.
No added weight:

3-5 x 4-5 x  MED IntHangs x 10”-7” :3”-30”/2’-1’

Performed with added weight (advanced, ample training experience needed):

3-5 x 4-5 x MAW IntHangs x 10mm-18mm x 7”-10” :3”-30”/2’-1’

EXAMPLE: 3 x4 x MED MaxHangs x 10” :20”/2’
The long version: Perform 3 sets, comprised of 4 repetitions each, of 10-second dead hangs with a 20-second pause between repetitions and 2 minutes between sets; the edge will be the smallest that allows to complete all the repetitions.

You’ll have noticed the lack of a margin before failure indication, but this is by design because here we want to reach failure in the last repetition of the last set, but not before. To achieve that, we have to learn to manage the intensity by choosing the edge depth carefully, based on our perception of effort.
The basic nomenclature for the MED IntHangs method.

2.1.4. Submaximal dead hangs (SubHangs), on the smallest edge or with added weight
This is the first appearance of Submaximal dead hangs (SubHangs) in this blog. The configuration is similar to that of MaxHangs, with the difference that longer hanging times have effects on grip endurance, and presumably on maximum strength via hypertrophy. Your hangboarding workout in this context requires the optimal combination of mechanical tension and metabolic stress (Schoenfeld, 2016), so I recommend pauses between sets longer than 1 minute to maintain the intensity (edge size or added weight) reasonably stable throughout the session.

When opting for MED the edge will obviously be much bigger than the MaxHangs one; as for MAW, I’d only prescribe them to someone with a high or elite level very familiar with advanced finger training.

4-8 x MED Hangs x 20”-45” :30”-2’
4-8 x MAW Hangs x 14mm-20mm x 20”-45” :30”-2’ (really advanced method)

It is advisable to start with a longer pause, 2 or even 3 minutes, and shorten it step by step, down to 90” or 30” while keeping the hang duration or the edge size constant; alternatively you can increase the hang time and keep the pause unchanged. Which one suits your needs better? Your goals will inform your choice: the need to have a quick recovery between efforts or hold the grip on a particular hold size for the longest possible time.

2.2 Load Training Management
It is vital to control the training load day by day, exercise by exercise and of course, set by set. Intensity is the key variable in strength training. As climbers this translates into the need to make sure the hold size or the added weight are in tune with the pre-set method requirements. In short: honoring the programmed hanging time and margin in order to obtain the desired training effects.

2.2.1. Determining and controlling intensity in the MaxHangs method
Before choosing the load for the first set we must warm-up, doing 3-4 dead hangs if you have already done some climbing on the wall, or 6-8 otherwise. Other factors like individual characteristics and temperature can condition warm-up volume. These initial sets will be progressively harder, from 50% to 90% of the training added weight or hold depth; the last set helps us guessing the load required to comply with the effort duration and the margin for the day, and we should get near failure in this set to accomplish it. The way I see it, you only need this procedure the first time you start performing a method.

Once we have a baseline, we will employ this approach in all subsequent sets and training days: if you feel you won’t comply with the EL, the solution is to add or remove added weight as necessary, or change to an easier or harder edge in order to keep a constant load. Guessing your time to failure seems difficult and not very precise, but it doesn’t take long to learn it, and accuracy improves with experience, based on my own experience and recent research (Steele et col., 2017). Training always to failure does not require this cognitive investment, but as we have already mentioned the drawbacks are not worth it (Morán-Navarro et col., 2017).

Suppose your planning for today prescribes hanging for 12 seconds off an edge that you could hold for 16 seconds (4” margin), and you have chosen a 20mm edge; warming up or in the first set you realize your maximum time would be 13 seconds (1” margin), so you change to a 22 or 24mm edge. The process is the same in MAW but adding or removing weights (2-5 kg depending on body weight and perception).

Here you can watch a video on handling the load in a MAW Hangs workoutand in a MED Hangs workout. Body posture and general execution are important to avoid injury. The right technique is shown in this video.

2.2.2. Determining and controlling Intensity in IntHangs and SubHangs
Before choosing the load for the first set we must warm-up, doing 3-5 dead hangs if you have already done some climbing on the wall, or 8-10 otherwise, Other factors like individual characteristics and temperature can condition warm-up volume. These initial sets will be progressively harder, from 50% to 90% of the training load, adding weights or reducing edge depth. The effort duration will be similar to the training one, for example doing sets of 10 seconds with 10-second long pauses for IntHangs and longer, or around 30-second hangs for SubHangs. The last warm-up set should help you guess the initial weight or hold size for the day, which is not set in stone and can change from one set to the next.

Having determined this initial training load we should repeat the above procedure in each set, each session. The goal here is to end the session with failure, and guessing the right weight or edge from the get go is unlikely, making corrections on the fly to finish all the reps and sets (IntHangs) or all the sets (SubHangs) is part of the game. Failing too soon or not failing at all will have a different effect than the one we were aiming for when designing the exercise.

2.3. What hangboard should I choose?
When we focus on constantly controlling the intensity and personalizing the training, access to a variety of weights and edge sizes makes our life a lot easier; the Progression and Transgression boards have you covered, but there are other options for different kinds of holds, like slopers. A cheaper alternative is having several wooden rungs with varying depths, or building your own adjustable edge or adjustable sloper (see pictures below).
The TRANSGRESSION board offers 6, 7, 8, 9, 10, 12, 14 and 18 mm edges.
Source: Surfaces for Climbing
The PROGRESSION board offers 10, 12, 14, 16, 18, 20, 22 and 24 mm edges. Fuente: Surfaces for Climbing
 If you are on a budget, you can build and install the edge sizes you need. Source:
These DIY contraptions are cheap and use recycled materials but still allow you to change how hard the hold is to grip, making it possible to manage the load and carry out a progressive and personalized training program. Left: our adjustable sloper; right: the adjustable edge, built to test and train strength on edges for my first research works in 2004.

The width of the device/edges should be around 50 cm, so you can place your hands at the distance of your elbows or a bit wider and thus decrease the chance of overload due to excessive pronation in the pronator teres, wrist or elbow.

Remember that training the open hand grip with 1, 2 or 3 fingers calls for holds with rounder lips. If your edges are long enough you can make some sections blunter with a file or sandpaper, leaving a more aggressive profile in other parts to use the half crimp.


  • Davies, T, Orr, R, Halaki, M, and Hackett, D. (2016). Effect of Training Leading to Repetition Failure on Muscular Strength: A Systematic Review and Meta-Analysis. Sport Med 46: 487–502, 2016.
  • Sánchez-Medina, L., & González-Badillo, J. J. (2011). Velocity loss as an indicator of neuromuscular fatigue during resistance training. Medicine & Science in Sports & Exercise, (22), 1725–1734.
  • González-Badillo, J. J., Marques, M. C., Sánchez-Medina, L.  (2011). The Importance of Movement Velocity as a Measure to Control Resistance Training Intensity. Journal of Human Kinetics, 29 (Special Issue), 15–19. 
  • González-Badillo, J.J., & Gorostiaga, E.. (1993).  Fundamentos del entrenamiento de la fuer za. Aplicación al alto rendimiento deportivo.
  • Morán‑navarro, R., Pérez, C. E., Mora‑rodríguez, R., De La Cruz‑sánchez, E., González‑Badillo, J. J., Sánchez‑Medina, L., … Pallarés, G. (2017). Time course of recovery following resistance training leading or not to failure. Eur J Appl Physiol, 117(12), 2387–2399.
  • Sampson, J. A. & Groeller, H. (2016). Is repetition failure critical for the development of muscle hypertrophy and strength? Scandinavian Journal of Medicine and Science in Sports, 26(4), 375–383.
  • Schoenfeld, B. (2016). Science and Development of Muscle Hypertrophy. Human Kinetics.
  • Steele, J., Endres, A., Fisher, J., Gentil, P., & Giessing, J. (2017). Ability to predict repetitions to momentary failure is not perfectly accurate, though improves with resistance training experience. PeerJ, 5(November), e4105.
  • Sundrup, E., Jakobsen, M. D., Andersen, C. H., Zebis, M. K., Mortensen, O. S., & Andersen, L. L. (2012). Muscle Activation strategies during strength training with heavy loading versus repetition to failure. J Strength Con Res, 26(7)M 1897-1903.

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