TY - JOUR
T1 - Breast support garments are ineffective at reducing breast motion during an aqua aerobics jumping exercise
AU - Mills, Chris
AU - Ayres, Bessie
AU - Scurr, Joanna Claire
PY - 2015/6
Y1 - 2015/6
N2 - The buoyant forces of water during aquatic exercise may provide a form of ‘natural’ breast support and help to
minimise breast motion and alleviate exercise induced breast pain. Six larger-breasted females performed standing
vertical land and water-based jumps, whilst wearing three breast support conditions. Underwater video cameras
recorded the motion of the trunk and right breast. Trunk and relative breast kinematics were calculated as well as
exercised induced breast pain scores. Key results showed that the swimsuit and sports bra were able to significantly
reduce the superioinferior breast range of motion by 0.04 and 0.05 m, respectively, and peak velocity by 0.23 and 0.33
m/s, respectively, during land-based jumping when compared to the bare-breasted condition, but were ineffective at
reducing breast kinematics during water-based jumping. Furthermore, the magnitude of the swimsuit superioinferior
breast range of motion during water-based jumping was significantly greater than land-based jumping (0.13 m and
0.06 m), yet there were no significant differences in exercise induced breast pain, thus contradicting previously
published relationships between these parameters on land. Furthermore, the addition of an external breast support
garment was able to reduce breast kinematics on land but not in water, suggesting the swimsuit and sports bras were
ineffective and improvements in swimwear breast support garments may help to reduce excessive breast motion during
aqua aerobic jumping exercises.
AB - The buoyant forces of water during aquatic exercise may provide a form of ‘natural’ breast support and help to
minimise breast motion and alleviate exercise induced breast pain. Six larger-breasted females performed standing
vertical land and water-based jumps, whilst wearing three breast support conditions. Underwater video cameras
recorded the motion of the trunk and right breast. Trunk and relative breast kinematics were calculated as well as
exercised induced breast pain scores. Key results showed that the swimsuit and sports bra were able to significantly
reduce the superioinferior breast range of motion by 0.04 and 0.05 m, respectively, and peak velocity by 0.23 and 0.33
m/s, respectively, during land-based jumping when compared to the bare-breasted condition, but were ineffective at
reducing breast kinematics during water-based jumping. Furthermore, the magnitude of the swimsuit superioinferior
breast range of motion during water-based jumping was significantly greater than land-based jumping (0.13 m and
0.06 m), yet there were no significant differences in exercise induced breast pain, thus contradicting previously
published relationships between these parameters on land. Furthermore, the addition of an external breast support
garment was able to reduce breast kinematics on land but not in water, suggesting the swimsuit and sports bras were
ineffective and improvements in swimwear breast support garments may help to reduce excessive breast motion during
aqua aerobic jumping exercises.
U2 - 10.1515/hukin-2015-0033
DO - 10.1515/hukin-2015-0033
M3 - Article
SN - 1640-5544
VL - 46
SP - 49
EP - 58
JO - Journal of Human Kinetics
JF - Journal of Human Kinetics
ER -