Study with the aim to see the effect on a space ground analogue , Hyper-Buoyancy Floatation (HBF) on lumbar column and the effect of a supplementary 50% of an axial load.
the aim of this study was to determine the effect of 15min of 1g reloading following 4h HBF unloading with, and without 30s of seated static 50% BW axial loading upon stature, lumbar Intervertebral Disc height (via ultrasound), vertebral compliance changes, and back pain.
Study Type
OBSERVATIONAL
Enrollment
16
Participants remained on a waterbed encased within a wooden frame partially (≈50%) filled with water super-saturated with magnesium sulphate at a temperature between 34-36°C regulated by an ultra-thin underbed heater. Participants remained supine and motionless when lay on the HBF except for temporary passive re-orientation to/and back from the prone position for vertebral compliance assessment
Participants from observational sat upright in a chair without back support for 15 min before post testing (1G), whilst experimental group participants performed a 30s seated squat with 50% of their body weight (BW) before returning to the upright seated position.
Universidad Autónoma de Madrid
Madrid, Spain
King's College London
London, United Kingdom
Height
Standing stature measured by a commercial stadiometer (Seca 217, Germany)
Time frame: 2 years
Intervertebral Disc Height
Disc height (L2-S1) measured by ultrasound
Time frame: 2 years
Vertebral Stiffness
Vertebral stiffness from L1 to L5 was assessed passively (in the prone position) with a handheld differential vertebral compliance transducer (PulStar, Sense Technology Inc., USA) in Newtons.
Time frame: 2 years
Self-reported back pain
Pain rating scale (CHAPS) from 0 to 10
Time frame: 2 years
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