Running Biomechanics: Difference between revisions

The Running Gait Cycle[edit | edit source]

Running is similar to walking in terms of locomotor activity. However, there are key differences. Having the ability to walk does not mean that the individual has the ability to run.
Running requires:

• Greater balance
• Greater muscle strength
• Greater joint range of movement

Running Gait cycle

There is a need for greater balance because the double support period present in walking is not present when running. There is also the addition of a double float period during which both feet are off the ground, not making contact with the support surface.

The amount of time that the runner spends in float, increases as the runner increases in speed. The muscles must produce greater energy to elevate the head, arms and trunk (HAT) higher than in normal walking, and to support HAT during the gait cycle. The muscles and joints, must also be able to absorb increased amounts of energy to control the weight of HAT.

During the running gait cycle, the Ground reaction force (GRF) at the centre of pressure(COP) have been shown to increase to 250% of the body weight.^[1]

Joint Motion[edit | edit source]

• Beginning of stance phase - hip is in about 50deg flexion at heel strike, continuing to extend during the rest of the stance phase. I reaches 10deg of hyperextension after toe off.
• The hip flexes to 55deg flexion in the late swing phase.
• Before the end of the swing phase, the hip extends to 50 deg to prepare for the heel strike.
• The knee flexes to about 40deg as the heel strikes, then flexes to 60deg during the loading response
• The knee begins to extend after this, and reaches 40deg flexion just before toe-off.
• During swing phase and the initial part of the float period, the knee flexes to reach maximum flexion of 125deg during the mid swing.
• The knee then prepares for heel strike by extending to 40deg
• The ankle is in about 10deg of dorsiflexion when the heel strikes, and then dorsiflexes rapidly to 25deg DF.
• Plantarflexion happens almost immediatly, continuing throughout the rest of the stance phase of running, and as it enters swing phase also.
• Plantar flexion reaches a maximum of 25deg in the first few seconds of of swing phase.
• The ankle then dorsiflexes throughout the swing phase to 10deg in the late stage of swing phase, preparing for heel strike.
• The lower limb medially rotates during the swing phase, continuing to medially rotate at heel strike.
• The foot pronates at heelstrike.
• Lateral rotation of the lower limb stance leg begins as the swing leg passes by the stance leg in mid stance position.

Muscle Activity[edit | edit source]

• Gluteus maximus and gluteus medius are both active at the beginning of stance phase, and also at the end of swing phase.
• TFL is active from the beginning of stance, and also the end of swing phase. It is also active between early and mid swing.
• Adductor Magnus is active for about 25% of cycle, from late stance to early part of swing phase.
• Iliopsoas activity occurs during swing phase for 35-60% of cycle.
• Quadriceps works in an eccentric manner for the initial 10% of the stance phase. Its role is to control knee flexion as the knee goes through rapid flexion. It stops being active after the first part of the stance phase, there is then no activity until the last 20% of swing phase. At this point it becomes concentric in behaviour so it can extend the knee to prepare for heel strike.

Recent Related Research (from Pubmed)[edit | edit source]

References[edit | edit source]

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