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Conor Harris

8 Feb, 12 tweets, 5 min read

A thread on ankle mobility, pronation, common misconceptions, & how to improve it

If you want to:
- Run fast
- Squat/deadlift a lot of weight
- Have good ankle mobility

You want your foot to properly pronate.

Pronation is the transition from force absorption to production...

The biggest misconception I see is that people think pronation is the collapsing inward of the foot as a whole.

That is not the case, and a collapsed foot is indicative of a foot that is likely compensating into pronation, rather than achieving true pronation.

True pronation of the foot involves relative:

- Tibial internal rotation (IR)
- Rearfoot eversion (turning in)
- Forefoot inversion (turning out)

Pronation occurs most in mid-stance in gait, where it is coupled with relative IR of the hips, femur, and tibia.

If you’ve been trying to improve your ankle mobility without success, it could be in part because your foot simply can’t pronate well.

In order for optimal dorsiflexion to occur, optimal pronation has to happen with it.

It is practically impossible to separate the two.

In order to produce force optimally through running/sprinting, the foot arch falls as weight is transferred onto the foot.

The stretch of the plantar (bottom) foot muscles creates a stretch on the muscles that supinate the foot, which is necessary for them to contract for

re-supination of the foot upon push-off as the arch “springs” back up. This is called the Windlass Mechanism.

So one could make the argument that pronation leads to re-supination of the foot which = optimal hip extension & propulsion.

We often see high level athletes with very pronated feet in a static posture & during running.

This is often because (in my opinion), they utilize this as a (likely effective) compensatory strategy for finding the pronation they need to complete the Windlass Mechanism.

We also often see people who feel better squatting with their toes pointed outward.

This helps them find pronation, which is coupled with IR at the lower body. Pronation of the foot is necessary at the sticking point of a squat for the lower body to create force through IR.

This is *not* inherently bad, but if taken too far, you can see a knee valgus moment occur as a lack of pronation at the foot can cause an inwardly collapse of the knee as it tries to find internal rotation.

This applies to any movement requiring pronation & high loads/velocity.

To improve pronation, I am a fan of using wedges or a slanted surface (I am partial to Gary Ward’s wedges), to elevate the outside heel and first two toes.

This creates relative tibial IR, rearfoot eversion, and forefoot inversion for optimal mechanics.

Here is an example:

If you don’t have anything to use as a wedge, simply putting a small towel roll under the foot arch can help in dorsiflexion drills.

This helps provide a reference for the arch to “drop into” to help it find pronation:

We also can’t forget about the need for the arch to re-supinate and stay rigid in a supinated state.

To train this, I like heel-float split squats as a method.

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More from @Conor_Harris_

Conor Harris

@Conor_Harris_

21 Dec 20

A thread on the biomechanics of hip extension & how to train it

If you want to:
- Stand upright
- Sprint
- Train your glutes & hamstrings properly

You want to have hip extension. Problem is, majority of people & athletes don’t fully have it.

The reason why it’s often..

missing is for a few common reasons:

- Sitting too much: Sitting is hip flexion and the body will adapt to the demands placed on it

- Not training through a full range of motion. Ending your squats and deadlifts with your butt out means you’re not in full hip extension

You’ll commonly see people who don’t have full hip extension stand in an Anterior Pelvic Tilt.

I think we know this tightens the hip flexors and back extensors, but it also tightens & restricts ligaments of the hips like the iliofemoral ligament.

This creates a hip flexion

Read 11 tweets

Conor Harris

@Conor_Harris_

6 Nov 20

A thread on knee injuries in females and strategies to help minimize their potential

Weakness of the hip abductor & external rotator (ER) muscles is surprisingly common in otherwise normal & healthy females (Malinzak et al, 2001; Robinson, 2007).

That is just one piece of the..

overall puzzle.

Females tend to have a higher Q-Angle due to wider hips. The research is murky whether or not higher Q-Angle leads to more injuries, but honestly I’m not concerned about that as much as the biomechanical relevance of a higher angle.

When hips are wider, the sacrum is in a relatively higher amount of counter-nutation and the pelvic bones follow it into:

- External rotation
- Abduction
- Flexion

Read 10 tweets

Conor Harris

@Conor_Harris_

16 Oct 20

A thread on how to improve hip internal rotation

If you want to:
- Be agile
- Be fast
- Get through the sticking point of a squat
- Deadlift

You want to have adequate hip internal rotation (IR).

However, in my experience it is often missing to some degree in many people.

The hip musculature responsible for hip IR are primarily:

- Adductors
- Inner Hamstrings
- Anterior fibers of the Gluteus Medius
- Tensor Fasciae Latae

In human movement, IR is necessary for mid-stance when we have our bodyweight on one leg and we need to propel it to the next leg. In cutting, we obviously need hip internal rotation to drive out of it effectively in a propulsive manner.

Read 13 tweets

Conor Harris

@Conor_Harris_

9 Oct 20

A thread on the biomechanics of a lateral lunge - and why it’s an amazing position for those with tight glutes & piriformis.

This position is know for training the frontal plane, but it’s so much more than that.

Depending on how you do it, you can improve movement mechanics..

through an understanding of the constraints you can use with the exercise.

The lateral “lunge” is honestly a hinge, and that distinction matters when appreciating the context of when we should choose it in a program.

When we hinge, the pelvic inlet (top) comes closer together

while the pelvic outlet (bottom) spreads apart.

Notice where the posterior hip musculature (glutes & that all-so- known piriformis) attach.

When we hinge, we are essentially “spreading apart” that musculature while the pelvis goes into:

-Internal Rotation
-Adduction
-Extension

Read 8 tweets

Conor Harris

@Conor_Harris_

23 Sep 20

A thread on how to train the Glute Max

You often hear terms like “gluteal amnesia” or “my glutes are asleep”

Nah, your positioning and exercise selection probably sucks.

Let’s dig in on how to attack the glutes.

We first should appreciate it’s mechanics to best...

train it.

It has a significant role in:
- External Rotation at the hip and femur (leg bone)
- Hip & Trunk extension
- Hip abduction
- Posterior pelvic tilt

And yet, it is hardly active at all during standing and walking (Neumann, 2010). Interesting, huh?

In order for a muscle to be properly contracted, it needs to be stretched. That is what cues contraction of muscles in the human body.

That’s partially why it doesn’t function much in walking and standing, while it does much more in running.

Read 13 tweets

Conor Harris

@Conor_Harris_

16 Sep 20

A thread on how to train the Serratus Anterior

Many people are generally aware that the Serratus Anterior (SA) is an important player in shoulder health, but are unsure how to train it.

It has two main functions: Shoulder protraction & assisting in elevation of the arm...

The SA is actually a massively important player in overhead mobility.

It needs to hold and “pull” the scapula (shoulder blade) on the ribcage, or else the scapula would be very unstable & overhead mobility is limited.

When it can’t do it’s job (usually other factors at play here too), the scapula will be “lost” on the ribcage and won’t have adequate congruency on it.

We see this all the time with “winged out” scapulas.

Read 9 tweets

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