INTRODUCTION: Crewmembers performing treadmill exercise on the International Space Station must wear a harness with an external gravity replacement force that is created by elastomer bungees. The quantification of the total external force, displacement, stiffness, and force variation is important for understanding the forces applied to the crewmember during typical exercise. METHODS: Data were collected during static trials in the laboratory from a single subject and four subjects were tested while walking at 1.34 m x s(-1) and running at 2.24 m x s(-1) and 3.13 m x s(-1) on a treadmill during simulated microgravity in parabolic flight. The external force was provided by bungees and carabiner clips in configurations commonly used by crewmembers. Total external force, displacement, and force variation in the bungee system were measured, from which stiffness was computed. RESULTS: Mean external force ranged from 431 to 804 N (54-131% bodyweight) across subjects and conditions. Mean displacement was 4 to 8 cm depending upon gait speed. Mean stiffness was affected by bungee configuration and ranged from 1.73 to 29.20 N x cm(-1). Force variation for single bungee configurations was 2.61-4.48% of total external force and between 4.30-57.5% total external force for two-bungee configurations. CONCLUSIONS: The external force supplied to crewmembers by elastomer bungees provided a range of loading levels with variations that occur throughout the gait cycle. The quantification of bungee-loading characteristics is important to better define the system currently used by crewmembers during exercise.
INTRODUCTION: Crewmembers performing treadmill exercise on the International Space Station must wear a harness with an external gravity replacement force that is created by elastomer bungees. The quantification of the total external force, displacement, stiffness, and force variation is important for understanding the forces applied to the crewmember during typical exercise. METHODS: Data were collected during static trials in the laboratory from a single subject and four subjects were tested while walking at 1.34 m x s(-1) and running at 2.24 m x s(-1) and 3.13 m x s(-1) on a treadmill during simulated microgravity in parabolic flight. The external force was provided by bungees and carabiner clips in configurations commonly used by crewmembers. Total external force, displacement, and force variation in the bungee system were measured, from which stiffness was computed. RESULTS: Mean external force ranged from 431 to 804 N (54-131% bodyweight) across subjects and conditions. Mean displacement was 4 to 8 cm depending upon gait speed. Mean stiffness was affected by bungee configuration and ranged from 1.73 to 29.20 N x cm(-1). Force variation for single bungee configurations was 2.61-4.48% of total external force and between 4.30-57.5% total external force for two-bungee configurations. CONCLUSIONS: The external force supplied to crewmembers by elastomer bungees provided a range of loading levels with variations that occur throughout the gait cycle. The quantification of bungee-loading characteristics is important to better define the system currently used by crewmembers during exercise.
Authors: Cory M Smith; Terry J Housh; John Paul V Anders; Joshua L Keller; Ethan C Hill; Glen O Johnson; Richard J Schmidt Journal: Eur J Appl Physiol Date: 2021-08-25 Impact factor: 3.078
Authors: Nora Petersen; Patrick Jaekel; Andre Rosenberger; Tobias Weber; Jonathan Scott; Filippo Castrucci; Gunda Lambrecht; Lori Ploutz-Snyder; Volker Damann; Inessa Kozlovskaya; Joachim Mester Journal: Extrem Physiol Med Date: 2016-08-02
Authors: Charlotte Richter; Bjoern Braunstein; Benjamin Staeudle; Julia Attias; Alexander Suess; Tobias Weber; Katya N Mileva; Joern Rittweger; David A Green; Kirsten Albracht Journal: Sci Rep Date: 2021-11-19 Impact factor: 4.379
Authors: Timothy R Macaulay; Brandon R Macias; Stuart Mc Lee; Wanda L Boda; Donald E Watenpaugh; Alan R Hargens Journal: NPJ Microgravity Date: 2016-06-30 Impact factor: 4.415
Authors: Charlotte Richter; Bjoern Braunstein; Benjamin Staeudle; Julia Attias; Alexander Suess; Tobias Weber; Katya N Mileva; Joern Rittweger; David A Green; Kirsten Albracht Journal: NPJ Microgravity Date: 2021-08-09 Impact factor: 4.415