Active clinical trials for "Space Motion Sickness"

The primary specific aim is to evaluate the use of intranasal scopolamine gel and sensory augmentation as an integrated countermeasure to mitigate motion sickness and enhance sensorimotor performance. The proposed intranasal scopolamine gel formulation (Defender Pharmaceuticals, Inc.) offers a safe non-invasive method to self-administer with a rapid onset of action. This study involves a comparison of motion sickness outcome measures when administering intranasal scopolamine gel versus placebo (Aim 1a), and then when administering intranasal scopolamine gel versus placebo with a sensory augmentation belt (Aim 1b).

The primary specific aim of this Field Test aim is to evaluate the feasibility and efficacy of administering the intranasal scopolamine gel in operational field settings using both astronaut and ground-control subjects that are exposed to provocative motion as part of their assigned duties. For the ground-control subjects, these may include motion simulations (e.g., centrifuge), parabolic flights and/or Orion capsule recovery operations. Astronaut participants may choose to test Inscop during provocative preflight training exercises (e.g., centrifugation), and can choose to take the medication prophylactically to prevent symptoms or after symptom onset to treat motion sickness during the launch and/or landing mission phases. Both ground-control and astronaut participants will be required to test the medication during a training session to monitor for adverse side effects. Participants in the field test aim will complete short debrief questionnaires to capture motion sickness symptoms, side effects, and feasibility comments. The investigators will also include field "control" subjects who did not take (INSCOP) to comment on what countermeasures subjects used and their effectiveness. The investigators will be recruiting astronaut participants from free-flier missions (e.g., SpaceX Polaris Dawn), Private Astronaut Missions (e.g., Axiom), and standard missions to the International Space Station.

The investigators have developed a self-administered rehabilitation tool that incrementally guides the user to increase head motion to mitigate motion sickness and enhance postural recovery following centrifugation or unilateral vestibular nerve deafferentation surgery.

The investigators will study adaptation of motion perception and manual control in altered gravity, including the effects of a drug (promethazine). The investigators will also study whether promethazine affects motion perceptual thresholds.