Biomechanics and its related study deal with forces that act against the body and effect things like our movement. In podiatry, biomechanics are studied to determine the movement of the ankle, toes, and the foot itself, as well as the forces that impact them. Podiatrists who train in this specialty are able to effectively diagnose and treat conditions that affect people’s everyday movement.
Regardless of your lifestyle, age, or any other factors, many people experience foot problems throughout their lives. Twists and turns, improper balance, and added weight are just a few of the things that can add stress to the feet and limit the mobility everyone takes for granted. Pain in the feet and ankles can also trickle up towards the lower legs, knees, hip, and even back area, all effecting the way you move around on a daily basis.
The history of studying biomechanics dates back to ancient Egypt at around 3000 B.C., where evidence of professional foot care has been recorded. Throughout the centuries, advances in technology, science, and an understanding of the human body led to more accurate diagnosis of conditions such as corns for example. In 1974, biomechanics garnered a large audience when Merton Root claimed that changing or controlling the forces between the ankle and the foot, corrections of certain conditions could be implemented to gain strength and coordination in the area. Due to his research, we still use his basic principle of thermoplastic foot orthotics to this day.
As technology has improved, so have the therapeutic processes that allow us to correct deficiencies in our natural biomechanics. Computers can now provide accurate readings of the forces, movements, and patterns of the foot and lower leg. Critical treatment options can be provided to patients now who suffer from problems that cause their biomechanics to not function naturally. The best results are now possible thanks to 3D modeling and computing technologies that can not only take readings, but also map out what treatment will do to the affected areas.