Emily Matijevich

TAKE AWAY #1: A post hoc qualitative analysis revealed an exciting trend - runners who had the greatest relative increase in positive foot + footwear work in the Advanced Shoe compared to a Traditional Shoe, also had the greatest decrease in positive ankle work.

FINDING #3: The approximate timing of footwear energy return (estimated as the transition of negative to positive foot + footwear power) varied only slightly across footwear conditions.

STUDY PURPOSE: To evaluate the MAGNITUDE and TIMING of foot, footwear and lower limb joint powers and work while running in “Advanced” and “Traditional” running shoes.

Fortunately, existing methodologies can support! Unified deformable segment analyses can be harnessed to quantify the net power of complex and non-rigid devices (i.e., prostheses, shoes, body soft tissues, etc.) during locomotion.

Despite the large volume of running biomechanics research focused on Advance Footwear Tech (compliant, resilient, and longitudinally stiff running shoes), there is a lack of mechanistic understanding of HOW footwear energy return facilitates changes in running performance.

(Implication #2 cont.) "This may give users a false sense of energy (calorie) expenditure. This may be an important area of consideration for consumer physical activity monitor developers.” ⌚ 🤔

Implication #2: “Many physical activity monitors likely consider HR to calculate energy expenditure… during yoga/exercise performed in hot environment, when HR is artificially higher because of the added circulatory demands, energy expenditure may also be artificially inflated"

Implication #1: “Participants may be inclined to reduce their effort during hot yoga, intentionally or unintentionally, as they perceive it to be harder than it actually is, resulting in reduced exercise intensity and consequently minimizing potential fitness adaptions” 🤯