Journal of Learning Development in Higher Education         ISSN: 1759-667X 

Special Issue 22: Compendium of Innovative Practice    October 2021 
________________________________________________________________________ 

Moving hands-on anatomy teaching online: a reflection on 
creative solutions 
 

Claire Timmins  
University of Strathclyde, UK 
 

 

Keywords: anatomy; active learning; creativity; Minecraft; Covid-19. 

 

 

The challenge 
 

As part of any UK-based pre-registration Speech and Language Therapy programme, all 

students are expected to gain knowledge and understanding of general anatomy and 

physiology, along with specifics related to speech and language production and 

processing (RCSLT, 2021). Although immensely important, it is often a challenging subject 

due to both the amount of information to learn and the methods of teaching (Singh et al., 

2019). While traditionally the teaching of anatomy is presented as a set of lectures and 

rote learning by students, there have been increased attempts to innovate within this area, 

particularly in Allied Health subjects such as Occupational Health and Speech and 

Language Therapy teaching where there is less access to laboratories and cadavers. This 

has included the use of creative, active, and flipped learning techniques designed to 

engage and increase positive learning responses from students (Skinder-Meredith, 2010; 

Martin, Bessell and Scholten, 2014; Zimanyi, Emtage and Megaw, 2019). 

 

On the BSc Hons Speech and Language Pathology programme at the University of 

Strathclyde, anatomy and physiology teaching has recently focused on the use of active 

learning techniques to promote deep learning of complex material. Active learning 

strategies are positively received by anatomy students, improving performance and 

attitudes (Entezari and Javdan, 2016), and are shown to reduce the gap between non-

academic and academic student outcomes (Zimanyi, Emtage and Megaw, 2019). The 

particular active learning strategy used in this case was the creation of paper and clay 

anatomical models to help students to understand the complex structures of the brain, 

head, and larynx. Students create clay models of the tongue and paper models of the 



Timmins   Moving hands-on anatomy teaching online:  
   a reflection on creative solutions 
 

 
Journal of Learning Development in Higher Education, Issue 22: Compendium October 2021  2 
 

larynx, and work with mannequin heads and felt, to learn about facial muscles. This 

creative approach to learning is positively received, and student evaluations often highlight 

how much they learn from these activities and how surprised they are to actually enjoy 

studying anatomy.  

 

With the move to full-time online learning in 2020-21, the challenge was how to maintain 

these important active learning tasks and ensure the same level of engagement and 

learning as in in-person teaching. 

 

 

The response  
 

Prior to the start of the teaching semester, all 44 first-year students enrolled in the 

Anatomy and Physiology module were emailed a ‘crafting shopping list’ that suggested 

different items to purchase if they wished to take part in any anatomy craft tasks (scissors, 

glue, cardboard, clay). Importantly, students were assured that this was not compulsory 

and other means of learning would be provided if they should not or could not purchase 

the materials. During the initial weeks of teaching, students were tasked to create their 

models before each class and add to a PADLET board (padlet.com) to share with fellow 

students and teaching staff.  

 

This allowed for students to work in their own time but to still receive individual feedback. 

While this was a good way to engage the students, I wanted to investigate digital tools that 

could provide a way to craft models as a group, and allow some real-time interaction. 

Computer games have increasingly been used in the teaching of anatomy and have been 

demonstrated to result in significant improvements in student performance (Moro, Phelps 

and Stromberga, 2020). This led to the introduction of Minecraft: Education Edition as a 

part of our online classes. Minecraft is a multiplayer building game (Mojang, 2021) where 

users engage in a virtual 3D environment. The Education platform is a game-based 

learning platform (Mojang, 2021) and has been used across the globe for teaching many 

different topics (Nebel, Schneider and Rey, 2016).  

 

Prior to Anatomy classes a Minecraft world was created. Students were then invited to join 

the Minecraft world at the end of the scheduled class (as an additional learning 



Timmins   Moving hands-on anatomy teaching online:  
   a reflection on creative solutions 
 

 
Journal of Learning Development in Higher Education, Issue 22: Compendium October 2021  3 
 

experience). Once in the Minecraft world, each student was directed to build different 

anatomical models (see Figure 1). Not only did this allow students to create something 

digitally while learning about relative size and structure of the intended model, it also 

allowed for a different style of staff-student interaction.  

 

Figure 1. Image of student created skulls in Minecraft Education Edition. 

 

 

During these sessions, the instructor could walk around the models and interact with these 

by adding signs next to the model (see Figure 2). A chat function was also provided 

allowing for group feedback throughout the session.  

 

Figure 2. Image of signs created in Minecraft Education Edition showing interaction 

between student and tutor. 

 

 

While not all students engaged with this task, the Minecraft: Education Edition platform 

appears to be a suitable online alternative for engaging students with creative tasks such 

as building anatomical models. Student feedback via module evaluation was very positive 

in response to this activity and those that engaged were highly motivated (continuing to 

engage with the platform beyond allocated class time). No specific feedback was 



Timmins   Moving hands-on anatomy teaching online:  
   a reflection on creative solutions 
 

 
Journal of Learning Development in Higher Education, Issue 22: Compendium October 2021  4 
 

requested regarding the use of Minecraft in this instance, but a scoping project is planned 

to investigate how to establish and encourage engagement with this platform in the future. 

 

There were a few challenges involved in this approach. While running Minecraft: Education 

Edition students found their laptops unable to run any other programmes; this meant that 

tutor communication with students trying to access the platform was not entirely 

successful. Therefore along with Wi-Fi constraints, not all students were able to engage 

with the platform. Once the students had successfully entered the world, a small amount of 

training was required for those new to Minecraft. 

 

 

Recommendations 
 

Both PADLET and Minecraft: Education Edition allowed students to continue to engage 

with the creative Anatomy tasks throughout the online delivery of 2020-21 teaching. 

Although not all students completed the tasks, more students could access PADLET due 

to its ease of accessibility (open continually), being embedded within the virtual learning 

environment, and requiring minimal digital skills (photographing and uploading). Minecraft: 

Education Edition was very successful with students who already knew the platform and 

those keen to engage with digital learning tools. However, it did appear to be a challenge 

for those not so familiar and less motivated to engage. If considering Minecraft: Education 

Edition for future teaching activities, plans for training and supporting access to the 

platform should be developed along with attempts to address the challenge of motivating 

students who are not interested in the use of digital learning tools (Gabriel, Hütthaler and 

Nader, 2019). 

 

 

References 
 

Entezari, M. and Javdan, M. (2016) ‘Active learning and flipped classroom, hand in hand 

approach to improve students learning in human anatomy and physiology’, 

International Journal of Higher Education, 5(4), pp.222-231. 

http://doi.org/10.5430/ijhe.v5n4p222.  

 

http://doi.org/10.5430/ijhe.v5n4p222


Timmins   Moving hands-on anatomy teaching online:  
   a reflection on creative solutions 
 

 
Journal of Learning Development in Higher Education, Issue 22: Compendium October 2021  5 
 

Gabriel, S., Hütthaler, M. and Nader, M. (2019). Minecraft for teaching craft, design and 

technology in primary school. Reading: Academic Conferences International 

Limited. http://doi.org/10.34190/GBL.19.026.  

 

Martin, K., Bessell, N. and Scholten, I. (2014) ‘The perceived importance of anatomy and 

neuroanatomy in the practice of speech-language pathology’, Anatomical Sciences 

Education, 7(1), pp.28-37. http://doi.org/10.1002/ase.1377.  

 

Mojang (2021) Minecraft: Education Edition. Available at: https://education.minecraft.net 

(Accessed: June 10, 2021). 

 

Moro, C., Phelps, C. and Stromberga, Z. (2020) ‘Utilizing serious games for physiology 

and anatomy learning and revision’, Advanced Physical Education, 44, pp.505-507. 

https://doi.org/10.1152/advan.00074.2020.  

 

Nebel, S., Schneider, S. and Daniel Rey, G. (2016) ‘Mining learning and crafting scientific 

experiments: a literature review on the use of Minecraft in education and 

research’, Journal of Educational Technology & Society, 19(2), pp.355-366. 

Available at: https://www.jstor.org/stable/jeductechsoci.19.2.355 (Accessed: 10 June 

2021). 

 

RCSLT (2021) Curriculum guidance for the pre-registration education of speech and language 

therapists. Available at: https://www.rcslt.org/wp-content/uploads/2020/08/RCSLT-

Curriculum-Guidance-March2021.pdf (Accessed: 10 June 2021). 

 

Singh, K., Bharatha, A., Sa, B., Adams, O. P. and Majumder, M. A. A. (2019) ‘Teaching 

anatomy using an active and engaging learning strategy’, BMC Medical 

Education, 19(149). https://doi.org/10.1186/s12909-019-1590-2 

 

Skinder-Meredith, A. E. (2014) ‘Innovative activities for teaching anatomy of speech 

production’, Anatomical Sciences Education, 3(5), pp.234-243. 

https://doi.org/10.1002/ase.173.  

 

http://doi.org/10.34190/GBL.19.026
http://doi.org/10.1002/ase.1377
https://education.minecraft.net/
https://doi.org/10.1152/advan.00074.2020
https://www.jstor.org/stable/jeductechsoci.19.2.355
https://www.rcslt.org/wp-content/uploads/2020/08/RCSLT-Curriculum-Guidance-March2021.pdf
https://www.rcslt.org/wp-content/uploads/2020/08/RCSLT-Curriculum-Guidance-March2021.pdf
https://doi.org/10.1186/s12909-019-1590-2
https://doi.org/10.1002/ase.173


Timmins   Moving hands-on anatomy teaching online:  
   a reflection on creative solutions 
 

 
Journal of Learning Development in Higher Education, Issue 22: Compendium October 2021  6 
 

Zimanyi, M. A., Emtage, N. F. and Megaw, P. (2019) ‘Redesigning first year anatomy and 

physiology subjects for allied health students: impact of active learning strategies’, 

International Journal of Innovation in Science and Mathematics Education, 27(8), 

pp.36-48. http://doi.org/10.30722/IJISME.27.08.004   

 

 

Author details 
 

Claire Timmins is a Senior Teaching Fellow in Speech and Language Pathology. She is a 

Senior Fellow of the Higher Education Academy and currently Director of Teaching and 

Learning for the School of Psychological Sciences and Health at the University of 

Strathclyde. 

 

 

http://doi.org/10.30722/IJISME.27.08.004

	Moving hands-on anatomy teaching online: a reflection on creative solutions
	The challenge
	The response
	Recommendations
	References
	Author details