Task Integration of Research Findings from ongoing research (11 NRAs, 1 NSCOR; including epigenetics, synaptic function, neurobehavioral, neuroproteome, behavior & neural circuitry, biomarkers, sleep deprivation, affect/social) to guide development of PELs
Last Published:  07/31/19 10:05:33 AM (Central)
Short Title: CBS Research Integration
Responsible HRP Element: Human Factors and Behavioral Performance
Collaborating Org(s):
Human Health Countermeasures (HHC) Element
Other:
Space Radiation (SR) Element
Funding Status: Planned-Funded - Task expected to be within budget
Procurement Mechanism(s):
Directed
Aims:
Ongoing review/dissemination of results from current space radiation (SR) research as studies complete. Focus is on identifying, evaluating, clarifying, and integrating relevant past research from CBS risk areas (i.e., CNS, Bmed, & SM) in order to refine subsequent research inquiries and emphases. Systematic, scoping review of past research in three risks of CBS risk areas to clarify and integrate the research into operationally-relevant performance areas; balance the feasibility and acceptability of research to date in addressing operational performance constructs, identify iterative processes to select relevant research to extract data to incorporate into a thematic analysis and implications of research to date as it relates to standards and performance and countermeasure development. Assess and define the methodological rigor used and needed to determine quality of research and to formalize knowledge translation between the three risks into an integrated approach.
Resources (None Listed)
Mappings
RiskRisk of Acute (In-flight) and Late Central Nervous System Effects from Radiation Exposure
GapCBS-CNS - 1: Are there significant adverse changes in CNS performance in the context and time scale of spaceflight operations? If so, how is significance defined, and which neuropsychological domains are affected? Is there a significant probability that space radiation exposure would result in adverse changes? What are the pathways and mechanisms of change?
GapCBS-CNS - 2: Does space radiation exposure elicit key events in adverse outcome pathways associated with neurological diseases? What are the key events or hallmarks, their time sequence and their associated biomarkers (in-flight or post-flight)?
GapCBS-CNS - 4: What are the most effective medical or dietary countermeasures to mitigate CNS risks? By what mechanisms are the countermeasures likely to work?
GapCBS-CNS - 5: How can new knowledge and data from molecular, cellular, tissue and animal models of acute CNS adverse changes or clinical human data, including altered motor and cognitive function and behavioral changes be used to estimate acute CNS risks to astronauts from GCR and SPE?
GapCBS-CNS - 8: Are there significant CNS risks from combined space radiation and other physiological or space flight factors, e.g., psychological (isolation and confinement), altered gravity (micro-gravity), stress, sleep deficiency, altered circadian rhythms, hypercapnea, altered immune, endocrine and metabolic function, or other?
You are here!TaskIntegration of Research Findings from ongoing research (11 NRAs, 1 NSCOR; including epigenetics, synaptic function, neurobehavioral, neuroproteome, behavior & neural circuitry, biomarkers, sleep deprivation, affect/social) to guide development of PELs

RiskRisk of Adverse Cognitive or Behavioral Conditions and Psychiatric Disorders
GapCBS-BMed1: We need to identify and validate countermeasures that promote individual behavioral health and performance during exploration class missions.
GapCBS-BMed2: We need to identify and validate measures to monitor behavioral health and performance during exploration class missions to determine acceptable thresholds for these measures.
GapCBS-BMed3: We need to identify and quantify the key threats to and promoters of mission relevant behavioral health and performance during autonomous, long duration and/or long distance exploration missions.
GapCBS-CNS - 1: Are there significant adverse changes in CNS performance in the context and time scale of spaceflight operations? If so, how is significance defined, and which neuropsychological domains are affected? Is there a significant probability that space radiation exposure would result in adverse changes? What are the pathways and mechanisms of change?
GapCBS-CNS - 2: Does space radiation exposure elicit key events in adverse outcome pathways associated with neurological diseases? What are the key events or hallmarks, their time sequence and their associated biomarkers (in-flight or post-flight)?
GapCBS-CNS - 4: What are the most effective medical or dietary countermeasures to mitigate CNS risks? By what mechanisms are the countermeasures likely to work?
GapCBS-CNS - 5: How can new knowledge and data from molecular, cellular, tissue and animal models of acute CNS adverse changes or clinical human data, including altered motor and cognitive function and behavioral changes be used to estimate acute CNS risks to astronauts from GCR and SPE?
GapCBS-CNS - 8: Are there significant CNS risks from combined space radiation and other physiological or space flight factors, e.g., psychological (isolation and confinement), altered gravity (micro-gravity), stress, sleep deficiency, altered circadian rhythms, hypercapnea, altered immune, endocrine and metabolic function, or other?
GapCBS-SM2.1: Determine the changes in sensorimotor function over the course of a mission and during recovery after landing.
GapCBS-SM7.1: Determine if there are decrements in performance on functional tasks after long-duration spaceflight. Determine how changes in physiological function, exercise activity, and/or clinical data account for these decrements.
GapCBS-SM24: Determine if the individual capacity to produce adaptive change (rate and extent) in sensorimotor function to transitions in gravitational environments can be predicted with preflight tests of sensorimotor adaptability.
GapCBS-SM28: Develop a sensorimotor countermeasure system integrated with current exercise modalities to mitigate performance decrements during and after spaceflight.
You are here!TaskIntegration of Research Findings from ongoing research (11 NRAs, 1 NSCOR; including epigenetics, synaptic function, neurobehavioral, neuroproteome, behavior & neural circuitry, biomarkers, sleep deprivation, affect/social) to guide development of PELs

RiskRisk of Impaired Control of Spacecraft/Associated Systems and Decreased Mobility Due to Vestibular/Sensorimotor Alterations Associated with Spaceflight
You are here!TaskIntegration of Research Findings from ongoing research (11 NRAs, 1 NSCOR; including epigenetics, synaptic function, neurobehavioral, neuroproteome, behavior & neural circuitry, biomarkers, sleep deprivation, affect/social) to guide development of PELs

RiskRisk of Impaired Performance Due to Reduced Muscle Mass, Strength & Endurance
You are here!TaskIntegration of Research Findings from ongoing research (11 NRAs, 1 NSCOR; including epigenetics, synaptic function, neurobehavioral, neuroproteome, behavior & neural circuitry, biomarkers, sleep deprivation, affect/social) to guide development of PELs