Search for: All records

Abstract Current research underscores that there are only a few evidence-based programs that teach STEM (science, technology, engineering, and mathematics) as part of their curriculum, especially for autistic students. Even fewer programs focus on engineering and design learning. Hence, we developed an informal afterschool maker program to develop autistic and non-autistic students’ interests in engineering to understand their experiences learning STEM concepts and values while applying the engineering mindset to develop projects. This qualitative study aimed to explore and understand students’ experiences participating in STEM activities in the maker club. We interviewed twenty-six students (seventeen autistic and nine non-autistic), nine teachers, and thirteen parents representing diverse cultural and socio-economic backgrounds across three public middle schools in a large urban metropolitan city between 2018 and 2019. Our thematic analysis yielded four themes:(1) active participation in STEM; (2) curiosity about STEM topics, concepts, and practices, (3) capacity-building to engage in STEM learning; and 4) understanding of the importance of STEM education in daily life.The results of this study enabled us to understand that students were deeply engaged with the content and curriculum of our program, expanded their knowledge base about scientific concepts, used engineering-specific scientific terminologies, and engaged with the engineering design process to conceptualize, test, improvise, and problem-solve. Furthermore, this afterschool engineering education program created a safe, nurturing, and stimulating environment for students to build engineering readiness skills. 

Abstract Executive functions—specifically, problem-solving skills—are crucial for school success. Challenges in these functions faced by autistic adolescents are often unrecognized or viewed through a behavioral lens that requires correction or normalization. A lack of development of higher order problem-solving skills leads to increased instances of secondary mental health issues, creating further behavioral and social challenges. We propose using the Engineering Design Process (EDP), a flexible, cyclical, top-down, self-sustaining approach that uses peer mediation to teach group problem-solving skills. We then position this cycle within existing occupational therapy models to demonstrate its adaptability and flexibility, describe the distinct features of this problem-solving strategy, and present a real-world case study in which the EDP is used as a problem-solving approach in an after-school program. The EDP develops crucial social and interpersonal skills using interest-driven occupations and can be organically used as a group strategy. This article uses the identity-first language autistic people. This nonableist language describes their strengths and abilities and is a conscious decision. This language is favored by autistic communities and self-advocates and has been adopted by health care professionals and researchers (Bottema-Beutel et al., 2021, Kenny et al., 2016). 

Abstract Date Presented 04/21/2023 When working with autistic individuals, OTs need to incorporate interest-based activities in inclusive environments that promote protective factors and improve mental health and well-being. Primary Author and Speaker: Joana Nana Serwaa Akrofi Additional Authors and Speakers: Dora Onwumere Contributing Authors: Kavitha Murthi, Kristie Patten, Ariana Riccio, Wendy Martin 

Abstract Many youth on the autism spectrum possess interests and strengths for STEM-related postsecondary pathways, yet there are few research-based programs to support those interests and competencies including complex problem solving and social communication. This qualitative study explored the experiences and perceived outcomes of students, teachers, and parents participating in an inclusive, strength-based, extracurricular engineering design program entitled the IDEAS Maker Club. Twenty-six students, 13 parents, and nine teachers in the program completed interviews and program logs while researchers conducted classroom observations over 2 years. Thematic analysis identified five common themes: (1) positive student experience and engagement, (2) skills acquisition, (3) development of interest in STEM and related careers, (4) social relationships and community, and (5) safe spaces that supported self-determination.