It is estimated that anywhere between 17-41% of the general population experience foot pain and, in roughly half of these cases, the foot pain is disabling. Nevertheless, the majority of those with foot pain do not seek professional treatment. These statistics have been interpreted in the research field as a need for improving foot diagnosis techniques.
One tool that has shown potential in diagnosing foot problems is dynamic plantar pressure imaging. This technique measures, across time, the pressures that the bottom (plantar) surface of a person’s foot makes with the ground. From these plantar pressure videos, a clinician will attempt to identify pressure abnormalities and develop a personalized treatment strategy. Unfortunately, plantar pressure imaging creates large, dynamic, datasets with tens of thousands of sampled pressure values. These datasets cannot be easily analyzed and interpreted by the human brain. As a result, clinicians typically base their diagnoses on visual inspection of a small amount of this pressure data. By examining only a subset of the pressure video, it is possible that potentially valuable diagnostic information may be ignored.
We believe that a computer-aided diagnosis (CAD) system could efficiently assist clinicians in the analysis of full plantar pressure videos, thereby making sure that the diagnostic potential of plantar pressure imaging is fully exploited. To test this idea, we began this CAD WALK project with the goal of developing a CAD system for plantar pressure videos within a two-year time frame.
The CAD WALK system follows a basic principle: given an individual’s plantar pressure video, we will compare that video to one taken from the individuals “healthy identical twin”. If any differences in plantar pressures are found, then they must be related to the foot problem the individual is experiencing and should therefore be highlighted. Unfortunately for us, most people don’t have an identical twin, so we require a technique that will allow us to estimate their measurement.
Overall, the aims of the CAD WALK project can be listed as (a) the estimation of healthy plantar pressure videos from an individual’s demographic characteristics, (b) the use of these estimates in a CAD system to highlight plantar pressures that are abnormal, and (c) the creation of a commercial product out of this CAD system.