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2023 41(2): 195-210 https://doi.org/10.38140/pie.v41i2.6863

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A case for deliberate and 
accommodative design 
for blended teaching and 
learning in universities in 
developing countries

Abstract

Since the emergence and development of digital technologies, the 
internet has quickly emerged as one of the most effective platforms 
for providing teachers and learners with access to resources for 
learning and sharing material. Universities in developing countries 
have limited access to digital technologies. At the few universities 
with access to digital technologies, there is arguably a lack of 
inclusive and accommodative pedagogy. Furthermore, challenges 
range from accessibility, administration, governance, and general 
lack of resources to inclusive module design due to inequalities. 
After the emergence of digital technologies, universities have had 
the benefit of curating some of their offerings to an ‘E-Learning’ 
mode, where learners and lecturers interact digitally. The 
technology part of the ‘blend’ is crucial, as it allows teachers and 
learners to interact beyond the classroom, form online communities 
of sharing ideas and debates, and learn according to their pace and 
environment. However, developing countries seem to be battling 
the challenge of transitioning from past teaching and learning 
policies, innovation, and education strategies. Furthermore, there 
have been several reasonable criticisms of the use of technology 
in education; some are concerned with the curriculum, knowledge, 
and pedagogy. Thus, this article caters for some criticisms using 
the theoretical framework research methodology. This article 
advocates blended learning and Universal Design for Learning 
(UDL) integration at universities in developing countries by relying 
on national and international studies. The UDL principles that this 
article advocates to be included in module and course design are 
multiple means of engagement, multiple means of representation, 
and multiple means of action and expression. Universities in 
developing countries experience unique challenges ranging from 
administrative, teaching and learning, and adaptation challenges 
due to a lack of resources and untrained academics and learners 
having to navigate the online learning environment.

Keywords: epistemic structure, generics, regions, singulars, 
Technological Pedagogical Content Knowledge (TPACK), Universal 
Design for Learning (UDL) 

AUTHOR:
Khutso Mnisi1 

AFFILIATION:
1University of the Free State, 
South Africa

DOI: https://doi.org/10.38140/
pie.v41i2.6863

e-ISSN 2519-593X

Perspectives in Education

2023 41(2): 195-210

PUBLISHED:
30 June 2023

RECEIVED:
28 October 2023

ACCEPTED:
12 June 2023

https://doi.org/10.38140/pie.v41i2.6863
http://www.statssa.gov.za/?p=11341
http://documents.worldbank.org/curated/en/530481521735906534/Overcoming-Poverty-and-Inequality-in-South-Africa-An-Assessment-of-Drivers-Constraints-and-Opportunities
http://documents.worldbank.org/curated/en/530481521735906534/Overcoming-Poverty-and-Inequality-in-South-Africa-An-Assessment-of-Drivers-Constraints-and-Opportunities
http://documents.worldbank.org/curated/en/530481521735906534/Overcoming-Poverty-and-Inequality-in-South-Africa-An-Assessment-of-Drivers-Constraints-and-Opportunities
https://orcid.org/0000-0001-9069-9844
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Perspectives in Education 2023: 41(2)

1. Introduction 
Porter et al. (2014) state that higher education institutions should first define what blended 
learning means for them to arrive at the point where the adoption and implementation phases 
begin. The implications of the technology part of blended learning appear synonymous with 
integrating technology in schools. It would, therefore, be beneficial to explain what technology 
is. Technology is any aid that is designed and used for practical purposes through the 
application of systems. This article introduces blended learning involving pedagogy, the web, 
and instructional technology. To form an argument in the article, two conceptual frameworks are 
used, namely Pedagogical Content Knowledge (PCK) by Shulman (1987) and Technological 
Pedagogical Content Knowledge (TPACK) by Mishra and Koehler (2006), to emphasize that 
technology does not replace incompetent teaching, but serves as an aid to teaching and 
learning. The TPACK framework draws inspiration from the PCK framework by recognising the 
role of content and pedagogy as critical competencies of a teacher by integrating technology. 
Next, the rise and rejection of technology in developing countries are contextualised. At least 
at the basic education level, the “Gauteng Online” project launched in 2002 by the Gauteng 
provincial government was ultimately unsuccessful. The Gauteng Online project was a project 
that involved high schools in Gauteng, where the provincial government provided resources 
such as laptops, desktop computers, and tablets to the schools in the province. Although the 
project intended to digitise education and prepare learners for higher education, it failed due 
to a lack of teacher and learner training, stolen equipment, and teachers’ reluctance to adapt 
to changes (Wilson, 2013). Such failures can be seen even in higher education (Ng’ambi  
et al., 2016) 

Like most terms and theories, blended earning is a contested term. This article looks at 
adopting the definition of blended learning by Driscoll (2002), where blended learning is a 
focused mode of delivery, intended to afford learners and teachers to form communities of 
practices and engage better with the content of a module through the use of educational 
technology while addressing the learning needs of learners. Driscoll (2002) argues that acts 
of blended learning mean combining live virtual classrooms, including videos and audio 
uploaded on a virtual platform, while considering various pedagogical approaches such as 
constructivism, behaviourism, and cognitivism.

2. The international and local context of blended learning and UDL
The definitions of blended learning stated in the introduction are crucial, because they form an 
essential base for any institution (higher education or basic education) to start thinking about 
blended learning as an approach to teaching and learning. Bernstein (1999) categorises 
education institutions as singulars, implying the critical role of knowledge production and 
differentiation that education institutions should play. Young (2013) expands on the concept 
of singulars, regions, and generics by emphasising that universities and colleges should not 
drift away from this responsibility of knowledge production. He further provides arguments 
that support the importance of the community of scholars. It is, therefore, imperative for 
institutions of higher learning as singulars to distinguish themselves from regions (singulars 
conceptualised such as medicine and engineering) where the purpose is to be an interface 
between singulars and the external market (Rata, 2011). 

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Mnisi A case for deliberate and accommodative design for blended teaching

Furthermore, education institutions should distinguish themselves from generics (formed 
and distributed outside and independent of the formal pedagogic curriculum), such as the 
corporate world and edupreneuers, i.e. individuals and companies that offer education 
management services (Lacatus &Staiculescu, 2016). The above categorisation of universities 
as singulars implies that universities should base their blended learning approach on academic 
theory, experiences of both learners and academics, and appropriate contextual analysis of 
situational factors (Dee Fink, 2003). Furthermore, a blended approach should be decided in 
relation to each institution’s unique community, ensuring that the blended approach does not 
exclude others due to issues of access and training.

The recently updated principles and guidelines of Universal Design for Learning (UDL) by 
the Centre for Applied Special Technology (CAST) (2020) suggest important considerations 
of a course/module design for equitable use, access, and quality assurance in learning and 
teaching. A blended learning course/module design that is universally designed, among other 
things, to increase student engagement transcends the technological affordances and caters 
for different learning needs. In support of implementing blended learning at universities, the 
UDL principles for course design are essential components of blended learning. Furthermore, 
to address the recent concern mentioned by academics and learners (Chiu, Sun & Ismailov, 
2022) – a concern about the lack of student engagement (Strydom & Loots, 2022) during the 
‘emergency’ response, where institutions of higher learning immediately had to transition from 
offline to online learning modalities – it is important to give full consideration to situational 
factors. Barkley (2010) defines student engagement as time and effort from the learners’ 
side and resources and research-based teaching from the institution’s side. A justifiable 
approach to the exploration, adoption, and implementation must be adequately explored and 
researched to ensure accessibility, engagement, inclusivity, and other factors affecting each 
institution. This is what this article intends to report on using the guidance of the methodology 
on knowledge and knowledge production and accommodative design.

3. Methodology
This article interconnectedly uses the PCK, TPACK, and UDL frameworks in a blended 
learning course/module design. The PCK provides a basis for the importance of pedagogy, 
competence, and subject knowledge by the teacher. The TPACK framework draws from the 
PCK a significant fact that pedagogy is still an important skill expected from the teacher, 
even in the information age and era of digital technologies. The UDL instructional model 
provides an approach built on inclusivity and accessibility while connecting PCK and TPACK 
in recognising classroom learning needs. All three frameworks, when understood, have the 
potential to provide an accessible and engaging blended learning module. Moreover, in an 
attempt to address a few sociological concerns concerning the use of technology in student 
learning, this article relies on the most prominent education sociologists, such as Michael 
Young and Basil Bernstein (a concern that the modern-day curriculum blurs the distinction 
between curriculum and pedagogy). Secondly, I also refer to See et al. (2021), who argue that 
there is no link between technology and the enhancement of student learning. 

This article aims to advocate a blended learning approach focused on positive learning 
outcomes, increases student engagement, is grounded on core-curricular knowledge and 
concepts, and is inclusive and just in practice while improving the accessibility of the content. 
In expanding the argument for a blended learning approach that includes PCK, TPACK, and 
UDL, articles and two books were reviewed by using keywords such as “blended learning”, 

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“blended learning versus hybrid learning”, “blended learning in developing countries”, 
“technology for teaching”, “knowledge production in the 21st-century”, “curriculum crisis”, 
and “Universal Design for Learning”. The reviewed articles are from different databases, 
including SciELO, EBSCO, JSTOR, Google Scholar, and Scopus. The scope was then 
narrowed by excluding articles of the same arguments but by different authors and articles 
on corporate education. 

4. Important sociological critiques and a brief address
See et al. (2020) argue that the use of technology in the classroom does not necessarily 
result in better learning outcomes for learners. This article deliberately uses the term ‘learners’ 
instead of ‘students’, and ‘teacher’ instead of ‘lecturers’ to emphasise learning. See et al. (2020) 
further argue that there is no evidence that learners learn better when using technology than 
when taught in offline modes/traditional teaching methods. With the rapid changes brought 
about by technology, curriculum specialists have raised concerns related to epistemology/
pedagogy, overpopulated curricula, and the blurring of the distinction between curriculum and 
pedagogy (Bernstein, 1999; Young, 2011, 2013; Moore et al., 2006). The concern was that 
the rise in the use of technology for teaching and learning had an epistemologically incorrect 
basis and approach to knowledge production, knowledge constitution, and differentiation 
in academic disciplines. This concern also argued that there has to be a clear distinction 
between knowledge and pedagogy. The epistemic knowledge structure (the relationship 
between concepts) was almost unconsidered (Young, 2013) in integrating technology into 
teaching and learning, and there was no knowledge differentiation. As Bernstein (1999) and 
Durkheim (1976) argue, knowledge differentiation is distinct characteristics that differentiate 
between everyday/common sense knowledge and scientific knowledge (usually gained 
through institutions of learning) and sacred vs. profane knowledge. 

The second concern that is particularly important to consider for blended learning and 
designing a disruption-proof learning environment is the loss of the curriculum object (what 
learners are entitled to) (Young, 2013) and curriculum irrelevance (Gravett, 2019) due to the 
assumption that we ought to teach according to the changes brought by technology. The 
central argument in this concern is that the use of technology may result in neglecting the 
core-curricula knowledge, riding on the bandwagon of technology, and seeing technology as 
a means in itself instead of a means to an end (knowledge acquisition through deep learning). 
Scholars such as Young (2013) argue that we should not forget the primary existence of 
educational institutions. The existence of education institutions/schools and the curricula 
thereof is not to serve as a policy to address the failures of governments. Therefore, the 
supposed solution and innovation brought about by the use of technology in education should 
not serve to replace the primary existence of schools. Schools exist for and by knowledge 
(Gravett, 2019; Young, 2011). 

5. An address of the sociological concerns
The response to both concerns should be broad in a manner that will do justice to the 
concerns and pave a possible way forward ,because technology and its rapid changes will 
happen anyway. The first concern could be addressed by setting a disclaimer that the use of 
technology in blended teaching and learning does not replace disciplinary knowledge or the 
structure of knowledge. The blended learning approach realises that disciplines and epistemic 
structure are central to developing learners’ intellectual commodities/faculties, are derived 

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Mnisi A case for deliberate and accommodative design for blended teaching

from a community of scholars and knowledge specialists, and are essential in transitioning 
learners from surface to deep learning (Bernstein, 1999). Therefore, the content in the 
curriculum stays as it is unless new scientific knowledge is produced which disapproves or 
expands a particular theory. In blended learning, knowledge and experience are explicitly set 
apart; experience is used as a pedagogic resource of the teacher (Young, 2011). Pedagogy, 
in this instance, means that it is the duty of the teacher to draw on the learners’ experiences 
and relate those experiences to the content, if possible. Experiences are not the content of the 
curriculum. Therefore, knowledge differentiation and the curriculum/pedagogy distinction are 
illuminated. Here, frameworks such as the TPACK may guide teachers to focus on teaching 
and learning while technology becomes ubiquitous. At the same time, the PCK serves as a 
guide to ensure that teachers do not get on the bandwagon of technology as a replacement 
for bad teaching.

In an attempt to address the second concern above, it is imperative to deal with the issues 
of technology as a pedagogy rather than as content of the curriculum. The technology part of 
blended learning does not imply that the rapid technological changes give teaching and learning 
direction. On the contrary, the technology part of blended learning means that technology is 
used as a means to an end (knowledge acquisition), as alluded to above. Therefore, “the 
use of ICT in pedagogy will assist academics in the teaching and learning process while 
also improving their degree of professionalism” (Aminatun, 2019: 1). Furthermore, ICT tools, 
guided by the TPACK framework, must be exploited to work in favour of teachers and learners 
and to create a blended learning and teaching environment, as well as can cater for all learners 
should there be unforeseen disruptions such as a pandemic. 

6. What do we already know about the use of technology in education? 
Although scholars and educators need to be aware of these sociological critiques, it is vital 
to consider the impact of the appropriate use of technology in blended learning environments 
at universities, especially in the attempt to design ‘disruption-proof’ learning and teaching 
environments. Recently, Mafenya (2022) conducted a study and found that the COVID-19 
pandemic has presented emerging nations like South Africa with several difficulties, including 
a lack of internet connectivity, students and teachers’ access to technological platforms, 
experience with online teaching and learning methodologies, and technology acceptance. 
The shift of students to online learning in less-developed nations is hampered by reliance on 
technology and a lack of consistent internet connectivity. While these findings are important 
for this article, it would be more helpful to briefly discuss what we already know about the 
‘abilities’ of technology in learning and teaching in South Africa and other developing countries. 
To achieve this, one will have to draw from existing theoretical frameworks and evidence of 
the success, limitations, and possibilities of the use of technology. Technology makes learning 
personal, self-paced, flexible, and effortless to some degree (Florin, Radu & Croitoru, 2011). 
As Muhuro and Kang’ethe (2021: 1) argue, 

the ideals of the fourth industrial revolution are that individuals have the capacity to think 
outside the box to find solutions to existing world problems using technological tools to 
support exploration, decision making and creation of products in the different fields. 

Such ideals are important to consider, especially if our graduates are to compete globally in 
the place of work and research.

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Learners often retain more material, because technology increases their desire to be 
engaged. Technology also provides experiential learning opportunities (such as making 
concepts tangible, creating communities of practice, etc.) that can be incorporated into all 
academic topics, such as mathematics, reading, science, and social studies. Moreover, 
“utilising technology in teaching and learning is powerful and provides education options 
such as replicating the classroom practice or including guest speakers worldwide” (Maree & 
Vos, 2021: 4). Because technology is an aid, it should be selected only if it has the potential 
to increase student engagement, create meaningful experiences, or allow learners to be 
creative and innovative in their approach to learning and assessment. This also emphasises 
that teaching using technology is not a substitute for an incompetent teacher who lacks 
Pedagogical Content Knowledge (PCK). Technology expounds on the teacher’s abilities, 
meaning that technology is merely an extension of one’s ability to teach and engage learners 
in the classroom (Ramorola, 2013).

The influence of technology on every sphere of human existence is too immense, 
to the extent that it becomes impossible to avoid it. Aminatun (2019) explicitly states the 
‘abilities’ of technology in relation to traditional modes of teaching and learning. Technology 
development helps many areas of education, including teaching, learning, and research. 
For example, technology digitises information, which makes it easier for accessibility and 
alternative representation. Numerous content resources made available by technology 
support self-directed learning for both teachers and learners (Aminatum, 2019). This suggests 
that technology has substantial advantages if it is selected and appropriately used and has 
the prospect of driving innovation (because of the affordances), expedite, enhance, and 
strengthen abilities, help to engage learners, better integrate school experiences to cooperate 
procedures, generate a financial potential for future employees, and to solidify instruction and 
help educational institutions transform (Davis & Tearle, 1999; Lemke & Coughlin, 1998). It is 
evident how technology can enhance learning and teaching positively if the information and 
communication technologies are used appropriately.

7. More on the role of technology in blended learning
The use of technology to enhance knowledge production, differentiation, and epistemic 
structure is one of the most palatable benefits of ICT. These benefits are made possible 
through the appropriate use of technology, considering that technology is a tool that needs 
to be selected. The recognition of the relationship between disciplines, concepts, ideas, 
people, and ideologies is vital in student learning, knowledge production, integration, and 
interdisciplinarity of knowledge. Weller (2021) argues that interdisciplinarity makes it easier to 
find a theme that crosses disciplinary boundaries in literature, art, and history or science and 
mathematics. Studying topics thematically is one way to bring ideas together, resulting in more 
meaningful learning. This can occur by allowing learners to choose their subjects, and their 
learning is deepened when they reflect on the connections between what they are learning 
in different disciplines. All this can be advanced through the appropriate use of technology 
featured in blended learning.

Bandura’s (1986) Social Learning Theory (SLT) analyses how learners learn and transition 
from common and everyday knowledge to scientific discourse/deep learning. According 
to Bernstein (1999), there are two discourses (with different forms of knowledge) whose 
differences are important to identify and clearly distinguish to do justice to the epistemic 
structure of knowledge. One is called horizontal discourse, where the form of knowledge 
is ‘common’ and everyday knowledge to which learners already have exposure, the 

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Mnisi A case for deliberate and accommodative design for blended teaching

knowledge that learners use to form relationships amongst one another, and knowledge that 
is multilayered, local, and context-dependent. This form of knowledge sometimes depends 
on the extent of cultural capital (Bourdieu, 1986) – a theory by Pierre Bourdieu developed to 
expand the reach of critical theory. It is important to note that the horizontal discourse and 
its form of knowledge is not a focus here, as the interest is on the scientific discourse, which 
Bernstein calls the vertical discourse.

The ‘specialised’ vertical discourse is the discourse that is of interest as it contains the 
form of knowledge that learners do not often have access to. Specialised vertical knowledge 
can be contrasted with relativism and social constructivism as being “systematically 
revisable”, “emergent”. “real”, “material” and “social” (Young & Muller, 2013). This discourse 
often closes the gap in instances where learners do not have that much cultural capital. 
Some examples of the forms of knowledge under the vertical discourse are, for example, 
sociology, mathematics, psychology, physical science, chemistry, and philosophy. The 
Bernsteinian theory also maintains that there are hierarchical and segmented structures 
under the vertical discourse, but this article will not expand on them as that is not the focus 
here. How does this relate to the use of technology? Perhaps it would be helpful for one 
first to highlight that technology has the potential to illuminate the difference between forms 
of knowledge and help learners to identify the relationship between concepts (epistemic 
structure) within a discipline and even across multiple disciplines (interdisciplinarity) (Weller, 
2021). Below is an example of an activity where technology can support interdisciplinarity 
and identify the relationship between concepts. 

Learners are given a project based on the findings by the World Health Organization that 
fizzy drinks such as coke and other related products have too much acid in their contents 
than recommended (this will require them to use pH scales and other science instruments 
and virtual science laboratory [a combination of ICT and Science]). The second finding 
by an independent organization is that canned fizzy drinks are more preferred to plastic 
bottles (this will require them to know the exact dimensions, plans, and measurements 
of both containers). The learners must also bring 3D printouts of both containers (this will 
require them to use the latest technology and “design” using ICT skills. Engineering is also 
included in the design process) alongside a comprehensive scientific report of findings. 
The activity is inquiry-based and, therefore, will require learners to collaborate with other 
learners from different disciplines, and the STEM (Science, Technology, Engineering, and 
Mathematics) lesson will achieve its objectives.

The above activity requires of learners to engage with three disciplines of STEM, i.e. science 
(knowing the types of acids and contents of fizzy drinks), mathematics (measuring the 
dimensions), and technology (3D design in a computer). Moreover, the above activity is made 
interactive, collaborative, and authentic, and technology does not threaten the epistemology 
and knowledge structures of the disciplines involved. Instead, technology enhances learners’ 
learning by relating the content to their everyday experiences, and the disciplines fill the gap 
if some learners do not have the accumulated cultural capital. Furthermore, learners can 
differentiate between the vertical and horizontal knowledge forms because the distinction 
thereof is made explicit in the project. This knowledge differentiation means that learners can 
also distinguish between the fizzy drink they drink (common knowledge) and the fizzy drink 
as a concern to WHO (World Health Organization) that they must investigate its contents 
(scientific knowledge). Once more, the above activity demonstrates that in blended learning, 
ICT strengthens the learning experience and increases student engagement. Blended 
learning guided by TPACK also promotes interdisciplinarity while not threatening the individual 
subject’s epistemic structure.

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8. The Technological Pedagogical Content Knowledge (TPACK) 
framework

Having touched on the importance of 21st-century skills when addressing the sociological 
concerns above, it is important to introduce an existing framework that has gained global 
traction because of its applicability, flexibility, and theory-underpinned nature. Mishra (2006) 
developed a framework that sought to address the complex challenges of the 21st century 
by foreseeing a future where almost every object (including human beings) is connected to 
another object. The framework he developed is called the Technological, Pedagogical, and 
Content Knowledge (TPACK) and is shown in Figure 1 below for a brief discussion.

Figure 1: TPACK Framework by Mishra & Koehler (2006)

As seen from the TPACK framework in Figure 1 above, teachers ought to understand the 
different dimensions needed to solve the complexities of the 21st century. Figure 1 above is 
an extension of Shulman’s (1987) work (Pedagogical Content Knowledge), and Mishra and 
Koehler (2006) added the technology aspect to the framework to cater for the challenges of 

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Mnisi A case for deliberate and accommodative design for blended teaching

the 21st century and ensure that education does not suffer curriculum irrelevance (Gravett, 
2019). Educators are different from other professions, not only because they possess scientific 
and theoretical content, but because they understand knowledge structures and organization. 
Since 2006, the TPACK has been critiqued and endorsed by the global education community, 
private organisations, the corporate sector, and other interested parties, and even featured 
prominently in technology and educator training studies (Chai, Koh & Tsai, 2013; Voogt 
et al., 2012). The TPACK highlights knowledge of technology (TK) about specific tools, 
software, and hardware, pedagogy (PK), how to manage, instruct and guide learners, and 
content (CK), about the discipline or subject matter. The relationship between TPK, PCK, 
and TCK is known as TPACK, and it analyses the intricate connections between all the 
component knowledge areas. Notably, these are part of the multidimensional framework in 
which educators function (Koehler & Mishra, 2008).

Drawing from the TPACK framework, technology equally has a vital role in blended 
learning. The role of technology in blended learning should be to enhance learners’ learning. 
However, as alluded to before, technology does not replace bad teaching/teachers. This 
assertion means teachers should have relevant Pedagogical Content Knowledge (PCK). 
According to Shulman (1986), Knowledge of the content most important to its flexibility to be 
taught is known as Pedagogical Content Knowledge. The pedagogy, strategies, and teaching 
and learning techniques are influenced by the quality and quantity of the teacher’s content on 
the subject. Regarding content knowledge, it is known how teacher expertise affects learners’ 
performance, and studies have already been conducted that have emphasised pedagogical 
or content knowledge. According to Hill, Rowan and Ball (2005), Baumert et al. (2010), and 
Voss, Kunter and Baumert (2011), pedagogical content knowledge has more impact on 
student achievement than content knowledge only. As mentioned, an accommodative and 
inclusive design is needed in a course/module design; hence, the UDL instructional model 
becomes important to consider.

9. The Universal Design for Learning (UDL) framework
UDL is a direct product of the Center for Applied Special Technology (CAST) – an organisation 
founded in 1984 to “transform education design and practice until learning has no limits” 
(CAST, 2020: n.p.). Although the term UDL was adopted from universal design (UD) in the 
field of architecture (Dewi, Dalimunthe & Faadhil, 2018), UDL was created in response to 
educational and neuroscience studies, as well as the expanding importance of digital 
technology (Rose, Mayer & Gordon, 2014). Studies show that a UDL-based online course 
that is effective from a cognitive perspective frequently features relevant and valuable content, 
prompt and insightful teacher feedback, unambiguous instructions, course resources, and 
assignment boundaries (Chiu & Mok, 2017; Rogers-Shaw, Carr-Chellman & Choi, 2017; Chiu, 
Jong & Mok, 2020; Chiu & Lim, 2020).

There is significant growth in neurology, particularly research that intends to broaden 
understanding of how the human brain operates and what measures teachers need to take 
to cater for learners with disabilities in the digital/information age (Hartmann, 2015). Hence, 
Universal Design for Learning (UDL) is one of the necessary frameworks that guide the 
implementation of blended learning at universities. Learners have diverse characteristics, 
which might be seen from the difference in the capacity of intelligence, physical condition, 
senses, social status, ethnicity, culture, and gender (Ormrod, 2008). The diverse characteristics 
of learners call for a design of a blended learning approach, courses, and modules that will 

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include rather than exclude – “a barrier-free design” (Areekkuzhiyil, 2022:5). While using UDL 
to address access, presentation, and expression issues, it is crucial to note that UDL is not a 
framework only for the disabled (McKenzie & Dalton, 2020). Instead, it is a framework designed 
to cater for all learners, including those who might necessarily have learning disabilities. Some 
prefer to listen than read; some prefer to watch than read or listen. The following section will 
briefly discuss the UDL principles and their guidelines, which I think are essential to consider 
in a blended learning mode.

Firstly, it is significant to note that UDL should not be a one-size-fits-all approach. Each 
education institution has unique challenges ranging from administration, teaching and 
learning, research, institutional culture, and financial difficulties. The first UDL principle is 
multiple means of representation. This principle and its guidelines (perception, language 
and symbols, and comprehension) mean that content (text, pictures, videos, and other 
graphics) and assessments should be provided in a manner that will be adjustable by the 
user (CAST, 2020). Secondly, this principle suggests that if, for example, a module has a 
video, a transcript should be provided; if a module has a PDF document, a Word document 
should be provided. Concisely, every content should have an alternative format to increase 
student engagement, processing, and application (CAST, 2014). On the use of language and 
symbols, UDL recommends that “an important instructional strategy is to ensure that alternative 
representations are provided not only for accessibility but for clarity and comprehensibility 
across all learners” (CAST, 2020: n.p.). Instead of only providing a transcript for a video/
audio and PDF or Word documents, several universities have integrated accessibility tools in 
their Learning Management Systems (LMS), such as Blackboard Ally, for alternative formats 
(Lesley University, 2023).

Multiple means of action and expression, the second principle of UDL, means 
modules must provide materials with which learners can interact. Furthermore, this principle 
suggests that a “workbook or textbook in a print format provides limited means of navigation 
(e.g. turning pages)” (CAST, 2020: n.p.). Therefore, “it is important to provide alternative 
modalities for expression, both to the level the playing field among learners and to allow the 
learner to appropriately (or easily) express knowledge, ideas, and concepts in the learning 
environment” (CAST, 2020: n.p.; Ralabate, 2011). Moreover, teachers ought to use various 
media to communicate the content of the module to allow learners with preferences and 
learning difficulties an opportunity to participate equally in the learning process. Furthermore, 
depending on the Learning Management System (LMS) used at an institution, engagement 
and collaborative tools must be used for learners to share ideas, review one another’s 
work, and collaboratively work. In short, instructors must use different models with different 
approaches, skills, and strategies to demonstrate the same outcomes.

The sudden drop in student engagement (Strydom & Loots, 2022) is not surprising, 
because developing countries were not ready for such an immediate and sudden change 
in pedagogy and approach. Multiple means of engagement, as the third principle of UDL, 
becomes very important in this regard. Biney (2018: 43) argues that interest plays an essential 
role in student learning and ultimately in student engagement, and “if teaching is done when 
the learner is unwilling, this would amount to ‘intellectual rape’”. This emphasis on interest by 
Biney correlates to engagement, meaning that learners have an intellectual ‘right’ to engage 
in the learning process willingly and unforced and fully convicted that the learning process is 

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Mnisi A case for deliberate and accommodative design for blended teaching

worthy, has a purpose, and is valuable (Fink, 2003). Interest in learning should be recruited 
through, for example, autonomous, relevant, and authentic learning tasks. Learners should 
know why they are engaged in learning and how it is relevant to them in the immediate future, 
if not in the long run. Threats and consequences of failing should not be used as the basis of 
why it is vital for learners to do a specific task.

It is crucial to briefly outline a way forward to consolidate the argument for an 
accommodative design in blended learning. The PCK, TPACK, and UDL must be used 
connectedly by instructional designers and teachers. Figure 2 below demonstrates such an 
interconnected module/course design focused on positive learning outcomes. Important to 
note about the illustration below is that each framework requires to be understood for its 
suggestions and implications to be correctly implemented. For example, teachers need to be 
trained on the Learning Management System (LMS), collaboration tools, assessment tools, 
etc., to be guided by the TPACK. Teachers also need to be trained beyond technology, i.e. to 
understand both the content and the pedagogy properly in order to understand how UDL can 
be incorporated into their teaching.

implications to be correctly implemented. For example, teachers need to be trained on the 

Learning Management System (LMS), collaboration tools, assessment tools, etc., to be guided 

by the TPACK. Teachers also need to be trained beyond technology, i.e. to understand both the 

content and the pedagogy properly in order to understand how UDL can be incorporated into their 

teaching. 

 

 

Figure 2: Complementary roles of the TPACK, PCK, and UDL frameworks. 

Conclusion 

In conclusion, it is recommended that universities deliberately explore the theory behind the 

selection and use of technology before developing and implementing teaching and learning 

policies. As mentioned in the first part of this article, universities, as singulars, are the ‘thinktanks’ 

of society and the developers of new knowledge (Edvardsson & Durst, 2017). Furthermore, higher 

education institutions in developing countries should prioritize the training of academics, support 

Blended 
learning 

focused on 
positive 

outcomes

PCK:
1. Pedagogy

2. knowledge
3.knowledge differentiation

4. Curriculum relevance

TPACK:
1. Technology integrates 

concepts.
2. Ubiquitious role while the 
teacher focuses on teaching.

3. Supports the UDL principles.
4. Guides the use of learning 

technologies and LMSs

UDL - access through:
1. Representation

2. Engagement
3. Expression

4. Regulates the use of 
technology in teaching and 

learning.
5. Just and inclusive pedagogy.

Figure 2: Complementary roles of the TPACK, PCK, and UDL frameworks.

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Perspectives in Education 2023: 41(2)

10. Conclusion
In conclusion, it is recommended that universities deliberately explore the theory behind the 
selection and use of technology before developing and implementing teaching and learning 
policies. As mentioned in the first part of this article, universities, as singulars, are the ‘thinktanks’ 
of society and the developers of new knowledge (Edvardsson & Durst, 2017). Furthermore, 
higher education institutions in developing countries should prioritise the training of academics, 
support staff, and learners to realize the full potential of technology in learning and teaching. 
This training for staff and students has to range from the Learning Management System (LMS) 
of the university to applications and other third-party tools for which the university might have 
licences (Mpungose, 2020). Academics should understand the theory behind the selection 
and use of specific technologies. It is equally essential for higher education institutions to 
design training focusing on curriculum and pedagogy issues, as technology does not replace 
a poorly designed curriculum, nor does it substitute bad teaching.

To cater for all learners, including those with learning disabilities, UDL should not be 
understood and implemented as a one-size-fits-all approach. Some universities have used 
UDL to build courses and modules that follow some of the UDL principles. However, the lack 
of resources and skills continues to impede these attempts. Therefore, universities should 
customize UDL according to their unique needs. Moreover, access has different implications 
in various contexts. How access is defined in developed countries, where inequality is not the 
biggest in the world, differs from how developing countries define it. In developed societies, 
access may be spoken about only when learners with learning difficulties have issues 
accessing certain content. However, in developing societies, access also consists of the 
disadvantaged socio-economic backgrounds from which most learners come, as presented in 
the 2022 report by Strydom and Loots.

The practical recommendations that can be given are that (1) universities should not 
even consider returning to some of their old teaching and learning methods (overreliance 
on offline-based teaching), because COVID-19 demonstrated how rapidly everything can 
change. (2) Extensive training on digital technologies for academics, support staff members, 
and learners should be prioritised. (3) Universities should not ignore their primary reason 
for existing knowledge production and graduate learners who will contribute positively to 
the world. (4) Inclusive/accommodative design is still needed at universities in developing 
countries. (5) Inclusive and instructional pedagogy frameworks such as the Universal Design 
for Learning (UDL) should be thoroughly investigated by universities to customise these 
frameworks according to their contexts. In designing our courses and modules, we ought to 
understand that

institutions of learning [need] to prepare learners for rapid economic, environmental, 
and social changes, for jobs that have not yet been created, for technologies that have 
not yet been invented, and to solve social problems that have not yet been anticipated 
(OECD, 2018). 

We also need to understand that the way in which our modules and courses are designed 
directly impacts the students’ success.

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