The Sensor Medica FlexInFit is a professional wearable sensorized insole system that places 214 precision pressure sensors inside each insole and therefore inside the patients own shoe delivering the most clinically accurate representation of how the foot actually behaves during real world activity

FlexInFit is a completely wireless junction box free Bluetooth enabled system that pairs with the freeStep biomechanical analysis software to deliver comprehensive in shoe plantar pressure mapping kinetic parameter analysis gait rocker assessment Centre of Pressure progression Gait Line and Butterfly diagram analysis force vector evaluation and synchronised video biomechanics across walking running sports activity and any daily life movement the patient performs.

214 Sensors Per Insole 428 Total High Resolution Pressure Mapping

With 214 sensors per insole and 428 or more sensors across the full pair the FlexInFit provides a spatial resolution of pressure measurement that captures the fine grained detail of plantar load distribution that matters clinically.

Bluetooth Wireless 100 Metres Range 4 Hour Continuous Data Logging

The FlexInFit 100 metre wireless range in free field enables assessment in environments that baropodometric platforms and tethered insole systems cannot reach.

4 Hour Continuous Data Logging

MicroSD card storage within the insole enables up to four hours of uninterrupted pressure data capture without connection to a computer or external storage.

Lightweight Thin Cut Out Design

The FlexInFit insole is designed to be cut to the patients shoe size from a standard insole format and inserted into any shoe the patients own training shoes work shoes or clinical footwear The thin profile and lightweight construction ensure that the insole itself does not alter the shoes fit or the foots pressure distribution.

Centre of Pressure and Gait Line Progression and Butterfly Diagram

Centre of Pressure CoP Progression

The CoP path from initial contact through toe off is rendered as a dynamic trace on the pressure map showing the specific trajectory of load transfer across the plantar surface during each stance phase.

Regional Load Percentage

The plantar surface is automatically divided into anatomical regions and the percentage of total load borne by each region is calculated and displayed.

Gait Line Analysis

The consecutive CoP traces from multiple steps are overlaid to create the Gait Line the combined trajectory of load transfer that characterises the patients habitual gait pattern.

Butterfly Diagram

The variability of CoP traces across multiple steps is displayed as a butterfly shaped distribution diagram Greater variability in the butterfly diagram indicates less consistent neuromuscular control of CoP progression a measure of dynamic balance quality and neuromuscular stability.