Autism Intervention Research Network Research Articles

Updates to the Autism Intervention Research Network on Physical Health (AIR-P) Research Agenda.

Autistic individuals, now representing one in 36 individuals in the U.S., experience disproportionate physical health challenges relative to non-autistic individuals. The Health Resources and Services Administration's (HRSA) Autism Intervention Research Network on Physical Health (AIR-P) is an interdisciplinary, multi-center Research Network that aims to increase the health, well-being, and quality of life of autistic individuals. The current paper builds on the initial AIR-P Research Agenda (proposed in Year 1) and provides an updated vision for the Network. Updates to the Research Agenda were made via the administration of a Qualtrics survey, and disseminated widely to all AIR-P entities, including the Research Node Leaders, Steering Committee, Autistic Researcher Review Board, and collaborating academic and non-academic entities. Network members were tasked with evaluating the Year 1 Research Agenda and proposing additional priorities. Within each Research Node, all Year 1 priorities were endorsed as continued priorities for research on autism and physical health. Specific topics, including co-occurring conditions and self-determination, advocacy, and decision-making, were particularly endorsed. Opportunities for exploratory studies and intervention research were identified across Research Nodes. Qualitative responses providing feedback on additional research priorities were collected. The updated AIR-P Research Agenda represents an important step toward enacting large-scale health promotion efforts for autistic individuals across the lifespan. This updated agenda builds on efforts to catalyze autism research in historically underrepresented topic areas while adopting a neurodiversity-oriented approach to health promotion.

A Practice Pathway for the Treatment of Night Wakings in Children with Autism Spectrum Disorder.

Children with autism spectrum disorder (ASD) report high rates of sleep problems. In 2012, the Autism Treatment Network/ Autism Intervention Research Network on Physical Health (ATN/AIR-P) Sleep Committee developed a pathway to address these concerns. Since its publication, ATN/AIR-P clinicians and parents have identified night wakings as a refractory problem unaddressed by the pathway. We reviewed the existing literature and identified 76 scholarly articles that provided data on night waking in children with ASD. Based on the available literature, we propose an updated practice pathway to identify and treat night wakings in children with ASD.

An Interactive Approach to Teaching Neurology Residents about Intellectual and Developmental Disabilities (IDD): Effects of In-Person Versus Virtual Noon Conferences (P1-2.006)

<h3>Objective:</h3> To compare the efficacy of in-person versus virtual interactive noon conferences on resident physicians’ comfort levels in caring for adults with intellectual and developmental disabilities (IDD). <h3>Background:</h3> Many neurologists feel uncomfortable treating adults with IDD, partly due to a lack of training. Prior findings suggest that having more experience with people with IDD is associated with more comfort in caring for this population. Comfort Theory explains that increasing meaningful interactions between dissimilar groups increases comfort levels between them. <h3>Design/Methods:</h3> Interactive noon conference sessions were conducted annually with seven adult and pediatric residency programs for three academic years between September 2019 and March 2022. During the conference, artists with IDD shared their work with residents and engaged in conversations following a brief lecture about IDD. Due to the COVID-19 pandemic, sessions after March 2020 were virtual with pre-recorded interviews with an artist with IDD. Residents completed surveys before and after each session. Participants rated their comfort level in interacting with and treating people with IDD using a 6-point Likert scale. Results were analyzed with longitudinal regression models for in-person and virtual participants. <h3>Results:</h3> 68 unique in-person participants and 89 unique virtual participants completed pre- and post-session surveys. In the in-person versus virtual group, mean comfort levels interacting with people with IDD increased from 3.7 to 4.4 (95% CI 0.34–0.96, p&lt;.0001) versus from 4.0 to 4.4 (0.15–0.57, p&lt;.0001) and mean comfort levels treating people with IDD increased from 3.7 to 4.2 (0.14–0.77, p &lt; .0001) versus from 3.9 to 4.2 (0.06–0.5, p&lt;.0001). There was no significant difference between the two groups (difference 0.17; −0.56–0.21, p = 0.38). <h3>Conclusions:</h3> Neurology resident participation in interactive noon conferences with people with IDD increased resident comfort caring for this population. Our findings suggest that virtual sessions also improved physician comfort, offering a valid alternative when in-person sessions are not possible. <b>Disclosure:</b> Dr. Frueh has received research support from ACGME Back to Bedside. The institution of Stefan Sillau has received research support from Alzheimer’s Association. The institution of Stefan Sillau has received research support from Hewitt Family Foundation; State of Colorado. The institution of Stefan Sillau has received research support from PCORI. The institution of Stefan Sillau has received research support from NINR. The institution of Stefan Sillau has received research support from Michael J. Fox Foundation. The institution of Stefan Sillau has received research support from Department of Defense. The institution of Stefan Sillau has received research support from Colorado Department of Public Health and Environment. The institution of Stefan Sillau has received research support from Benign Essential Blepharospasm Research Foundation. Stefan Sillau has a non-compensated relationship as a Statistician with Novartis that is relevant to AAN interests or activities. Stefan Sillau has a non-compensated relationship as a Statistician with Biogen that is relevant to AAN interests or activities. Dr. Elias has nothing to disclose. Dr. Santana Almansa has nothing to disclose. Dr. MacRae has nothing to disclose. Dr. Shapiro has nothing to disclose. Madeline Chiujdea has nothing to disclose. The institution of Dr. Sanders has received research support from Autism Intervention Research Network on Physical Health. The institution of Dr. Sanders has received research support from Accreditation Council for Graduate Medical Education.

The Autism Intervention Research Network on Physical Health (AIR-P) Charter.

In the United States, autistic individuals experience disparate physical- and mental-health-related quality of life across the lifespan relative to non-autistic individuals. In recognition of these disparities, the Autism Intervention Research Network on Physical Health (AIR-P) seeks to establish and maintain a research network to enhance the health and well-being across the lifespan of autistic individuals, particularly for underserved and vulnerable populations. This charter serves as the initial charter for the AIR-P; as a network, we plan to continue to revise and elaborate on the contents of this charter as our research advances and as we continue to forge new partnerships and collaborations.The purpose of the AIR-P is to support innovative life course intervention research that promotes optimal health and well-being across the lifespan of autistic individuals in 6 key areas: (1) primary care services and quality, (2) community-based lifestyle interventions, (3) gender, sexuality, and reproductive health, (4) health systems and services, (5) neurology, and (6) genetics. The network will establish and maintain an interdisciplinary, multicenter research network for scientific collaboration and infrastructure to increase the life expectancy and quality of life for autistic individuals, with a focus on underserved populations.As a network, the AIR-P aligns with the neurodiversity movement and views autism as an identity akin to gender and race, not a condition that requires a cure. This is reflected in our approach to promoting the health and well-being of autistic individuals.All research supported within the network will be vetted and/or codeveloped by the Autistic Researcher Review Board, caregivers and family members of autistic individuals, and other stakeholders.The network will create an infrastructure for anyone, including early-career investigators and investigators seeking to begin a program of research in autism and physical health, to conduct research related to the physical health of autistic individuals. Any individual or organization may join the network, as well as access and contribute to the robust research infrastructure we are developing and maintaining.Our network seeks to advance research on physical health beyond a medical model and deficit-oriented approach toward promoting the multidimensional health, well-being, and thriving of autistic individuals and their families.The network seeks to address disparities in the access, quality, and utilization of health-promoting services and supports for autistic individuals, particularly for underserved or marginalized populations. The network will aim to ensure that all research supported within the network benefits participants representative of low-income, racial or ethnic minority, immigrant, female, Indigenous, geographically remote, gender identity minority, and sexual orientation minority populations. This may require modifications to usual recruitment, data collection, and analytic methods that mitigate barriers to participation.The AIR-P seeks to advance the evidence base of high-quality research across the lifespan for autistic individuals and their families. Areas in which there is currently no existing evidence base, the AIR-P seeks to spur innovative research and engage experts across the United States to guide policy and clinical practice in these areas.The mission of the AIR-P is to develop a robust research infrastructure that will foster measurable improvements in optimal physical health and well-being across the lifespan of autistic individuals and their families.The AIR-P envisions a future in which autistic individuals experience optimal multidimensional health and well-being.The following values are central to all of our activities: Respect, integration, and equitable access to supports and services that promote optimal health and well-being for autistic individualsSelf-determination and integration of autistic individuals in all facets of the networkIndividualized and culturally appropriate health careDiversity within the network, programs, and societyStewardship of public resources and measurable accountabilityA commitment to helping individuals by strengthening communities and systems

The Autism Intervention Research Network on Physical Health Autistic Researcher Review Board.

The Autism Intervention Research Network on Physical Health Autistic Researcher Review Board.

The Autism Intervention Research Network on Physical Health (AIR-P) Research Agenda.

In the United States, autistic individuals experience disproportionate physical and mental health challenges relative to non-autistic individuals, including higher rates of co-occurring and chronic conditions and lower physical, social, and psychological health-related quality of life. The Autism Intervention Research Network on Physical Health (AIR-P) is an interdisciplinary, multicenter research network for scientific collaboration and infrastructure that aims to increase the life expectancy and quality of life for autistic individuals, with a focus on underserved or vulnerable populations. The current paper describes the development of the AIR-P Research Agenda. Development of the research agenda involved an iterative and collaborative process between the AIR-P Advisory Board, Steering Committee, and Autistic Researcher Review Board. The methodology consisted of 3 phases: (1) ideation and design, (2) literature review and synthesis; and (3) network engagement. Six core research priorities related to the health of autistic individuals were identified: (1) primary care services and quality, (2) community-based lifestyle interventions, (3) health systems and services, (4) gender, sexuality, and reproductive health, (5) neurology, and (6) genetics. Specific topics within each of these priorities were identified. Four cross-cutting research priorities were also identified: (1) neurodiversity-oriented care, (2) facilitating developmental transitions, (3) methodologically rigorous intervention studies, and (4) addressing health disparities. The AIR-P Research Agenda represents an important step forward for enacting large-scale health-promotion efforts for autistic individuals across the lifespan. This agenda will catalyze autism research in historically underrepresented topic areas while adopting a neurodiversity-oriented approach to health-promotion.

Promoting Interdisciplinary and Participatory Autism Research.

The Autism Intervention Research Network on Physical Health (AIR-P) has a strong emphasis on cultivating the next generation of researchers committed to promoting the health and well-being of autistic individuals across the lifespan. As we begin our roles as scientists on this ambitious project, we are confronted with the tension between aspects of research culture that are both progressive and dynamic and outdated and static, particularly in the autism field. As we reflect on the current state of the field, we increasingly recognize the importance of conducting interdisciplinary research and using participatory methods to ensure that our research will enhance health outcomes for autistic individuals.Throughout our short careers, it has become readily apparent that the research community recognizes, at least in name, the value of working on diverse interdisciplinary teams, particularly with respect to addressing complex public health issues.1 We are acutely aware, however, of traditional research culture wherein mentors have historically encouraged trainees to master a single focal area and protect it as their own.2 In effect, we continuously experience conflicting messages. On one hand, we are urged to identify a narrow area of expertise, pursue it with fervor, and work to establish our independence as researchers. On the other hand, our experience in autism research requires us to approach complex problems from multiple angles, cultivate a vast array of methodological and theoretical tools, and cull together diverse teams.We believe that an interdisciplinary approach to research is an asset to early-career investigators’ professional development and to the field. We urge mentors to encourage early-career investigators to learn from peers in other fields, even those that do not, at face value, appear complementary. In practice, autism researchers would collaborate with physicians and clinicians, social justice advocates, educators, and other leaders and stakeholders. We believe that these collaborations will promote out-of-the-box thinking and dismantle antiquated models that do not further the development of innovative, health-promoting research for autistic individuals.Researchers underscore the critical role of participatory methods for autistic individuals.3 However, a pervasive undervaluing of the role of lived experiences still exists in shaping research questions and methodologies, which translates into an additive approach wherein the stakeholder perspective is layered on top of the empirical research study rather than sought out at the beginning to inform the research process in a meaningful way. When participatory methodologies are secondary to the research study, researchers often position those with lived experience in tokenistic roles that do an injustice to their perspectives in the research process.One of the earliest developments within the AIR-P is the Autistic Researcher Review Board. This group of international autistic researchers is tasked with reviewing all studies that will be supported within the AIR-P and developing collaborative theoretical articles and empirical research studies that will advance the field. As the neurodiversity movement continues to gain traction and individuals with neurodivergence continue to serve as self-advocates and assume prominent leadership positions, we hope that participatory research becomes the status quo in autism research.We call on our peers, early-career investigators, as well as colleagues steeped in traditional research culture, to join us in placing a precedent on moving the field of autism research forward through interdisciplinary and participatory approaches. We look forward to collaborating with novices and experts across disciplines in developing and implementing research that is directly responsive to lived experiences in an effort to address our broader goal of having a robust impact on the health and well-being of autistic individuals across the lifespan.

Barriers to Inclusive Learning for Autistic Individuals.

Elementary and higher education policies developed by autistic experts and founded on research can fundamentally enhance the accessibility of the learning environment for autistic students throughout their educational career. Although autistic students have the potential to perform successfully academically, one major barrier to their success is that the educational environment is filled with anxiety-provoking sensory input. We call on educational institutions to do more to positively affect the outcomes for autistic students and those with sensory modulation challenges by reducing sensory-related barriers to learning in higher education. In particular, we call on higher education institutions to consider the myriad barriers that autistic students encounter at this stage of their education and the sudden, inherent lack of support and understanding once they leave the secondary education environment. Sensory modulation challenges experienced in primary and secondary education environments do not disappear in tertiary education settings.Sensory modulation challenges are commonly associated with autism and are an important barrier to quality of life.1 Recently, hypo- and hyper-reactivity to sensory stimuli have been outlined in the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition, criteria for autism and have brought increased attention to the individual sensory challenges in this population.2 Researchers have begun to provide insight into the biological mechanisms underlying sensory modulation challenges, with a focus on sensory hyper-responsivity. Neuroimaging studies have shown that during exposure to aversive sensory stimulation, sensory hyper-responsivity in autistic youth is associated with reduced habituation in brain regions associated with attention, salience, and threat response.3,4 Autistic youth with lower hyper-responsivity also show atypically high prefrontal downregulation of the amygdala, which suggests that they are exerting extra effort to avoid behavioral sensory responses, including irritability, meltdowns, and covering ears.3,4 Elevated physiologic responses, such as heart rate, to aversive sensory stimuli have also been found among autistic individuals,5 indicating that heightened arousal may explain the high co-occurrence between anxiety and sensory hyper-responsivity.6 Thus, emerging understanding about the biological mechanisms underlying sensory modulation challenges supports the idea that sensory hyper-responsivity is distracting, exhausting, and anxiety provoking.Higher education environments are composed of competing sensory inputs, including bright lights, the classroom layout, loud gathering areas, and bombardment of smells. Autistic and non-autistic college students report heightened sensory reactivity to higher education environments.7 However, autistic students report that the lack of respite from sensory input is a barrier to learning that often triggers stress and anxiety and even leads to an inability to continue pursuing higher education.7 In response, a recent study with autistic participants in Canadian universities showed that 78% who completed interviews and 87% who completed questionnaires reported experiencing sensory barriers in their classrooms, hallways, and campus grounds that directly affected their learning.8 Researchers, faculty, and staff have reported recognizing that sensory barriers have an impact on students’ educational outcomes and understanding the importance of accommodating the physical environment to provide accessible learning.7,9 Although faculty, staff, and students in higher education generally agree on the importance of reducing disabling sensory barriers to learning for autistic students, more needs to be done to improve the sensory environment and promote inclusivity. An added effect of an improved sensory environment in tertiary education is the development of innovations for the elementary and secondary school environments. For example, Bellevue College’s Neurodiversity Navigators aim to create inclusive environments for autistic students and neurodivergence by providing resources for them and educating faculty about supporting these students’ neurologic differences. Similarly, Landmark College is specifically designed to create a space for autistic and neurodivergent students that provides therapeutic supports, including service animals that respond to sensory barriers affecting students’ learning.Autistic experts and sensory processing researchers can help to inform simple, cost-effective policies to remedy these challenges, such as offering various sensory choices in classrooms, routinely dimming or turning off lights in designated areas, and allowing autistic students to reserve seats where there are fewer sensory challenges. Outside the classroom, universities and colleges can offer areas of respite on campus, such as quiet zones. They can also educate the student body and faculty about supporting the learning of students with sensory processing challenges. Colleges and universities have the opportunity to be innovative in their policies and practices and include autistic students and sensory challenges in creating evidenced-based, inclusive environments that support learning with reduced anxiety and feelings of sensory overload.The authors thank Dr Emily Hotez for reviewing the manuscript. They also thank the Autism Intervention Research Network on Physical Health.

The Role of Genetic Testing Among Autistic Individuals.

Autism is estimated to have a heritability component of ∼90%.1 This estimate is based on the reported concordance rates of 70% to 90% between monozygotic twins compared with 10% concordance in dizygotic twins.2,3 Furthermore, siblings of autistic individuals carry a >17 times higher likelihood of being on the autism spectrum compared with the general population.3 Although a significant proportion of genetic and molecular mechanisms related to autism remain unclear, researchers have reported findings that suggest both rare Mendelian and polygenic, multifactorial patterns of inheritance. For example, chromosomal microarray testing may identify a genetic etiology in up to 20% of autistic individuals.4,5Given this extent of genetic heritability, large-scale genetic testing and tracking within databases are beneficial in informing both research and clinical practice. The developers of these datasets aim to identify specific gene interactions and assess individual gene contributions while advancing the diagnostic yield of genetic testing.6 The Autism Intervention Research Network on Physical Health genetics research node is poised to help to facilitate the creation of registries for rare and orphan diseases that commonly co-occur with autism. An aim of the Autism Intervention Research Network on Physical Health data repository is to collect this information through the use of data-gathering materials designed to ease the burden on families and support groups wanting to initiate new registries.An important distinction to note is that genetic testing is not used to diagnose autism. An autism diagnosis is based on the presence of defined clinical characteristics. Although genetic test results may reveal the origin of autism in an individual or provide information about the statistical likelihood of being on the autism spectrum, they can also be used to improve the physical health and well-being of autistic individuals by identifying co-occurring medical conditions. Genetic testing may inform a specific diagnosis (eg, fragile X syndrome, Rett syndrome) that could ultimately establish a personalized roadmap for identifying syndrome-associated co-occurring conditions, instituting surveillance, and developing interventions or treatments specific to the genetic etiology. Furthermore, the individual diagnosis may lead to diagnosis-specific community support and help to guide family planning efforts.Despite the American College of Medical Genetics and Genomics establishing fragile X and chromosomal microarray testing as standard-of-care, first-tier tests in the genetic evaluation of autistic individuals,7,8 a surprisingly low number of autistic individuals receive these recommended genetics tests. One recent study with 1280 participants revealed that although 16.5% of participants had some genetic testing done, only 3% had received both recommended tests.9 Moreover, well-documented racial and ethnic disparities exist in the timely identification and genetic screening of autistic individuals. Black, Hispanic/Latinx, and other children of color, particularly those with co-occurring intellectual disabilities, are more likely to have a missed or delayed diagnosis of autism.10–12 Unfortunately, this inequality in the care of autistic individuals, and particularly for Black children, is also observed in the context of genetic screening and counseling.13 Overall, approximately two-thirds of autistic children receive some form of genetic screening and/or counseling; however, Black children are much less likely than their White peers to be offered these services.13 The majority of parents of autistic children actually favor the use of genetic screening and counseling because they believe that the increased knowledge empowers and helps them to intervene earlier than they might have otherwise.14Our goal is to increase awareness regarding the importance and utility of genetic screening and counseling in the lives of autistic individuals and their families. Novel intervention strategies need to be implemented to improve access to such services so that autistic people can be empowered to make informed decisions surrounding the lifestyle interventions and care they wish to pursue.

Promoting Healthy Lifestyles and Well-Being in Autistic Youth.

According to data from the National Health and Examination Survey, ∼40% of adults and 19% of youth in the United States were obese in 2015 and 2016, with a disproportionate burden seen in non-Hispanic Black and Hispanic youth when compared with non-Hispanic White and non-Hispanic Asian youth.1 The etiology of the obesity epidemic is complex and multifaceted, spanning physiologic, behavioral, genetic, social–emotional, political, and economic factors. As the epidemiology of morbidity and mortality has shifted from infectious to chronic and, most often, preventable diseases, the importance of healthy lifestyle behaviors for all families, including autistic individuals, could not be more pressing.Autistic children and adolescents are at disproportionate risk for unhealthy weight status and represent just one of many communities with unique considerations when it comes to tailoring interventions designed to improve nutrition and physical activity.2,3 Restrictive eating behaviors, sensory issues, specialized diets, social and behavioral impairments, motor impairments, and family factors are key considerations in addressing barriers to optimal nutrition and physical activity in autistic children.4–6 For American Black and Hispanic/Latinx families with autistic children, a history of structural racism and the generation of limiting social structures further complicate efforts at healthier living via the disproportionate burden of food insecurity, food deserts, and safe built environments they share. Multifaceted interventions offering touchpoints in multiple social arenas (ie school, church, home, community center) that are tailored to the needs and strengths of diverse communities will be required for meaningful and effective change for families with autistic individuals.7Lifestyle medicine focuses on 6 key tenets of health: (1) whole food, plant-based diet, (2) regular physical activity, (3) restorative sleep, (4) stress management, (5) social connectedness, and (6) avoiding risky substance use. When optimized, these 6 tenets can prevent and even help reverse chronic diseases such as cardiovascular disease, diabetes, and cancer. Our goal is to pursue interventions that, first and foremost, use the local autistic community’s input to guide the development and implementation of interventions aimed at improving the lifestyle of autistic individuals and their families. By prioritizing creative educational delivery methods such as a virtual teaching kitchen that promotes social engagement, sensory exposure to a variety of foods, and meal preparation skills that promote self-care and independent living skills, we aim to promote whole-person growth and wellness.The coronavirus disease 2019 pandemic has undoubtedly altered every family’s life in deep and meaningful ways. It has also spurred and required innovative solutions, including the explosive growth of virtual meeting platforms, whose use will require continued input from autistic youth and their families for the development of best practices. Virtual platforms provide expansive virtual reach to autistic youth and families in a variety of historically underserved settings such as rural and urban underserved areas. By funding small-scale pilots, enabling researchers to engage with a network of collaborating research entities, and providing a centralized data infrastructure, the lifestyle node of the Autism Intervention Research Network on Physical Health is poised to scale and more robustly evaluate novel interventions.

Improving Care and Service Delivery for Autistic Youths Transitioning to Adulthood

Approximately 100 000 autistic youths turn 18 each year, a rough approximation for the number entering adulthood. Population outcomes among autistic young adults are poor across indicators of physical health, mental health, employment, postsecondary education, community participation, independence, financial security, and access to needed community services. There is little evidence that we have moved the needle on these population-level outcomes over the past 15 years, despite growing attention to the needs of this group and an outpouring of investment in the development of patient-level clinical interventions. The focus on developing evidence-based treatments has not yet been matched by a corresponding investment in implementing interventions at a scale that can reach this growing population or in systems-level strategies for improving policy and program performance.1Historically, autism was conceptualized as a pervasive developmental disorder because difficulties typically manifest pervasively across domains of physical and behavioral health, motor and speech development, and social and emotional development. Thus, delivery of physical health care and health care transition in this population are almost always inextricably intertwined with other developmental domains and a need for communication and coordination with the patient, his or her family, and a myriad of other health and community service providers.2Recommendations for improving care coordination are commonplace in this field and targets for research and practice. However, few specific measures of care coordination exist beyond general questions asked of parents in health care surveys. Implementing continuous improvement practices is impossible without clear metrics to measure progress. A promising direction for measuring care coordination in a way that could inform iterative improvement cycles is the adaptation of social network measures.3 This is a priority of the Autism Intervention Research Network on Physical Health (AIR-P) research node at Drexel University.Medicaid plays a key role in the coordination of care and delivery of services. Poor employment prospects among autistic youth result in Medicaid being among the only potential insurers for this group. Hallmark Medicaid programs, including Section 1115 waivers and other programs that vary by state, can deliver a robust service array to eligible autistic youth. However, a thorough, population-level understanding of the pathways needed to navigate Medicaid during the transition of these youths to adulthood has not been established. There may be specific and modifiable aspects of Medicaid eligibility criteria that differentially affect access for aging autistic youth. The identification of Medicaid services used by enrolled autistic young adults will be a substantial advancement for AIR-P and may reveal avenues to boost the efficiency and effectiveness of service delivery.Across insurers, new service models for transition-aged youth with mental health and chronic health conditions, including peer support and service navigation, are being pilot tested. The adaptation of these innovative models to help autistic youth will be a key goal for AIR-P. Furthermore, among the most critical advancements needed to improve care delivered to autistic youth is reworking the connections between research and practice so that they are both more bidirectional (research informs practice and vice versa) and more efficient (innovation to scalable implementation cycles are faster). Robust networks that foster close connections among researchers, practitioners, and policymakers from the outset of innovation are poised to make much-needed headway for developing and implementing this burgeoning evidence base in a timely manner to truly move the needle on population-level outcomes.

An Expert Roundtable Discussion on Experiences of Autistic Autism Researchers.

An Expert Roundtable Discussion on Experiences of Autistic Autism Researchers.

Family Engagement in the Autism Treatment and Learning Health Networks.

Family involvement in the Autism Intervention Research Network on Physical Health, the Autism Treatment Network, and the Autism Learning Health Network, jointly the Autism Networks, has evolved and grown into a meaningful and robust collaboration between families, providers, and researchers. Family involvement at the center of the networks includes both local and national network-wide coproduction and contribution. Family involvement includes actively co-authoring research proposals for large grants, equal membership of network committees and workgroups, and formulating quality improvement pathways for local recruitment efforts and other network initiatives. Although families are involved in every aspect of network activity, families have been the driving force of specifically challenging the networks to concentrate research, education, and dissemination efforts around 3 pillar initiatives of addressing comorbidities of anxiety, attention-deficit/hyperactivity disorder, and irritability in autism during the networks' upcoming funding cycle. The expansion of the networks' Extension for Community Healthcare Outcomes program is an exciting network initiative that brings best practices in autism care to community providers. As equal hub members of each Extension for Community Healthcare Outcomes team, families ensure that participants are intimately cognizant of family perspectives and goals. Self-advocacy involvement in the networks is emerging, with plans for each site to have self-advocacy representation by the spring of 2020 and ultimately forming their own coproduction committee. The Autism Treatment Network, the Autism Intervention Research Network on Physical Health, and the Autism Learning Health Network continue to be trailblazing organizations in how families are involved in the growth of their networks, production of meaningful research, and dissemination of information to providers and families regarding emerging work in autism spectrum disorders.

Editors’ Note and Prologue

* Abbreviations: AIR-P — : Autism Intervention Research Network on Physical Health ASD — : autism spectrum disorder ATN — : Autism Treatment Network ED — : emergency department HRSA — : Health Resources and Services Administration MCHB — : Maternal and Child Health Bureau Children with autism spectrum disorder (ASD) experience significant developmental challenges and complex co-occurring medical and psychiatric conditions,1–3 and they are at risk for considerable unmet health care needs.4–8 As the reported prevalence of ASD continues to rise,9,10 the need for a health care system that is fully equipped to meet the needs of this population is increasingly important. We are pleased to introduce the third supplement to Pediatrics led by the Autism Intervention Research Network on Physical Health (AIR-P) with support from the Maternal and Child Health Bureau (MCHB) of the Health Resources and Services Administration (HRSA) through the Autism Collaboration, Accountability, Research, Education, and Support Act.11 The 2 previous supplements led by the AIR-P were published in 2012 and 2016, and the work presented in this volume represents significant advances in improving the health and well-being of children with ASD through innovations in research and practice. The articles in this supplement describe infrastructure investments, multiinstitutional collaborations, new models of practice, and original research focused on improving care in multiple locations and contexts for children with ASD and their families. The work reflected in this supplement would not have been possible without considerable federal and private foundation funding. This infrastructure support enabled researchers, clinicians, family members, and key stakeholders to engage in dynamic partnerships to share knowledge and improve systems of care. The supplement begins with an overview of the reach of the HRSA-MCHB Autism and Other Developmental Disabilities Program and its alignment with federal priorities for ASD research.11 The AIR-P represents 1 of 5 autism research networks funded by HRSA and MCHB. In 2008, the … Address correspondence to Evdokia Anagnostou, MD, Holland Bloorview Kids Rehabilitation Hospital, 150 Kilgour Road, Toronto, ON M4G1R8, Canada. Email: eanagnostou{at}hollandbloorview.ca

The Autism Treatment Network: Bringing Best Practices to All Children With Autism.

The Autism Treatment Network and Autism Intervention Research Network on Physical Health were established in 2008 with goals of improving understanding of the medical aspects of autism spectrum disorders. Over the past decade, the combined network has conducted >2 dozen clinical studies, established clinical pathways for best practice, developed tool kits for professionals and families to support better care, and disseminated these works through numerous presentations at scientific meetings and publications in medical journals. As the joint network enters its second decade continuing this work, it is undergoing a transformation to increase these activities and accelerate their incorporation into clinical care at the primary care and specialty care levels. In this article, we describe the past accomplishments and present activities. We also outline planned undertakings such as the establishment of the Autism Learning Health Network, the increasing role of family members as co-producers of the work of the network, the growth of clinical trials activities with funding from foundations and industry, and expansion of work with primary care practices and autism specialty centers. We also discuss the challenges of supporting network activities and potential solutions to sustain the network.

The Autism Intervention Research Network on Physical Health and the Autism Speaks Autism Treatment Network.

* Abbreviations: AIR-P — : Autism Intervention Research Network on Physical Health AS — : Autism Speaks ASD — : autism spectrum disorder ATN — : Autism Treatment Network CAA — : Combating Autism Act HRSA — : Health Resources and Services Administration Over 10 years, the Autism Intervention Research Network on Physical Health (AIR-P) and the Autism Speaks Autism Treatment Network (ATN) have collaborated to produce much of the material presented in this supplement and have been pioneers in bringing attention to the medical needs of children and adolescents with autism spectrum disorders (ASDs) and related conditions. Whereas, until recently, medical complaints (eg, abdominal pain, poor sleep, or disruptive behaviors) were typically considered part of the disorder and therefore not requiring specific attention, today clinicians throughout the country directly assess and treat these associated conditions. The combined AIR-P/ATN network has developed systematic ways to assess and treat coexisting conditions, focusing on those for which management was previously highly variable or sporadic and has shared those methods broadly with the larger parent and professional communities. The active involvement of families and young people with ASD has helped the network identify key issues for individuals and families and focus its attention accordingly. Although clinicians may have limited new, evidence-based options for treating autism directly, they now have systematic ways to evaluate and manage coexisting conditions. In turn, families have learned about new ways to help their children and improve their functioning and outcomes. The ATN began a decade ago with key support from private-sector philanthropy. Over the past 7 years, Autism Speaks (AS), the largest parent-led philanthropy in the field of autism, has provided substantial and critical support to the ATN. The ATN maintains a registry of enrolled children at all network sites, collects registry data, and works with sites to improve … Address correspondence to James M. Perrin, MD, Department of Pediatrics, Harvard Medical School, MassGeneral Hospital for Children, 125 Nashua St, Suite 860, Boston, MA 02114

Improving Access to Care at Autism Treatment Centers: A System Analysis Approach.

The prevalence of autism spectrum disorder is steadily increasing and placing more demands on already overburdened diagnostic and treatment systems. A thoughtful, systematic reorganization of autism service delivery may reduce delays and better meet the growing need. Two clinical centers in the Autism Intervention Research Network on Physical Health, Cincinnati Children's Hospital Medical Center (CCHMC) and Nationwide Children's Hospital (NCH), undertook a year-long access improvement project to reduce delays to care by using system analysis to identify sources of delay and to target changes by using a set of defined access principles. Although both sites addressed access, they focused on slightly different targets (reducing number of patients with autism spectrum disorders waiting for follow-up appointments at NCH and reducing delay to new diagnosis at CCHMC). Both sites achieved dramatic improvements in their complex, multidisciplinary systems. A 94% reduction in number of patients on the waitlist from 99 to 6 patients and a 22% reduction in median delay for a new ongoing care appointment were realized at NCH. A 94% reduction in third next available appointment for new physician visits for children 3 to 5 years old was realized at CCHMC. This article demonstrates that 2 different clinical systems improved access to care for autism diagnosis and follow-up care by identifying sources of delay and using targeted changes based on a set of access change principles. With appropriate guidance and data analysis, improvements in access can be made.

Irritability and Problem Behavior in Autism Spectrum Disorder: A Practice Pathway for Pediatric Primary Care.

Pediatric primary care providers (PCPs) caring for patients with autism spectrum disorder (ASD) often encounter irritability (vocal or motoric outbursts expressive of anger, frustration, or distress) and problem behavior (directed acts of aggression toward other people, self, or property). The Autism Intervention Research Network on Physical Health and Autism Speaks Autism Treatment Network charged a multidisciplinary workgroup with developing a practice pathway to assist PCPs in the evaluation and treatment of irritability and problem behavior (I/PB). The workgroup reviewed the literature on the evaluation and treatment of contributory factors for I/PB in ASD. The workgroup then achieved consensus on the content and sequence of each step in the pathway. The practice pathway is designed to help the PCP generate individualized treatment plans based on contributing factors identified in each patient. These factors may include medical conditions, which the PCP is in a key position to address; functional communication challenges that can be addressed at school or at home; psychosocial stressors that may be ameliorated; inadvertent reinforcement of I/PB; and co-occurring psychiatric conditions that can be treated. The pathway provides guidance on psychotropic medication use, when indicated, within an individualized treatment plan. In addition to guidance on assessment, referral, and initial treatment, the pathway includes monitoring of treatment response and periodic reassessment. The pediatric PCP caring for the patient with ASD is in a unique position to help generate an individualized treatment plan that targets factors contributing to I/PB and to implement this plan in collaboration with parents, schools, and other providers.

Field Report: Making Toilet Training Easier-a Novel Enuresis Alarm System.

Field Report: Making Toilet Training Easier-a Novel Enuresis Alarm System.

Dietary Intake and Plasma Levels of Choline and Betaine in Children with Autism Spectrum Disorders

Abnormalities in folate-dependent one-carbon metabolism have been reported in many children with autism. Because inadequate choline and betaine can negatively affect folate metabolism and in turn downstream methylation and antioxidant capacity, we sought to determine whether dietary intake of choline and betaine in children with autism was adequate to meet nutritional needs based on national recommendations. Three-day food records were analyzed for 288 children with autism (ASDs) who participated in the national Autism Intervention Research Network for Physical Health (AIR-P) Study on Diet and Nutrition in children with autism. Plasma concentrations of choline and betaine were measured in a subgroup of 35 children with ASDs and 32 age-matched control children. The results indicated that 60–93% of children with ASDs were consuming less than the recommended Adequate Intake (AI) for choline. Strong positive correlations were found between dietary intake and plasma concentrations of choline and betaine in autistic children as well as lower plasma concentrations compared to the control group. We conclude that choline and betaine intake is inadequate in a significant subgroup of children with ASDs and is reflected in lower plasma levels. Inadequate intake of choline and betaine may contribute to the metabolic abnormalities observed in many children with autism and warrants attention in nutritional counseling.