By challenging the grip and maintaining a fist we provide a rich sensory input to the brain that allows us to produce more stability and a system-wide increase in force output (which is what we really want). The strength of this stimulus probably improves motor learning too. A big grip tells the brain that the position is a stable one and it is safe to generate a lot more force without risk of destabilization and injury.
Don’t believe me? Try flexing your biceps without making a fist – it’s really hard to generate much of a contraction. Then make a crushing fist while contracting your biceps. The result is a much greater biceps contraction as you are amplifying the motor output of the brain – often called irradiation or overflow. By augmenting the stronger parts of the pattern, we can facilitate improved neuromuscular activation thru the weaker parts.
Seriously, try making a fist as hard as you can – you feel the tension all the way up to the middle of your back as this overflow sets the scapulae and thoracic spine (spinal control is always crucial) allowing a stable platform for power generation by closing the circuit. Pavel has used this for years with the Soviet Special Forces and his Kettlebell training paradigms.
So how do we train grip and hack the system?
1) To initiate grip training I like to start with having the athlete grip the bar, club, or bat way harder than they think they need to. This is important to train initially as it helps to improve a strong grip pattern on demand in order to progress to more dynamic movements when rapid and powerful upper extremity stability is needed.
2) Challenge grip demands by varying the grip width of the bar – wrapping a towel around the bar is probably your cheapest route though you can buy various thick bars if you’re sitting on some disposable income. By training the grip we can improve adaptation without adding more load to the system which may aide in recovery and lessen the odds of injury without losing performance (Charlie Weingroff has some great insight on the nervous system as well as minimizing system load).
3) For unilateral and one-arm movements (farmer’s carries, kettlebell swings) maintain a strong, closed fist in the non-working hand. This is crucial. By stabilizing the system thru a closed fist the circuit itself is closed, the scapulae and spine are fixated, and increased force is transmitted thru the working arm and not lost via a limp wrist on the non-working hand.
4) Work more with kettlebells. The uneven weight distribution of the bell and the ballistic nature of many kettlebell movements really challenges grip and allows for some serious neural input and adaptation to occur. Kettlebell work really challenges the reflexive component of grip which is crucial for performance – generating a powerful, stabilized arm and torso on demand for maximum efficiency.
The best athletes can create tons of force AND control on demand and grip training is a way to tap into the nervous system and optimize adaptation. The more we can impact and alter the sensory experience the more we can improve movement quality.
– Seth
Great stuff! I recently had a low back injury and my PT has been completely breaking down my movements. He emphasizes total neuromuscular training. Utilizing an intense grip makes attaining total body tension for different exercises much easier. Thanks for the read!
Thanks for commenting Hannah. It really is interesting how tapping into sensorimotor processes can augment tension and stability throughout the system. It seems that having some feedback thru the grip/contact may activate developmental motor processes.
Thanks for reading.
Great article, Seth. I find all of this to be true in my practice. Almost all of my patients get training in deadlifts, farmer’s carries and pull ups. Keep up the good work!
Ann
Thanks Ann. That’s great to hear you challenging not only grip but various movement archetypes as well. I think that the more ways we can access and challenge the nervous system in a productive way, the more adaptability we can foster.
Thanks for reading and sharing!
Great read Seth! Ray Cummerlander introduced me to this blog a couple months back. I am currently interning with Uw football, and I am wondering if you have any more readings regarding this.? Thank you sir.
Thanks Jamison. There is little peer-reviewed literature on this subject despite it’s strong anecdotal efficacy. Pavel Tsatsouline has discussed this for years in his kettle bell training and there’s some support in the PNF/developmental literature including some work by Gray Cook here: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2953329/
But ultimately it makes sense right? The more we can involve the brain in interventions thru sensory and motor training the more salient the task for motor learning and retention. I tend to believe that everything in our highly evolved system is there for a reason and with all the cortical resources devoted to the hands, why not use it to our advantage? The more beneficial and non-threatening feedback the better the motor output.
if we wait for an RCT for everything we do, we’ll never truly drive human function and performance and will always be behind when many answers are staring us right in the face. Play around with it and see what works.
Thanks for reading and sharing.