Ankle Mobility 101 | Part 1 - Anatomy & Functions - For Fathers Fitness

Ankle Mobility 101 | Part 1 - Anatomy & Functions

Ankle mobility is important in the gym for a better squat, but it also plays a role in our daily life.

 

A strong and flexible ankle makes our body more functional.

 

In 2 Parts we are going to share everything you should know from the anatomy of the ankle and its functions to some of our favorite mobility exercises.

 

Let’s start with the anatomy of the ankle.

 

Ankle Anatomy

 

An article from YPO explains it best.

 

The ankle joint connects the leg with the foot and has three main bones:

 

  • Tibia (shin bone)
  • Fibula (calf bone) - next to the shin bone
  • Talus (ankle bone) - above the heel bone

 

The bony bumps (or protrusions) seen and felt on the ankle have their own names:

 

  • The medial malleolus, formed by the tibia is found on the inside of your ankle
  • The posterior malleolus, also formed by the tibia is found on the back of your ankle
  • The lateral malleolus, formed by the fibula is found on the other aspect of the ankle

 

There are 33 joints in the ankle, one of the most important ones is the hinge joint, which is responsible for bending, extension, and flexion.

 

In general, the joints of the ankle and the foot provide stability and support your body when walking and running.

 

The ankle also has soft tissues that support the bones.


Some of them are:

 

  • Cartilage - allows smooth movements in between the bones
  • Ligaments - they connect bones to other bones providing stability to the joints
  • Muscles - the foot has 20 muscles in total and some of them are located in the ankle:

 

  1. Anterior tibial muscle: it is responsible for the up and down movement of the foot
  2. Posterior tibial muscle: it supports the arch of the foot
  3. Peroneal tibial muscle: responsible for movement on the outside of the ankle.
  4. Extensors: they allow the ankle to raise the toes before stepping ahead.
  5. Flexors: they stabilize the toes against the ground

 

  • Tendons - soft tissues that connect the muscles to the bones (Achilles tendon is the largest and the strongest one in our bodies )
  • Bursae - these are small fluid-filled sacs, which reduce friction between tendons and bone or skin

 

After learning the ankle anatomy, let’s jump straight into the functions of this important joint.

 

Functions Of The Ankle

 

According to DrGlassDPM, the ankle joint has the primary responsibility of managing the body’s weight with or against the ground force.

 

The ankle joint has the largest deviation from the sagittal plane.

 

That means that this joint is responsible for:

 

  • Plantar Flexion - downward motion away from your foot (imagine how you press the gas pedal of a car)
  • Dorsiflexion - backward bending and contracting of the foot

 

Open chain pronation at the ankle joint results in a foot with dorsiflexion abduction and averted.

 

On the other side, open-chain supination is a result of the foot being plantarflexed, adducted, and inverted.

 

These two movements are produced by the movement of the calcaneus and the remaining foot.

 

Closed chain motion is more complex since the majority of calcaneal motion is inhabited by the ground and all movement, which is produced by equal and opposite motion is also blocked by the ground.

 

Conclusion

 

We hope that this information is enough for you, in order to understand how the ankle works and what are its functions.

 

Now, if you want to get more practical, continue with our second part, where we are breaking down how to build ankle mobility, and share with you some of our favorite exercises.

 

Thank you for reading this informative article and don’t forget to share it with a friend!

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