A Multiphase Operational and Environmental Assessment of Lunar Surface Habitation, Lunar Gateway Transit Systems, and Acceleration Pathways for Sustained Human Habitation of the Martian Surface

Part of paid clinical trials in New York, New York.

Sponsor
Truway Health, Inc.
Study ID
NCT07546461
Status
Not Yet Recruiting

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Conditions

  • EVA Logistics and Mobility
  • Environmental Control and Life-Support Systems (ECLSS)
  • Extraterrestrial Habitation Systems
  • In-Situ Resource Utilization (ISRU)
  • Long-Duration Isolation and Behavioral Stability
  • Lunar Gateway Transit Architecture
  • Lunar Surface Habitation
  • Lunar Water-Ice Resource Assessment
  • Martian Surface Habitation Readiness
  • Radiation Exposure Modeling

Eligibility Criteria

Sex
ALL
Age
18 Years - 65 Years
Healthy Volunteers
Accepted

Interventions

  • Habitat Systems Evaluation — OTHER
    Operational assessment of habitat modules, environmental stability, ECLSS resilience, redundancy models, and failure-mode responses across lunar, transit, and Mars-analog environments.
  • Water-Ice Resource Utilization Assessment — OTHER
    Evaluation of water-ice identification, extraction, thermal stability, processing, and conversion into potable water, oxygen, hydrogen, and in-situ propellant.
  • EVA and Mobility Operations — OTHER
    Testing of EVA logistics, mobility constraints, dust mitigation strategies, and operational workflows in lunar and Mars-analog environments.

Study Details

This study evaluates the operational, environmental, and habitation-system requirements for sustained human presence on the lunar surface, the performance of the Lunar Gateway as a transit and staging architecture, and the pathways required to accelerate readiness for Martian surface habitation. The protocol examines habitat resilience, radiation exposure modeling, life-support continuity, EVA logistics, behavioral health in isolated environments, and systems-engineering workflows across lunar, transit, and Mars-analog environments. Special emphasis is placed on the identification, extraction, processing, and utilization of lunar water-ice deposits as a critical resource for life-support, radiation shielding, and in-situ propellant production. Findings will inform future mission design, habitation module development, and interplanetary operational frameworks.

Key Dates

Start date
May 1, 2026
Status verified
Apr 2026
Primary completion
Apr 30, 2029
Completion
Apr 30, 2029

Study Design

Enrollment
30 participants (estimated)

Arms

  • Arm: Lunar Surface Habitation Cohort
    Participants assigned to evaluate lunar surface habitation systems, including habitat stability, ECLSS performance, radiation shielding, EVA logistics, and water-ice extraction workflows.
  • Arm: Lunar Gateway Transit Cohort
    Participants assigned to assess Lunar Gateway transit operations, including docking workflows, resource transfer, life-support continuity, and staging of water-ice-derived consumables.
  • Arm: Martian Surface Analog Cohort
    Participants assigned to operate within Mars-analog habitats to evaluate long-duration isolation, dust mitigation, power redundancy, and utilization pathways for Martian subsurface ice.

Primary Outcome Measure

Habitat System Resilience Index (HSRI) [ Time Frame: 36 months ]

Central Contacts

Locations (1)

FacilityCityStateZIPSite coordinators
Truway Health, Inc. New York HeadquartersNew YorkNew York10016
Gavin Solomon, President and CEO
[email protected]
516-768-5264
Gavin C Solomon, President and CEO (PRINCIPAL_INVESTIGATOR)

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Truway Health, Inc. New York Headquarters· New York, NY