Gait Analysis & Biomechanics
Running reveals what standing and walking hide. We use gait analysis to expose adhesions, stiffness, and rotation failures that drive chronic pain and recurrent injury.
Written by Louis Ellery • Last reviewed: April 2026
The Diagnostic Tool
Most practitioners assess you lying down or standing still. The problem is that pain rarely occurs in those positions. It happens when you move -- when you walk, when you run, when you throw. That's where the dysfunction lives, and that's where we look.
Running amplifies everything. It exposes adhesions in the fascial system, stiffness through the thoracic spine, and failures in contralateral rotation that walking might conceal. A slight imbalance at walking speed becomes a glaring compensation at running speed. This is why running is one of the most powerful diagnostic tools we have.
We film your gait from multiple angles -- front, back, and side -- then slow it down frame by frame. We're looking at how your pelvis rotates relative to your ribcage, how your feet strike the ground, whether your arms are counter-rotating properly, and where force is leaking instead of transferring efficiently through the kinetic chain.
This analysis forms the foundation of your training program. Every exercise we prescribe is designed to correct the specific dysfunctions revealed in your gait. Nothing is generic. Nothing is guesswork.
The Foundation
Every human body is designed around four fundamental movements. When these work correctly, pain decreases and performance increases. When they don't, compensation patterns develop that eventually become injuries.
How you distribute weight at rest reveals asymmetries in your pelvis, spine, and ribcage. Most people have no idea they're standing on one leg more than the other.
Walking is a controlled fall with contralateral rotation. When your left arm doesn't swing with your right leg, the spine can't rotate properly and force leaks into joints.
Running amplifies walking mechanics by 3-5x the ground reaction force. Every compensation becomes magnified -- which is precisely why it's our most revealing assessment tool.
Throwing demands full-body integration -- ground force travelling through the legs, torso rotation, and energy release through the arm. It tests the entire kinetic chain under load.
Real Results
These are real clients who came to us with real problems. Every result was achieved through gait-based training -- no surgery, no injections, no guesswork.
Jim came to us as a cricketer dealing with persistent pain that was limiting his ability to train and compete. Through gait-based biomechanics training, we rebuilt his movement patterns from the ground up.
He gained lean mass from 96kg to 100kg while eliminating all pain. His improved mechanics translated directly to on-field performance -- he was selected for the Queensland 2nd XI squad.
+4kg
Lean Mass
Zero
Pain
QLD
2nd XI
Matt Renshaw came to us to address SIJ dysfunction and improve his force production and leg drive for batting. As a professional cricketer, his body was under constant demand and conventional approaches weren't resolving his issues.
Through gait-based training, we improved his SIJ mechanics, increased his ground reaction force, and enhanced his leg drive. The result was better performance with less pain and greater resilience across a demanding season.
SIJ
Resolved
Force
Increased
Leg
Drive Up
This client presented unable to run at all due to debilitating sciatic pain. Walking was uncomfortable and running was completely off the table. Previous treatments had provided only temporary relief.
By addressing the root cause through gait mechanics -- correcting pelvic rotation, spinal alignment, and force transfer patterns -- we progressively restored their ability to move. They went from zero running capacity to sprinting pain-free at 25km/h.
0
Starting Speed
25
km/h Now
Zero
Pain
Lachlan came to us with two serious injuries: a shoulder reconstruction and an L5/S1 disc injury. Multiple specialists had recommended surgery for the disc. He was told his rugby career was effectively over.
Instead of surgery, we used Functional Patterns to rebuild his movement mechanics from scratch. Through gait-based training, we restored his spinal alignment, reintegrated his shoulder into the kinetic chain, and progressively loaded his body back to full capacity.
The result: Lachlan returned to playing rugby without surgery. He gained 7kg of lean muscle mass, eliminated his pain, and went on to secure a job in ecology -- a physically demanding career that would have been impossible in his previous condition.
No
Surgery Needed
+7kg
Lean Muscle
Rugby
Resumed
Ecology
Career Secured
Aryan came to us looking to improve his cricket performance. Through gait-based biomechanics training, we identified and corrected the movement dysfunctions that were limiting his speed and power output.
His sprint speed increased from 21.3km/h to 25.8km/h -- a gain of 4.5km/h. This dramatic improvement in his running mechanics contributed directly to his selection for the Queensland 2nd XI squad.
21.3
km/h Before
25.8
km/h After
QLD
2nd XI
The Bigger Picture
Humans evolved to walk and run. These movements shaped our skeletal structure, our muscular system, and our fascial network over millions of years. When your gait cycle is dysfunctional, it doesn't just affect your running -- it affects everything. How you stand, how you sit, how you sleep, how you breathe.
This is why isolated treatments fail. Stretching a tight hip flexor doesn't address why it became tight in the first place. Strengthening a weak glute doesn't explain why it stopped firing. The answer is almost always in the gait cycle -- somewhere in the coordination between your pelvis, ribcage, spine, and limbs, a pattern broke down, and the body compensated.
We don't treat symptoms. We correct the movement patterns that create those symptoms. And gait is where those patterns live.
Evidence-Based
Peer-reviewed research supporting this treatment approach:
Common Questions
A gait analysis involves filming your walking and running from 4 angles in slow motion. We assess foot strike, ankle mechanics, knee tracking, hip stability, pelvic rotation, rib cage positioning, arm swing, and head carriage. This reveals asymmetries and compensations invisible to the naked eye. The analysis forms the foundation of a personalised correction plan targeting your specific dysfunctions.
Yes. Research shows gait retraining significantly reduces knee joint loading, shin splints, plantar fasciitis, and hip pain in runners. Most running injuries stem from repetitive loading through a dysfunctional pattern. By correcting how force transmits from the ground up through your foot, ankle, knee, hip, and pelvis, you reduce the cumulative stress that causes injury.
Noticeable gait improvements typically occur within 4–6 weeks of targeted correction. Your nervous system begins integrating new motor patterns from the first session. However, deeply embedded gait dysfunctions may take 3–6 months of consistent work to fully resolve. The changes are progressive and compound over time.
Ready to Start?
90 minutes to understand exactly why your pain exists, which patterns drive it, and what needs to change.