Resources

Resources

Browse our library of pressure mapping and force measurement resources, including eBooks, Case Studies, On Demand Webinars, Whitepapers, and much more.

Displaying 1 - 10 of 50
On Demand Webinar

Precise instrumented musculoskeletal evaluations are essential to support healthcare decisions, especially for patients recovering from ACL reconstruction with the goal of returning to high level sports. In this seminar, Dr. Joe Hart and Amelia Leicht will provide an overview of an approach to...

On Demand Webinar

Guiding Clinicians through the Process of Assessing Complex Orthotic Cases

On Demand Webinar

Plantar Pressure Analysis: From Research to Frontline Clinical Practice

On Demand Webinar

ABSTRACT This lecture describes a digital workflow that aids in transforming complicated occlusion cases into simple restorative cases, by replacing sophisticated analogue equipment with a predictable digital workflow. The full digital workflow includes a variety of digital technologies, techniques...

On Demand Webinar

David Sutton, a certified pedorthist and clinical advisor, will share a case study on his strategy for offloading a patient suffering from a four-year reoccurring diabetic ulcer, using F-Scan as a critical method to verify his decisions.

On Demand Webinar

Marshall Kendall, PhD., shares first-hand pre- and post- intervention data for clinicians and researchers in the field of orthotic therapy.

On Demand Webinar

Marshall Kendall, PhD, provides an in-depth look into capabilities and methods for using Tekscan's F-Scan in-shoe system, including software tips, and real-world research successes.

On Demand Webinar

Want to take your gait research out of the lab? Learn more about gait insights from a portable, research validated system in this webinar.

On Demand Webinar

Dr. Howard Dananberg will share actual patient cases, demonstrating how he uses the F-Scan in-shoe gait analysis system in his everyday practice.

On Demand Webinar

Dr. Howard Dananberg will help you gain greater insight into how the timing and position of limbs in motion can impact loading and unloading.