Circadian misalignment affects sleep and medication use before and during spaceflight

Flynn‐Evans, Erin E.; Barger, Laura K.; Kubey, Alan; Sullivan, Jason P.; Czeisler, Charles A.

doi:10.1038/npjmgrav.2015.19

Cited by 109 publications

(98 citation statements)

References 41 publications

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“…Our results are in accordance with previous NASA studies that demonstrate International Journal of Aerospace Engineering that even bones are affected over the course of long-term missions by loss of their total hip bone mass [14]. Moreover, our data add information to the list of known effects of space flights on the human body during long-duration missions such as muscle atrophy, bone demineralization, altered immune function [15,16], cardiovascular system dysfunction [17,18], and also alterations in sleep function [19]. A significant amount of data on the decrease in the performance of various groups of muscles has been collected from astronauts flying from 1989 to 1995 in NASA's orbiters or Russian capsules [20].…”

Section: Discussionsupporting

confidence: 78%

Long-Term Microgravity Effects on Isometric Handgrip and Precision Pinch Force with Visual and Proprioceptive Feedback

Puglia

Balsamo

Vukich

et al. 2018

International Journal of Aerospace Engineering

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The study and analysis of human physiology during short-and long-duration space flights are the most valuable approach in order to evaluate the effect of microgravity on the human body and to develop possible countermeasures in prevision of future exploratory missions and Mars expeditions. Hand performances such as force output and manipulation capacity are fundamental for astronauts' intra-and extravehicular activities. Previous studies on upper limb conducted on astronauts during short-term missions (10 days) indicated a temporary partial reduction in the handgrip maximum voluntary contraction (MVC) followed by a prompt recovery and adaptation to weightlessness during the last days of the mission. In the present study, we report on the "Crew's Health: Investigation on Reduced Operability" (CHIRO) protocol, developed for handgrip and pinch force investigations, performed during the six months increment 7 and increment 8 (2003-2004) onboard International Space Station (ISS). We found that handgrip and pinch force performance are reduced during long-term increments in space and are not followed by adaptation during the mission, as conversely reported during short-term increment experiments. The application of protocols developed in space will be eligible to astronauts during long-term space missions and to patients affected by muscle atrophy diseases or nervous system injury on Earth.

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Section: Discussionsupporting

confidence: 78%

Long-Term Microgravity Effects on Isometric Handgrip and Precision Pinch Force with Visual and Proprioceptive Feedback

Puglia

Balsamo

Vukich

et al. 2018

International Journal of Aerospace Engineering

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“…Aberrant regulation of telomere length has been associated with a number of human diseases and the link between physiological stress and aberrant regulation of telomere length is well documented . Stresses astronauts experience during spaceflight have been also shown to lead to alterations in telomere dynamics . For example, the NASA Twins Study found that the average telomere length in astronaut Scott Kelly's white blood cells increased over the course of his mission and returned to the pre‐flight length after his return to Earth .…”

Section: Introductionmentioning

confidence: 99%

“…[27][28][29] Stresses astronauts experience during spaceflight have been also shown to lead to alterations in telomere dynamics. 5,[30][31][32][33] For example, the NASA Twins Study found that the average telomere length in astronaut Scott Kelly's white blood cells increased over the course of his mission and returned to the pre-flight length after his return to Earth. 5 It is hypothesized that changes in telomere length during spaceflight, such as those observed in Scott Kelly, may lead to tissue-specific molecular and cellular responses.…”

Section: Introductionmentioning

confidence: 99%

Nucleic acid detection aboard the International Space Station by colorimetric loop‐mediated isothermal amplification (LAMP)

et al. 2020

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Human spaceflight endeavors present an opportunity to expand our presence beyond Earth. To this end, it is crucial to understand and diagnose effects of long‐term space travel on the human body. Developing tools for targeted, on‐site detection of specific DNA sequences will allow us to establish research and diagnostics platforms that will benefit space programs. We describe a simple DNA diagnostic method that utilizes colorimetric loop‐mediated isothermal amplification (LAMP) to enable detection of a repetitive telomeric DNA sequence in as little as 30 minutes. A proof of concept assay for this method was carried out using existing hardware on the International Space Station and the results were read instantly by an astronaut through a simple color change of the reaction mixture. LAMP offers a novel platform for on‐orbit DNA‐based diagnostics that can be deployed on the International Space Station and to the broader benefit of space programs.

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“…On Earth, humans have evolved a circadian rhythm based upon a 24 hour lightdark cycle and a gravitational force of 1 x g. Sleep quantity and quality are both negatively affected during spaceflight and the use of medication to promote sleep is prevalent, especially as astronauts are required to execute part of the mission where there is misalignment to the circadian rhythm, brought about by vehicle launch, orbit and docking times [6,[25][26][27]. Impairment of cognitive ability may be a concern and at worst constitute risk at the task or entire mission level with potentially life-threatening consequences.…”

Section: Sleepmentioning

confidence: 99%

Ergonomic Challenges for Astronauts during Space Travel and the Need for Space Medicine

Braddock¹

2017

J Ergonomics

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Circadian misalignment affects sleep and medication use before and during spaceflight

Cited by 109 publications

References 41 publications

Long-Term Microgravity Effects on Isometric Handgrip and Precision Pinch Force with Visual and Proprioceptive Feedback

Long-Term Microgravity Effects on Isometric Handgrip and Precision Pinch Force with Visual and Proprioceptive Feedback

Nucleic acid detection aboard the International Space Station by colorimetric loop‐mediated isothermal amplification (LAMP)

Ergonomic Challenges for Astronauts during Space Travel and the Need for Space Medicine

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