Search results

The integration of technology in special education can profoundly enhance student outcomes (Marino et al., 2024a). For instance, assistive technologies such as speech-to-text software and communication devices enable students with disabilities to participate more actively in the learning process (Fernández-Batanero et al., 2022). Additionally, adaptive learning platforms can customize content to meet individual student needs, fostering personalized learning experiences (Contrino et al., 2024). Moreover, technology can support differentiated instruction, equipping teachers to address the diverse learning profiles and capabilities within their classrooms (Unal et al., 2022). Numerous impediments obstruct the efficacious integration of technology in special education training and implementation. These include inadequate access to requisite technological resources, insufficient professional development opportunities and limited administrative support (Brennan et al., 2024). Furthermore, educators frequently encounter difficulties tailoring technology to the distinct needs of their students, necessitating specialized training and sustained support across the teacher education process (Basham et al., 2024; US Department of Education, 2024a).

This manuscript describes how the University of Maine’s (UMaine) Special Education Teacher Preparation Program addressed these challenges in its special education teacher preparation program through a strategic partnership with the National Center on Innovation, Design and Digital Learning’s (CIDDL) Tech Alliance. Sponsored by a grant from the US Department of Education Office of Special Education Programs, the alliance provides technical assistance for teacher preparation programs to improve technology integration and enhance student performance. The case study begins with a description of the CIDDL Center, followed by the demographic trends of Maine’s PK-12 public school students. Next, an analysis of the UMaine program provides insights into its challenges related to these topics. Finally, the outcomes of this case study are discussed.

The administration and faculty reported ten primary barriers to (RQ1): “What are current barriers related to the UMaine Special Education Teacher Preparation Program’s ability to increase the capacity of education technology integration during the teacher preparation program?” In response to (RQ2): “What was the faculty’s base-line knowledge and capacity to leverage technology within the University of Maine College of Education and Human Development (COEHD) special education, educator preparation programs, and other related education programs?” About 80% of faculty surveyed indicated they considered themselves to have moderate to expert knowledge of the use of digital tools when conducting research/literature reviews (e.g. accessing research databases, locating resources, checking for relevance and credibility of sources). About 80% also indicated having moderate to expert knowledge of the use of technology for communications, such as the use of digital tools for communication/collaboration (e.g. social media, collegial interactions, communities of practice, etc.). Findings also indicated the following faculty needs, which are consistent with the program needs. (1). Limited understanding of how emergent technology can support students with disabilities. (2). Limited knowledge to incorporate Universal Design for Learning during courses taught by professors outside special education. (3). Limited knowledge and abilities to conduct student clinical observations at a distance using technology. In response to (RQ3): “In what ways could the special education program support sustainable strategies to increase innovative technology practices to support positive outcomes for preservice teachers and their future PK-12 students with and without disabilities?” Findings indicated the need for a clear vision at the college and program level of how different types of technology (e.g. assistive technologies, virtual reality, augmented reality and artificial intelligence) could be integrated in the coursework.

This exploratory case study examined UMaine’s Special Education Teacher Preparation Program and its collaboration with the national CIDDL as part of a Tech Alliance initiative. Researchers employed a practice-oriented design (Ebneyamini and Sadeghi Moghadam, 2018) that incorporated multiple data sources, contextual analysis and both qualitative and quantitative data to ascertain the educator preparation program needs related to equipping teachers to utilize technology. The research is limited in that it addresses only one program in the United States. However, the Tech Alliance included ten programs.

The barriers noted for research question one are common across educator preparation programs (EPPs) throughout developed nations (Kerkoff and Cloud, 2020). For example, a study by Williams et al. (2023) indicated the influence of EPP program culture in relation to supporting teacher candidates’ growth is critical as they progress through technology-infused teacher preparation. Additionally, Karchmer-Klein et al. (2021) found that specifically developing teachers technological, pedagogical and content knowledge (TPACK) was crucial, yet not enough to lead to sustained technology integration across teachers’ pedagogical practice in the long term. The authors noted that although participants in their study perceived technology as important, there was a mismatch between this belief and the actual integration of technological tools into their teaching practice (Karchmer-Klein et al., 2021). The lack of access to assessment methods using technology and the integrated use of UDL in course design are also common barriers (Graziano et al., 2023; Marino et al., 2024b; Weisberg and Dawson, 2023). Graziano and colleagues identified key pillars that EPPs should strive for: (1) technology integrated coursework throughout their EPP curriculum, (2) faculty-modeled experiences, (3) opportunities to practice with reflection and (4) fostering of technology self-efficacy amongst EPP students. Likewise, Weisberg and Dawson (2023) noted two pedagogical styles were particularly beneficial for students in EPPs: (1) leveraging technology to teach about equitable and socially just access to education for all learners and (2) adopting a critical stance toward the role of technology integration in schools through modeling digital equity pedagogy.

The integration of emerging technologies, such as artificial intelligence, in special education, as demonstrated by the University of Maine’s program, provides a transformative model that can be adopted worldwide. The necessity of comprehensive professional development and strategic collaboration is emphasized, aligning with global trends toward inclusive education and promoting equitable learning opportunities (Contrino et al., 2024; Fernández-Batanero et al., 2022). The use of assistive technologies, adaptive learning platforms and digital resources in special education is crucial for addressing the diverse learning needs of students with disabilities, making this model relevant and replicable in various educational contexts internationally. Barriers identified in the manuscript, such as limited access to technological resources, insufficient professional development and lack of administrative support, resonate with challenges faced by educational institutions globally. Addressing these challenges through strategic partnerships, as exemplified by the collaboration with the CIDDL, offers a framework for enhancing infrastructure and faculty capabilities internationally (Brennan et al., 2024; Gangone and Fenwick, 2024). Building digital literacy among teacher candidates and integrating Universal Design for Learning (UDL) principles into curricula fosters a more inclusive and technology-driven approach to special education, encouraging global educational stakeholders to prioritize similar strategies within their own contexts (Marino et al., 2024b).

The findings of this exploratory case study underscore the critical importance of integrating emerging technologies into special education teacher preparation programs. UMaine’s collaboration with CIDDL demonstrated that strategic partnerships and targeted professional development can significantly enhance the digital readiness of preservice teachers. This study noted comprehensive professional development, sustained support and the adoption of UDL principles are essential for equipping educators with the skills necessary to effectively incorporate technology into their teaching practices.