The Effects of Repeated Operational Stress and Limited Recovery on Resilience Capacity

NCT ID: NCT06784544

Last Updated: 2025-01-20

Basic Information

• Recruitment Status: NOT_YET_RECRUITING
• Clinical Phase: NA
• Total Enrollment: 24 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2025-05-31
• Study Completion Date: 2025-11-30

Brief Summary

This longitudinal study will examine the effects of repeated bouts of operational stress and limited recovery on integrated MPS, whole-body protein balance, iron absorption, and aerobic performance. Following baseline characterization measures, active adults (n=24) representative of normal weight phenotype (NW; n=12) and overweight phenotype (OW; n=12) will complete a 48h balance phase preceding two rounds of repeated 72h energy deficit exposure each immediately followed by a 48h recovery phase. NW cutoff will be defined ≤ 22% body fat for males and ≤ 32% body fat for females. OW cutoff will be defined as >22% body fat for males and >32% body fat for females. These body composition cutoffs are informed by the maximum allowable percent body fat standards outlined in current Army Regulation 600-9. Additional details for determining % body fat are outlined in the experimental procedures section of the protocol.

Detailed Description

Operational stress inherent of military training and operations is largely unavoidable and jeopardizes Warfighter readiness and performance. Operational stressors, including high physical activity, severe energy deficiency, and restricted sleep, challenge Warfighter resilience. The characterization of physiological factors contributing to maintained or declining resilience during repeated stress exposures with limited recovery is therefore required to enable development of new, targeted interventions that maintain or enhance resilience. Previous efforts have characterized the regulation of physiological status, including muscle recovery and endocrine function, during operational stress. However, no studies have directly assessed the effects of limited recovery (i.e., 48h) on physiological and performance decrements associated with repeated operational stress or resilience capacity. It is possible that repeated missions and limited recovery will drive progressive declines of physiological status and performance. The effects of operational stress on nutrition status also negatively impact readiness and performance. Absorption of key dietary nutrients, such as iron, is required to sustain nutritional status; and iron status, specifically, has been associated with performance declines. Laboratory and field-based studies from our group have shown declines in iron status and absorption following a single simulated sustained operation. However, no studies have directly assessed the effects of limited recovery (i.e., 48h) on physiological and performance decrements associated with repeated operational stress or resilience capacity. It is possible that repeated missions and limited recovery will drive progressive declines of physiological status and performance. Beyond characterizing the effects of repeated cycles of operational stress, there is potential value in determining whether body composition phenotypes (i.e., "energy deficiency-sensitive" and "energy deficiency-resistant") may modulate resilience during energy deficiency. Should phenotype-based differences be determined and suggest more beneficial/resilient vs. less beneficial/less resilient body composition phenotypes, guidance to maintain or interventions to achieve optimal body composition are potential individualized strategies to enhance resilience.

This longitudinal study will examine the effects of repeated operational stress and limited recovery on integrated muscle protein synthesis, whole-body protein balance, iron absorption, and aerobic performance. Adults (n=24) representative of normal weight and overweight phenotype (n=12/phenotype) will complete a 48h balance phase preceding two repeated rounds of 72h energy deficit (increased physical activity and reduced dietary intake) with sleep restriction followed by a 48h recovery phase.

Conditions

Sleep, Inadequate; Energy Deficit; Iron Absorption; High Physical Activity

Study Design

• Allocation Method: NON_RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: BASIC_SCIENCE
• Blinding Strategy: NONE

Study Groups

Active adults representative of overweight phenotype

Active adults representative of overweight phenotype will complete a 48h balance phase followed by two rounds of repeated 72h energy deficit exposure, each immediately followed by a 48h recovery phase.

Group Type: EXPERIMENTAL

Operational Stressors

Intervention Type: OTHER

Intervention consists of a 48 hour energy balance phase preceding two rounds of repeated 72 hour energy deficit exposure each immediately followed by a 48h recovery phase. Balance and recovery phases will meet 100% of baseline energy requirements. Energy deficit phases will include an approximate 60% energy deficit of total daily energy requirements achieved through both a reduction in dietary intake and increased energy expenditure through physical activity.

Active adults representative of normal weight phenotype

Active adults representative of normal weight phenotype will complete a 48h balance phase followed by two rounds of repeated 72h energy deficit exposure, each immediately followed by a 48h recovery phase.

Group Type: ACTIVE_COMPARATOR

Operational Stressors

Intervention Type: OTHER

Intervention consists of a 48 hour energy balance phase preceding two rounds of repeated 72 hour energy deficit exposure each immediately followed by a 48h recovery phase. Balance and recovery phases will meet 100% of baseline energy requirements. Energy deficit phases will include an approximate 60% energy deficit of total daily energy requirements achieved through both a reduction in dietary intake and increased energy expenditure through physical activity.

Interventions

Operational Stressors

Intervention consists of a 48 hour energy balance phase preceding two rounds of repeated 72 hour energy deficit exposure each immediately followed by a 48h recovery phase. Balance and recovery phases will meet 100% of baseline energy requirements. Energy deficit phases will include an approximate 60% energy deficit of total daily energy requirements achieved through both a reduction in dietary intake and increased energy expenditure through physical activity.

Intervention Type: OTHER

Eligibility Criteria

Inclusion Criteria

• Men and women aged 18 - 39 years (17 - 39 years if military personnel)
• Weight stable in the past 2 months (± approximately 5 kg)
• Healthy without evidence of chronic illness or musculoskeletal injury as determined by the USARIEM Office of Medical Support and Oversight (OMSO) or home duty station medical support (HMS)
• Functional exercise (i.e., step ups, box jumps, body mass movements) and/or aerobic exercise trained defined by self-report as performing ≥ 2 sessions/wk for previous 6 months
• Willing to refrain from alcohol, smoking any nicotine product (includes e-cigarettes); vaping, chewing tobacco, caffeine not provided in the study, and dietary supplement use throughout the dietary interventions
• Biological females must be on sustained (i.e., approximately >3 months) oral/hormonal contraceptive use which acts to maintain continuous hormonal levels (i.e., contains low-dose estrogen/progesterone with no oral placebos, hormonal IUD)
• Supervisor approval for federal civilian employees and non-HRV active duty military personnel)

Exclusion Criteria

• Musculoskeletal injuries that compromise exercise capability as determined by OMSO or HMS
• Metabolic or cardiovascular abnormalities, sleep disorders (i.e., sleep apnea) gastrointestinal disorders (e.g., kidney disease, diabetes, cardiovascular disease, etc.) as determined by OMSO or HMS
• Abnormal or problems with blood clotting as determined by OMSO or HMS
• History of complications with lidocaine or similar local anesthetic analogue
• Present condition of alcoholism, anabolic steroids, or other substance abuse issues
• Blood donation within 8-wk of beginning or completing study blood draws
• Current diagnosis of Anemia (hemoglobin < 13 g/dL for males, hemoglobin < 12 g/dL for females) and Sickle Cell Anemia/Trait as determined by OMSO or HMS
• Pregnant, trying to become pregnant, and/or breastfeeding (results of urine pregnancy test or self-report for breastfeeding will be obtained before body composition testing)
• Claustrophobia or discomfort related to having enclosed equipment around the head
• Unwillingness or inability to consume study diets or foods provided due to personal preference or food allergies/sensitivities
• Unwillingness or inability to adhere to study exercise restrictions and prescriptions

• Minimum Eligible Age: 17 Years
• Maximum Eligible Age: 39 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

Pennington Biomedical Research Center

OTHER

Sponsor Role: collaborator

United States Army Research Institute of Environmental Medicine

FED

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Jess A Gwin Principal Investigator, PhD

Role: PRINCIPAL_INVESTIGATOR

United States Army Research Institute of Environmental Medicine

Locations

US Army Research Institute of Environmental Medicine

Natick, Massachusetts, United States

Countries

United States

Central Contacts

Jess A Gwin Principal Investigator, PhD

Role: CONTACT

jessica.a.gwin.civ@health.mil

508-206-2300

Facility Contacts

Jess A Gwin, PhD

Role: primary

jessica.a.gwin.civ@health.mil

508-206-2300

Other Identifiers

MO240019

Identifier Type: OTHER_GRANT

Identifier Source: secondary_id

24-33HC

Identifier Type: -

Identifier Source: org_study_id