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. 2024 Sep;34(9):e14718.
doi: 10.1111/sms.14718.

External Focus of Attention Reduces Cartilage Load During Drop Landings

Lukáš Slovák  1 Egor Panfilov  2 David Zahradník  1 Victor Casula  2 Miika T Nieminen  2   3 William M Land  4 Takehiro Iwatsuki  5 Reza Abdollahipour  6
Affiliations

External Focus of Attention Reduces Cartilage Load During Drop Landings

Lukáš Slovák et al. Scand J Med Sci Sports. 2024 Sep.

Abstract

The aim of the present study was to examine the effects of attentional focus instructions on acute changes in the transverse relaxation time (T2) of the femorotibial cartilage and in cartilage volume during repeated drop-jump landings. Ten healthy females (Mage = 20.4 ± 0.8 years) performed a drop landing task from a 50 cm high box over the course of 3 days (50 repetitions each day) across three attentional focus conditions: external focus (EF: focus on landing as soft as possible), internal focus (IF: focus on bending your knees when you land), and control (CON: no-focus instruction), which was counterbalanced across focus conditions. T2 mapping and the volume of femorotibial cartilage were determined from magnetic resonance imaging scans at 1.5 T for the dominant knee before and after completing the drop landings in each attentional focus condition per day. Results indicated a smaller change in cartilage T2 relaxation time and volumetry in the central load-bearing lateral cartilage under the EF, compared to IF and CON. Moreover, the change in T2 and cartilage volume was greater for lateral tibial cartilage as compared to femoral cartilage and was independent of attentional focus instructions. No significant acute quantitative changes were observed in the medial compartment. The peak vertical ground reaction force was found to be the lowest under the EF, compared to IF and CON. These findings suggest that external focus of attention may reduce cartilage load, potentially aiding in the control or management of cartilage injuries during landing in female athletes.

Keywords: MRI; T2 relaxation time; focus of attention; knee loading; volumetry.

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