Survey of Resources in Behavioral Sleep Medicine Across the Department of Defense, Defense Health Agency.

INTRODUCTION: Insomnia affects approximately 40% of active duty service members and adversely affects health, readiness, and safety. The VA/DoD Clinical Practice Guideline for the management of insomnia recommends cognitive-behavioral treatment of insomnia (CBTI) or its abbreviated version (brief behavioral treatment of insomnia [BBTI]) as the first-line insomnia treatment. The goal of this study was to assess CBTI/BBTI resources at MTFs, perceived facilitators and barriers for CBTI/BBTI, and gaps in these treatments across the Defense Health Agency. MATERIALS AND METHODS: Between July and October 2022, we conducted an electronic survey of CBTI/BBTI resources across Contiguous United States and the District of Columbia (CONUS) and Outside Continental United States (OCONUS) MTFs. The survey was distributed to 154 military sleep health care providers from 32 MTFs, and a link to the survey was posted on two online military sleep medicine discussion forums. Fifteen providers from 12 MTFs volunteered to complete a 30-minute qualitative interview to explore their perception of barriers and facilitators of CBTI/BBTI at their facility. RESULTS: Fifty-two of 154 providers (33.8%) at 20 MTFs completed the survey. A majority of providers indicated that hypnotics remain the most common treatment for insomnia at their facility. Sixty-eight percent reported that CBTI/BBTI was available at their facility and estimated that less than 50% of the patients diagnosed with insomnia receive CBTI/BBTI. The main facilitators were dedicated, trained CBTI/BBTI providers and leadership support. Referrals to the off-post civilian network and self-help apps were not perceived as significant facilitators for augmenting insomnia care capabilities. The primary barriers to offering CBTI/BBTI were under-resourced clinics to meet the high volume of patients presenting with insomnia and scheduling and workflow limitations that impede repeated treatment appointments over the period prescribed by CBTI/BBTI protocols. Four primary themes emerged from qualitative interviews: (1) CBTI/BBTI groups can scale access to insomnia care, but patient engagement and clinical outcomes are perceived as inferior to individual treatment; (2) embedding trained providers in primary or behavioral health care could accelerate access, before escalation and referral to a sleep clinic; (3) few providers have the time to adhere to traditional CBTI protocols, and appointment scheduling often does not support weekly or bi-weekly treatment visits; and (4) the absence of quality and/or continuity of care measures dampens providers' enthusiasm for using external referral resources or self-help apps. CONCLUSIONS: Although there is a wide recognition that CBTI/BBTI is the first-line recommended insomnia treatment, the limited scalability of treatment protocols, clinical workflow limitations, and scarcity of trained CBTI/BBTI providers limit the implementation of the VA/DoD clinical guideline. Educating and engaging health care providers and leadership about CBTI, augmenting CBTI-dedicated resources, and adapting clinical workflows were identified as specific strategies needed to meet the current insomnia care needs of service members. Developing protocols for scaling the availability of CBTI expertise at diverse points of care, upstream from the sleep clinics, could accelerate access to care. Establishing standardized quality measures and processes across points of care, including for external providers and self-help apps, would enhance providers' confidence in the quality of insomnia care offered to service members.

Digital CBTI hubs as a treatment augmentation strategy in military clinics: study protocol for a pragmatic randomized clinical trial.

BACKGROUND: Chronic insomnia is the most prevalent sleep disorder among military service members, and it compromises readiness, performance, and physical and mental health. Cognitive behavioral treatment for insomnia (CBTI) is the standard of care for the treatment of insomnia recommended by the VA/DoD Clinical Practice Guideline, the American Academy of Sleep Medicine, and the American College of Physicians. CBTI is highly effective but has limited scalability. It is often unavailable in clinical settings where service members receive sleep care. Digital technologies offer unique opportunities to scale and broaden the geographic reach of CBTI services and support increased patient access and engagement in behavioral sleep care. This study aims to evaluate the impact and acceptability of digital CBTI hubs to augment military treatment facilities' capabilities in behavioral sleep medicine. METHODS: This is a multi-site, non-inferiority randomized clinical trial designed to compare the effects of in-person (face-to-face or virtual) insomnia care as usual at three military sleep clinics versus CBTI delivered remotely and asynchronously through digital CBTI hubs. Digital CBTI hubs are led by licensed, certified clinicians who use NOCTEM's® evidence-based clinical decision support platform COAST™ (Clinician Operated Assistive Sleep Technology). Changes in insomnia severity and daytime symptoms of depression and anxiety will be compared at baseline, at 6-8 weeks, and at 3-month follow-up. Patient satisfaction with insomnia care as usual versus digital CBTI hubs will also be examined. We hypothesize that digital CBTI hubs will be non-inferior to insomnia care as usual for improvements in insomnia and daytime symptoms as well as patient satisfaction with insomnia care. DISCUSSION: Digital technology has a high potential to scale CBTI accessibility and delivery options required to meet the insomnia care needs of military service members. Digital CBTI hubs using COAST offer a novel approach to broaden service members' access to CBTI and to serve as an augmentation strategy for existing sleep services at military treatment facilities. The pragmatic approach leveraging technology in this trial has the potential to rapidly inform clinical practice within the Defense Health Agency as well as other healthcare systems. TRIAL REGISTRATION: ClinicalTrials.gov NCT05490550. Registered on 14 July 2023.

Prototyping Apps for the Management of Sleep, Fatigue, and Behavioral Health in Austere Far-Forward Environments: Development Study.

BACKGROUND: Military service inherently includes frequent periods of high-stress training, operational tempo, and sustained deployments to austere far-forward environments. These occupational requirements can contribute to acute and chronic sleep disruption, fatigue, and behavioral health challenges related to acute and chronic stress and disruption of team dynamics. To date, there is no centralized mobile health platform that supports self- and supervised detection, monitoring, and management of sleep and behavioral health issues in garrison and during and after deployments. OBJECTIVE: The objective of this study was to adapt a clinical decision support platform for use outside clinical settings, in garrison, and during field exercises by medics and soldiers to monitor and manage sleep and behavioral health in operational settings. METHODS: To adapt an existing clinical decision support digital health platform, we first gathered system, content, and context-related requirements for a sleep and behavioral health management system from experts. Sleep and behavioral health assessments were then adapted for prospective digital data capture. Evidence-based and operationally relevant educational and interventional modules were formatted for digital delivery. These modules addressed the management and mitigation of sleep, circadian challenges, fatigue, stress responses, and team communication. Connectivity protocols were adapted to accommodate the absence of cellular or Wi-Fi access in deployed settings. The resulting apps were then tested in garrison and during 2 separate field exercises. RESULTS: Based on identified requirements, 2 Android smartphone apps were adapted for self-monitoring and management for soldiers (Soldier app) and team supervision and intervention by medics (Medic app). A total of 246 soldiers, including 28 medics, received training on how to use the apps. Both apps function as expected under conditions of limited connectivity during field exercises. Areas for future technology enhancement were also identified. CONCLUSIONS: We demonstrated the feasibility of adapting a clinical decision support platform into Android smartphone-based apps to collect, save, and synthesize sleep and behavioral health data, as well as share data using adaptive data transfer protocols when Wi-Fi or cellular data are unavailable. The AIRE (Autonomous Connectivity Independent System for Remote Environments) prototype offers a novel self-management and supervised tool to augment capabilities for prospective monitoring, detection, and intervention for emerging sleep, fatigue, and behavioral health issues that are common in military and nonmilitary high-tempo occupations (eg, submarines, long-haul flights, space stations, and oil rigs) where medical expertise is limited.

Development of Training to Prepare Army Medics to Address Behavioral Health Needs of Soldiers in Far-Forward Environments Utilizing Mobile App Technology.

INTRODUCTION: Multi-domain operational combat environments will likely restrict key components of current behavioral health (BH) service delivery models. Combat teams in far-forward outposts or extended missions may need to rely on their own internal assets to manage combat and operational stress reactions for extended periods of time. As such, combat medics are expected to take on additional responsibilities as providers of BH support for isolated teams. As they receive limited BH training, medics require additional training to sufficiently respond to combat and operational stress reactions in their assigned teams. This study provided combat medics with a BH training and a mobile application-based support tool that would assist them in identifying and responding to BH concerns in their soldiers. The current analysis examines pre- to post-training changes in attitudes related to utilizing BH skills. MATERIALS AND METHODS: We created a brief training aimed to increase medics' ability and confidence regarding managing BH issues. Its development was part of a study on the feasibility of the Soldier and Medic Autonomous Connectivity Independent System for Remote Environments (AIRE) apps (NOCTEM, LLC), a digital system designed for far-forward BH and sleep monitoring and management. Participants were combat medics from two Army combat brigades preparing for a training rotation through a combat training center (CTC). A total of 16 medics consented to participation with nine medics available at the follow-up after the field exercise. Medics were surveyed before the training and after their return from the CTC. RESULTS: In pre-training surveys, most medics indicated it was within their scope to assess for stress/anxiety, suicidal risk, stress reaction, and sleep problems; assist soldiers with optimizing work performance; and provide interventions for BH concerns and sleep problems. Less than half believed it was within their scope to assess and address team communication issues or provide intervention for stress reactions. After the CTC rotation, more medics endorsed that it was in their scope to provide interventions for acute stress reactions to traumatic events. Before the CTC rotation, at most 60% of the group felt at least moderately confident in utilizing the BH skills of discussing problems, assessing for concerns, and providing interventions. After CTC, the confidence levels for each skill increased or remained the same for most medics. Intervention skills had the highest proportion of medics (66%) reporting increased confidence in using the skills. CONCLUSIONS: A larger proportion of medics believed it was within their scope of work and felt confident in assessing BH problems, and a smaller proportion believed it is within their scope of work and felt confident in applying interventions. The training increased most medics' confidence to administer interventions for BH and team communication issues. Similar training programs can help medics serve as support for a wide variety of circumstances when the brigade's mental health teams are inaccessible. Additionally, the Medic AIRE app expanded the ability to evaluate and provide interventions without extensive training in treatment modalities or BH conditions. This concept shows promise for providing medics with actionable tools when training time is limited such as during preparation for extended deployments.

Enhancing behavioral sleep care with digital technology: study protocol for a hybrid type 3 implementation-effectiveness randomized trial.

BACKGROUND: Insomnia affects almost one in four military service members and veterans. The first-line recommended treatment for insomnia is cognitive-behavioral therapy for insomnia (CBTI). CBTI is typically delivered in-person or online over one-to-four sessions (brief versions) or five-to-eight sessions (standard versions) by a licensed doctoral or masters-level clinician with extensive training in behavioral sleep medicine. Despite its effectiveness, CBTI has limited scalability. Three main factors inhibit access to and delivery of CBTI including restricted availability of clinical expertise; rigid, resource-intensive treatment formats; and limited capacities for just-in-time monitoring and treatment personalization. Digital technologies offer a unique opportunity to overcome these challenges by providing scalable, personalized, resource-sensitive, adaptive, and cost-effective approaches for evidence-based insomnia treatment. METHODS: This is a hybrid type 3 implementation-effectiveness randomized trial using a scalable evidence-based digital health software platform, NOCTEM™'s Clinician-Operated Assistive Sleep Technology (COAST™). COAST includes a clinician portal and a patient app, and it utilizes algorithms that facilitate detection of sleep disordered patterns, support clinical decision-making, and personalize sleep interventions. The first aim is to compare three clinician- and system-centered implementation strategies on the reach, adoption, and sustainability of the COAST digital platform by offering (1) COAST only, (2) COAST plus external facilitation (EF: assistance and consultation to providers by NOCTEM's sleep experts), or (3) COAST plus EF and internal facilitation (EF/IF: assistance/consultation to providers by NOCTEM's sleep experts and local champions). The second aim is to quantify improvements in insomnia among patients who receive behavioral sleep care via the COAST platform. We hypothesize that reach, adoption, and sustainability and the magnitude of improvements in insomnia will be superior in the EF and EF/IF groups relative to the COAST-only group. DISCUSSION: Digital health technologies and machine learning-assisted clinical decision support tools have substantial potential for scaling access to insomnia treatment. This can augment the scalability and cost-effectiveness of CBTI without compromising patient outcomes. Engaging providers, stakeholders, patients, and decision-makers is key in identifying strategies to support the deployment of digital health technologies that can promote quality care and result in clinically meaningful sleep improvements, positive systemic change, and enhanced readiness and health among service members. TRIAL REGISTRATION: ClinicalTrials.gov NCT04366284 . Registered on 28 April 2020.

Evaluating the Role of Drone-Produced Chemical Signals in Mediating Social Interactions in Honey Bees (Apis mellifera).

Pheromones play a critical role in shaping societies of social insects, including honey bees, Apis mellifera. While diverse functions have been ascribed to queen- and worker-produced compounds, few studies have explored the identity and function of male-produced (drone) compounds. However, several lines of evidence suggest that drones engage in a variety of social interactions inside and outside of the colony. Here we elucidate the chemical composition of extracts of the drone mandibular gland, and test the hypothesis that compounds produced in these glands, or a synthetic blend consisting of the six main compounds, mediate drone social interactions in and out of the colony. Drone mandibular glands primarily produce a blend of saturated, unsaturated and methyl branched fatty acids ranging in chain length from nonanoic to docosanoic acids, and both gland extracts and synthetic blends of these chemicals serve to attract drones outside of the hive, but do not attract workers inside the hive. These studies shed light on the role drones and drone-produced chemicals have on mediating social interactions with other drones and highlight their potential importance in communicating with other castes.