Exercise in space: human skeletal muscle after 6 months aboard the International Space Station.
about
Analysis of miRNA and mRNA expression profiles highlights alterations in ionizing radiation response of human lymphocytes under modeled microgravityTrabecular bone adaptation to low-magnitude high-frequency loading in microgravityReplacement of daily load attenuates but does not prevent changes to the musculoskeletal system during bed rest.Panoramic ultrasound: a novel and valid tool for monitoring change in muscle massA new method to study in vivo protein synthesis in slow- and fast-twitch muscle fibers and initial measurements in humans.Integration analysis of microRNA and mRNA expression profiles in human peripheral blood lymphocytes cultured in modeled microgravity.A new method for non-invasive estimation of human muscle fiber type composition.Divergent modification of low-dose ⁵⁶Fe-particle and proton radiation on skeletal muscleProlonged space flight-induced alterations in the structure and function of human skeletal muscle fibres.Changes in lower extremity muscle function after 56 days of bed rest.Inhibition of calpain prevents muscle weakness and disruption of sarcomere structure during hindlimb suspensionProtein and Essential Amino Acids to Protect Musculoskeletal Health during Spaceflight: Evidence of a Paradox?Stem cell health and tissue regeneration in microgravity.Influence of aging and long-term unloading on the structure and function of human skeletal muscle.Microgravity induces pelvic bone loss through osteoclastic activity, osteocytic osteolysis, and osteoblastic cell cycle inhibition by CDKN1a/p21.Paracrine effects of IGF-1 overexpression on the functional decline due to skeletal muscle disuse: molecular and functional evaluation in hindlimb unloaded MLC/mIgf-1 transgenic miceConcurrent exercise on a gravity-independent device during simulated microgravityShort-term, daily exposure to cold temperature may be an efficient way to prevent muscle atrophy and bone loss in a microgravity environment.Protecting muscle mass and function in older adults during bed restA reproducible radiation delivery method for unanesthetized rodents during periods of hind limb unloadingElectrically Stimulated Antagonist Muscle Contraction Increased Muscle Mass and Bone Mineral Density of One Astronaut - Initial Verification on the International Space Station.Masticatory muscles of mouse do not undergo atrophy in space.Reliability of a new test battery for fitness assessment of the European Astronaut corpsHuman skeletal muscle fiber type specific protein contentDNA methylation assessment from human slow- and fast-twitch skeletal muscle fibers.High-Intensity Jump Training Is Tolerated during 60 Days of Bed Rest and Is Very Effective in Preserving Leg Power and Lean Body Mass: An Overview of the Cologne RSL Study.Microgravity Reduces the Differentiation and Regenerative Potential of Embryonic Stem Cells.Magnesium and Space FlightMental and physical workload, salivary stress biomarkers and taste perception: Mars desert research station expedition.Leucine partially protects muscle mass and function during bed rest in middle-aged adults.Exercise Responses to Gravity-Independent Flywheel Aerobic and Resistance Training.Blood flow-restricted exercise in space.Exercise in space: the European Space Agency approach to in-flight exercise countermeasures for long-duration missions on ISS.Treadmill exercise within lower body negative pressure protects leg lean tissue mass and extensor strength and endurance during bed rest.Human masseter muscle fiber type properties, skeletal malocclusions, and muscle growth factor expression.Calcineurin plays a modulatory role in loading-induced regulation of type I myosin heavy chain gene expression in slow skeletal muscle.Centrifugation as a countermeasure during bed rest and dry immersion: What has been learned?Growth hormone plus resistance exercise attenuate structural changes in rat myotendinous junctions resulting from chronic unloading.Influence of simulated microgravity on mechanical properties in the human triceps surae muscle in vivo. I: effect of 120 days of bed-rest without physical training on human muscle musculo-tendinous stiffness and contractile properties in young womenChallenges, concerns and common problems: physiological consequences of spinal cord injury and microgravity.
P2860
Q21134789-9AFEA1F5-5A63-47BE-B0FF-88FE5CAAD383Q33559662-22F33B1C-0784-4401-B202-77D9F185A0FDQ33716219-7DD8DE24-D53A-4FF7-9BA7-C82996484C98Q33813569-4486AE69-DB13-4D42-89FB-94A5B022D0E7Q33841132-FDA832F4-00C5-45B3-9586-A650509010C5Q33876262-B8D28FE0-B499-4E8D-B2E6-3636C220EE07Q33961640-8FD1D6EC-0C7C-4242-94BF-E40A0E32F1EEQ34125355-FBC5D883-F66C-42BB-AD4E-B4E8CDBC76FEQ34128050-58AC05AA-875C-4F78-9563-9AAE23BAD181Q34180996-D3497DBB-CDF9-41E5-A4AA-87F6FBBEBA83Q34241718-D29EAFA9-BB47-48F1-9712-3489C57DB2A0Q34390397-F47E3928-2D0A-46C3-B6A0-FA30F95D3FBAQ34534973-222B3C7E-B69A-4CDE-A3AD-7BC34EDC5611Q34663946-5A21EF81-0B7D-4C90-A98E-3E06066EE278Q34700233-D06B697B-7B2D-47E6-9530-88D6A307E516Q34766154-72247CBF-D950-462F-94E9-F089C3587B83Q35122572-0D2D9933-940E-434E-9D99-EC35E438DE2DQ35218553-4B6B17D7-2658-4F31-A78C-991AD4B0D3B5Q35746945-CEFCD2F9-4D26-4C36-86B9-D23EE2F9DF89Q35751226-2D127041-3E30-461B-A8BE-9FA43B6D8F95Q35752532-3E798BD8-2B24-47E7-A82A-08A9E03F7965Q35774782-6AC4FBB9-CD9A-49AC-B0A4-A0F4C3EC323CQ35951255-5057E8A6-5FA1-4603-BF63-9EF599628F08Q35982538-2F1A2B74-0C5F-49B1-A81E-EB35A4E83A65Q36241612-449884E3-ADFC-4261-BB83-115D2F9D5837Q36247753-27C3DDF7-8FFB-458B-A555-9B1BB2C1C3A2Q36297969-0D85E319-8A72-407A-B0F5-5726B1FF9A74Q36401316-20C463F9-85DE-4BBC-B1BB-C8B5E4FD8C71Q36415348-4E8D1232-EFDF-41B9-98B5-7CF6DBFF89AFQ36521506-B6086E57-1C8C-49E0-AF51-ED46F1D66721Q36801404-B58A5262-71C7-4371-8BD0-FA87C6E73E25Q37008627-4B596DE6-9445-4788-94EB-CCEEA467DD4AQ37148357-DA518FA5-8E4F-47E6-9C87-E3D87453C95CQ37176752-080459D5-FA3C-46F8-9CF7-D3669CECEAA4Q37378247-091C7AA4-49FB-4784-9AE3-A09503C13602Q37391892-1D5FC04F-1883-41BD-B58F-183F29D6DD03Q37421329-59F9370A-EFD8-4328-99C1-CA243F0F7756Q37494641-E62D3426-0B4D-4F78-B0D9-93E7B3A9BF9BQ37698341-BB40B4B7-E760-4E3C-A357-CBD4527EC0BDQ37760420-5FB10011-3471-47F4-9BDD-4EEC762487D4
P2860
Exercise in space: human skeletal muscle after 6 months aboard the International Space Station.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
Exercise in space: human skele ...... e International Space Station.
@en
type
label
Exercise in space: human skele ...... e International Space Station.
@en
prefLabel
Exercise in space: human skele ...... e International Space Station.
@en
P2093
P1476
Exercise in space: human skele ...... he International Space Station
@en
P2093
Andrew Creer
Danny A Riley
David Costill
Harlan Evans
Jim R Peters
Scott Trappe
P304
P356
10.1152/JAPPLPHYSIOL.91578.2008
P407
P577
2009-01-15T00:00:00Z