Characterization of Markers Linked to Resistance Motifs against ...
Characterization of Joint Resistance and …...Characterization of Joint Resistance and Performance...
Transcript of Characterization of Joint Resistance and …...Characterization of Joint Resistance and Performance...
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Characterization of Joint Resistance and Performance Degradation of the
Extravehicular Mobility Unit Spacesuit: A Pilot Study
Ryan Z. Amick, PhD Lockheed Martin
Christopher R. Reid, PhD Lockheed Martin (Formerly)
Scott A. England, MS MEI Technologies, Inc.
Sudhakar L. Rajulu, PhD NASA
https://ntrs.nasa.gov/search.jsp?R=20150021191 2020-04-27T11:37:59+00:00Z
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Overview
• Background
• Project Objectives
• Methodology
• Results
• Discussion
• Future Work
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Background
• Environmental• Microgravity
• Radiation
• Contamination
• Extreme Temperatures
• Physical• Physically
Demanding Work
• Spacesuit
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Background – Extravehicular Mobility Unit
• Extravehicular Mobility Unit (EMU)• Pressurized personal protective suit.
• Protects astronauts from the harsh environment of space during Extravehicular Activities (EVA).
• Components• Helmet
• Hard Upper Torso
• Arm Assemblies and Gloves
• Lower Torso Assembly
• Leg assemblies and Boots
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Background – EMU Exposure
• Use of the EMU is not limited to space operations.
• Significant amount of pre-mission ground based training.• EVA basic skills training
• EVA mission specific training
• Cumulative suited pre-flight training time can exceed 300 hours
• Between flights, familiarization training is regularly performed to maintain suit skills.
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Background – EMU Exposure
• Observed association between EVA training time and musculoskeletal injuries.• Restricted ROM, suit contact, improper suit fit.
• Previous work• 50% reduction in isolated joint strength.
• Significantly reduced work output.
• Recent work• May be instances of improved strength performance depending on
movement direction.
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Objectives
1. Quantify the resistance to movement generated by the EMU upper arm assembly.
2. Characterize human strength performance degradations caused by the pressurized EMU.
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Methods – EMU Upper Arm Assembly Resistance to Movement
• Unoccupied pressurized HUT and upper arm assembly
• Joint rotation axis aligned with dynamometer
• Shoulder Abd/Add
• Elbow Flx/Ext
• 90⁰ arc at 60⁰/sec.
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Methods – Human in the Loop Strength Assessment
• 5 Male subjects (age 31.8 ± 7.2)
• Isokinetic arm movement• Shoulder Abduction-Adduction• Elbow Flexion-Extension
• 1 Trial of each movement• 4 repetitions• 1st was considered familiarization
• Suit Conditions• Unsuited (secured in chair)• Suited Un-Pressurized (EMU HUT without arm assemblies)• Suited Pressurized (Full EMU pressurized to 29.6 kPa differential)
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Methods – Suit Conditions
Unsuited Suited Un-Pressurized Suited Pressurized
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Results – Suit Joint Resistance EMU Resistance to Movement (Nm)
Joint Movement Max Mean (sd)
Shoulder Abduction 23.7 11.9 (8.2)
Shoulder Adduction 20.3 12.0 (6.8)
Elbow Flexion 26.0 12.3 (9.2)
Elbow Extension 24.9 10.8 (8.9)
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Results – Strength Assessment
• Shoulder Abduction• Significant mean peak strength
differences between suited conditions (F(2,28) = 6.9, p < 0.01)• Unsuited > Suited Pressurized
(p = 0.01)
• Practical Differences• Determined to be practically
different if greater than 15% difference
• Unsuited > Suited Un-Pressurized (18%)
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Results – Strength Assessment
• Shoulder Adduction• Significant mean peak strength
differences between suited conditions (F(2,28) = 7.02, p < 0.01)• Unsuited > Suited Un-Pressurized
(p = 0.03)
• Unsuited > Suited Pressurized (p < 0.01)
• No practical differences were noted
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Results – Strength Assessment
• Elbow Flexion• Significant mean peak strength
differences between suited conditions (F(2,28) = 35.56, p < 0.01)• Unsuited > Suited Pressurized
(p < 0.01)
• Suited Un-Pressurized > Suited Pressurized (p < 0.01)
• No practical differences were noted
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Results – Strength Assessment
• Elbow Extension• Significant mean peak strength
differences between suited conditions (F(2,28) = 4.23, p = 0.03)• Suited Un-Pressurized > Suited
Pressurized (p = 0.03)
• No practical differences were noted
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Results – Strength Assessment
T-Test
• Unsuited• Abd < Add (p < 0.01)
• Flx > Ext (p < 0.01)
• Suited Un-Pressurized• Abd < Add (p < 0.01)
• Flx = Ext (p = 0.55)
• Suited Pressurized• Abd < Add (p < 0.01)
• Flx < Ext (p < 0.01)
Ratio
• Unsuited• Abd-Add: 122:191
• Flx-Ext: 53:49
• Suited Un-Pressurized• Abd-Add: 25:43
• Flx-Ext: 118:112
• Suited Pressurized• Abd-Add: 22:41
• Flx-Ext: 78:90
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Discussion – Joint Resistance
• Greater soft goods resistance with shoulder abduction and elbow flexion.• Air volume displacement
• Folding/Compression of soft goods materials
• Lower resistance with shoulder adduction and elbow extension• Arm assembly returning to neutral posture
• IMPACT• Astronauts must exert more force to work against the pressurized EMU while
executing certain arm movements
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Discussion – Strength Assessment
• Shoulder Strength• Consistent trend of decreasing shoulder strength as subjects progressed
through conditions• Consistent with previous findings
• Strength is reduced with pressurized EMU
• Elbow Strength• Suited Pressurized strength lower than Unsuited
• Consistent with previous findings
• Increased flexion and extension strength from Unsuited to Suited Un-Pressurized• Possible that subjects are using the donning stand to brace themselves, giving
mechanical advantage
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Conclusion
• It is generally accepted that wearing a pressurized EMU reduces the total strength capabilities and mobility performance of the user• This investigation indicates that some of these deficits may be due to soft
goods resistance
• Strength is augmented by the type of suit support method utilized
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Limitations
• Suit Stiffness• Suit was unmanned, did not include helmet or lower components
• Air volume displacement characteristics may not be representative to that of a manned suit
• Strength Assessment• Mixed posture
• Seated unsuited condition, standing in donning stand for suited conditions
• Low number of test subjects
• EMG evidence suggests some subjects may not have exerted maximal effort on all strength trials
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Future Work
• Soft Goods• Should future suits be designed with a different neutral posture?
• Model the impact of different neutral postures on strength
• Strength Assessment• Suit support condition likely affects strength and possibly other functional
measures• Investigate strength utilizing various available suit support methods