https://doi.org/10.14528/snr.2020.54.2.2991
2020. Obzornik zdravstvene nege, 54(2), pp. 133–152.
ABSTRACT
Introduction: With new generations of students entering the educational system and calling for novel adult-
learning approaches, such as gamification, traditional didactics seem to be diminishing in importance. The 
aim of this paper is to introduce gamification as a novel concept in adult learning and to present its impact 
on nursing education.
Methods: Through a combination of 2dSearch, Publish or Perish and PubMed2XL applications and the set 
criteria, we used the Google Scholar and Medline / PubMed search engines to compile, analyse, and synthesise 
studies related to gamification in correlation with the educational process in the field of nursing. To assess the 
level of methodological quality of research, we used the Mixed Methods Appraisal Tool (MMAT). 
Results: The final analysis included nine studies related to gamification in nursing course units. Most often, 
game elements in the form of badges and feedback were included. Most research studies reported a positive 
impact of gamification on nursing students in the form of increased motivation and engagement, with only 
one survey reporting a negative impact in the form of inappropriateness and inefficiency. The evaluation of 
the included studies according to the MMAT tool showed a medium level of methodological quality.
Discussion and conclusion: Gamification is a relatively new concept in nursing education and represents the 
potential for a more advanced way of conveying information. In the future, research should be carried out 
to clarify the concept of gamification and examine the possibilities of its implementation in the educational 
environment in Slovenia.
IZVLEČEK
Uvod: V sodobnem času tradicionalna didaktika izgublja svoj pomen, saj v izobraževalni sistem vstopajo 
nove generacije študentov, ki zahtevajo novejše andragoške pristope, kakršna je na primer igrifikacija. Namen 
članka je predstaviti igrifikacijo kot nov andragoški koncept in njen vpliv na izobraževanje v zdravstveni negi.
Metode: S kombinacijo aplikacij 2dSearch, Publish or Perish in PubMed2XL ter zastavljenimi kriteriji smo z 
iskalnikoma Google Scholar in Medline / PubMed izvedli iskanje, analizo in sintezo raziskav, ki se nanašajo 
na igrifikacijo v povezavi z učnim procesom v zdravstveni negi. Z orodjem Mixed Methods Appraisal Tool 
(MMAT) je bila izvedena ocena stopnje metodološke kakovosti raziskav. 
Rezultati: V končno analizo je bilo vključenih devet raziskav, ki so se nanašale na igrifikacijo v učnih enotah 
zdravstvene nege. Najpogosteje so bili vključeni elementi igre v obliki značk in povratnih informacij. Večina 
raziskav ugotavlja, da igrifikacija pozitivno vpliva na študente zdravstvene nege v obliki dviga motivacije in 
sodelovanja, le ena raziskava poroča o negativnih vplivih v obliki neprimernosti in neučinkovitosti. Ocena 
vključenih raziskav po orodju MMAT je prikazala srednjo stopnjo metodološke kakovosti.
Diskusija in zaključek: Igrifikacija je relativno nov koncept na področju učnih enot v zdravstveni negi 
in predstavlja potencial za naprednejši način posredovanja informacij. V prihodnosti bi bilo treba izvesti 
raziskave, ki bi razjasnile koncept in preverile možnosti implementacije igrifikacije v učno okolje v Sloveniji.
Key words: adult education; 
course units; gamification; 
game elements; nursing
Ključne besede: andragogika; 
učne enote; igrifikacija; 
elementi iger; zdravstvena nega
1
 University of Maribor, Faculty 
of Health Sciences, Žitna ulica 
15, 2000 Maribor, Slovenia
2
 University of Maribor, Faculty 
of Medicine, Taborska ulica 8, 
2000 Maribor, Slovenia
3
 University of Maribor, Faculty 
of Electrical Engineering and 
Computer Science, Koroška 
cesta 46, 2000 Maribor, 
Slovenia
* Corresponding author / 
Korespondenčni avtor:  
nino.fijacko@um.si
Review article / Pregledni znanstveni članek
Gamification in nursing: a literature review
Igrifikacija v zdravstveni negi: pregled literature
Nino Fijačko
1, *
, Lucija Gosak
1
, Nika Debeljak
1
, Pavel Skok
2
, Gregor Štiglic
1, 3
, Leona Cilar
1
Received / Prejeto: 9. 8. 2019 
Accepted / Sprejeto: 18. 5. 2020

134 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
Introduction
Despite the fact that the world has entered an era 
of new technological advances, the education system 
seems to be lagging behind (Cohen, 2011; Baker, et 
al., 2012; de Sousa Borges, et al., 2014; Dicheva, et al., 
2015). There is therefore an urgent need for reforms 
and new challenges in contemporary adult education. 
The development of technology has also brought about 
the development of new technologically supported 
approaches in education. In this context, gamification 
presents a particularly novel and appealing approach. 
Gamification or game-based learning is a topical and 
relatively new concept which refers to the use of game 
elements in various real-world activities (Deterding, et 
al., 2011; Kim, 2015; Sardi, et al., 2017). The concept 
was mentioned by Nick Pelling as far back as 2002, but 
it was not before 2010 that the term entered general 
use. Gamification refers to a specific process of 
thinking through games and game mechanisms with 
the aim of actively engaging individuals in problem 
solving activities (Zichermann & Cunningham, 
2011). Gamification is a powerful tool, as it attracts 
an individual's attention and also significantly affects 
one's behaviour and engagement in activities.
Gamification refers to the use of game elements 
(Khaleel, et al., 2016) which allow the user to 
perform the task more efficiently and make it more 
enjoyable (El-Hilly, et al., 2016). It incorporates 
game elements into non-game-related situations in 
order to improve student engagement and convey the 
relevant knowledge (Des Armier Jr., et al., 2016). The 
presence of technology in lesson plans has led to a 
shift from traditional lectures to interactive learning 
environments. These represent a platform for the 
development of the learning process by incorporating 
game elements which attract users' attention, increase 
their motivation to achieve goals, as well as promote 
competitiveness, effective teamwork, and improve 
interpersonal communication (Boskic & Hu, 2015). 
Dicheva and colleagues (2015) find that the game 
elements most commonly used in the educational 
context are visual status, social engagement, freedom 
of choice, and quick feedback. To date, only a few 
studies have dealt with the principles of goals and 
personalisation. Subhash and Cudney (2018) find that 
the game elements most commonly used are points, 
badges, and leaderboards. Digital badges are a common 
element of educational games, and they also serve as an 
innovative approach to gamification in nursing, as they 
incorporate social interactions. As more advanced types 
of praise or evidence, digital badges serve to convey 
information on students' learning achievements, skills, 
and competences (White & Shellenbarger, 2018). 
In adult education, gamification takes users back to 
their childhoods when they used games and play to learn 
and gain various skills. The tendency of being interested 
in innovation and actively adapting and building one's 
skills and knowledge is not limited only to childhood, but 
forms an important part of human nature itself, which, 
in turn, promotes efficiency , perseverance and wellbeing 
throughout one's lifetime (Ryan & Deci, 2000; Lespiau 
& Tricot, 2019). Gamification can therefore serve as 
a tool for assessing one's cognitive (understanding, 
perception, cognition), socio-emotional (internal and 
external motivation, self-efficacy, ambition, social 
comparison) and psychomotor skills within different 
areas of nursing. Research (Banfield & Wilkerson, 2014; 
Morillas Barrio, et al, 2016; Dankbaar, 2017) shows that 
through the use of gamified education, one's intrinsic 
motivation develops more strongly than one's extrinsic 
motivation. Alsawaier (2018) also states that the use 
of gamification in the educational process could help 
motivate and engage students as it would contribute to 
changing their attitudes towards learning.  
The use of gamification in education shows great 
potential as it improves its quality , cost-effectiveness, and 
flexibility (Gentry, et al., 2019). It also allows students 
to choose the time and pace of their own learning 
process (Brull & Finlayson, 2016). Numerous studies 
(Brull & Finlayson, 2016; Hamari, 2016; Sanchez, et 
al., 2020) report the use of gamification at all levels of 
the educational process (from elementary to university 
levels). Most students from the new generations now 
studying nursing (Skiba, et al., 2016) have grown up 
using completely different modern technology than 
previous generations (Sackmann & Winkler, 2013). 
In teaching these students new knowledge and skills, 
traditional approaches (e.g., lectures with the help of 
a PowerPoint presentation) are no longer sufficient 
(Boskic & Hu, 2015). Instead, the educational process 
aimed at younger generations must incorporate novel 
adult-learning approaches. Research shows (Simões, 
et al., 2013; Turan, et al., 2016) that students who use 
gamification show higher academic achievement than 
those who use traditional learning approaches. The 
same has also been reported for the field of nursing 
(Kinder & Kurz, 2018). Gamification creates a safe 
environment in which nursing students can engage in 
patient care without potential negative consequences 
for the patient. Cheong and colleagues (2014) find that 
students hold a positive attitude toward gamification. 
In scientific research, the theoretical framework is 
of vital importance as it makes research work relevant 
and credible (Lederman & Lederman, 2015). As a 
philosophy of education, experiential education (i.e., 
the theory of experiential learning) represents the 
fundamental theoretical framework for gamification 
as an educational approach which connects one's 
cognitive, socio-emotional and psychomotor skills 
into a meaningful whole. The best results are achieved 
using two or more philosophies of education (Banfield 
& Wilkerson, 2014). Despite these technologically 
advanced times, contemporary traditional didactics 
are still rooted in "teacher-centred teaching", i.e. 
lectures during which students are required to sit, 

135 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
listen and take notes, and which mostly take place 
without any personal interaction between the student 
and the teacher. On the other hand, the educational 
approach based on experiential education is exactly 
the opposite: students are placed at the centre of the 
educational process, which is therefore referred to as 
"student-centred teaching" (Balliu & Belshi, 2017). 
Possessing solid knowledge of the theories of learning 
allows the teacher to experiment and introduce various 
learning approaches, such as serious games and 
gamification-based learning (Uskov, et al., 2016). In 
theory, learning supported by gamification represents 
an approach aimed at changing user behaviour. This 
theory also emphasises that a change in user behaviour 
can occur when there is a quality connection between 
the lesson and its outcomes, and when the learning 
process is directly influenced. The goal of gamification 
in the learning process is not to replace lessons, but to 
supplement and improve them (Landers, 2014).
Conklin (2005) draws attention to the categorisation 
of educational objectives according to Bloom's 
taxonomy and its hierarchical structure, which 
encourages students to improve their cognitive skills 
and attain a higher-level of abstract knowledge with 
regard to specific learning objectives (Anderson, et 
al., 2009; Adams, 2015). Bloom's taxonomy comprises 
three domains: the cognitive, affective (emotional), 
and psychomotor domains (Bloom, 1956). Ben-Zvi 
(2010) proposes Bloom's taxonomy as a framework for 
evaluating the learning outcomes of the educational 
objectives achieved through experiential learning. 
In this context, the learning outcomes facilitate the 
assessment of the achieved educational objectives. 
Bloom's taxonomy is a model which can be used to 
report learning outcomes (Bloom, 1956). According to 
Alsawaier (2018), the inclusion of gamification in the 
learning process has a significant impact on student 
achievement. In addition to Bloom's taxonomy, some 
scholars also rely on other classifications of educational 
objectives, for example, the classification by Robert J. 
Marzan (Rutar Ilc, 2003). However, more research needs 
to be conducted to better understand the possibilities of 
integrating gamification into nursing curricula based 
on the selected taxonomy (Gallegos, et al., 2017).
According to our data, gamification as a more 
advanced approach in adult learning has not yet been 
included into any course units in the field of nursing 
in Slovenia. With this literature review of international 
research studies, our aim is to present the potential use 
of gamification in various course units in the field of 
nursing in Slovenia.
Aims and objectives 
The overall objective of this review article is to 
present gamification as a novel concept in the field 
of nursing education. The specific aims of this review 
article are as follows: 
– to report the advantages and drawbacks of including 
gamification in the educational process in nursing;
– to present the effect of gamification on the cognitive, 
socio-emotional and psychomotor characteristics of 
nursing students;
– to assess the level of methodological quality of the 
studies which have applied gamification in the 
educational process in the field of nursing.
The research question was formulated on the basis 
of the PIOST guidelines (Population, Intervention, 
Output, Study, Time) (Polit & Beck, 2018) and reads: 
What is the impact of integrating gamification into 
nursing modules (I) on the cognitive, socio-emotional 
and psychomotor characteristics (O) of nursing 
students (P)? We included research articles in English 
(S) published after 2012 (T). 
Method
In the first stage of our study, we applied the 
descriptive research method and used search strings 
along with inclusion and exclusion criteria to compile 
the corpus of relevant literature. When creating the 
search string, we used the 2dSearch application for a 
better visualisation of search results, and the Publish 
or Perish (Version 7) and PubMed2XL (Version 2.01) 
applications for data retrieval. In the second stage of 
the study, the literature selected for further analysis was 
critically evaluated using the Mixed Methods Appraisal 
Tool (MMAT) tool, Version 8  (Hong, et al., 2018). 
Review methods
Literature screening was conducted in July 2019. 
We used the Google Scholar and Medline / PubMed 
search engines which provide free access, allowing 
for repeatability of this literature review, along with 
a sufficient number of databases (e.g., PubMed / 
Medline) for the topic searched. In the process of 
literature screening, we created a search string in 
English and included the Boolean operators AND and 
OR. The final search string was: ("elements of game" 
OR "game mechanics" OR "system design elements") 
AND ("nursing modules" OR "nursing education" OR 
"nursing teaching" OR "nursing courses"). W e used the 
2dSearch tool to create the search string for a better 
visualisation of the search hits.
To retrieve data from the Medline / PubMed 
search engine, we used the PubMed2XL application 
(Version 2.01) (Isaak, 2016), and the Publish or 
Perish application (Version 7) for the results from 
the Google Scholar search engine (Harzing, 2007, 
2019). The spreadsheet database was created using MS 
Excel 2016. Following the initial filtering, two authors 
analysed all the search hits at three levels, namely by 
title, abstract and full text using the so-called dummy 
coding (Bech & Gyrd-Hansen, 2005), where "1" means 
that the hit qualifies for the next level, and "0" means 

136 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
that the search hit is excluded at this level. The search 
hit, i.e., the study which received all three points in 
this screening, was included in the final analysis. 
Results of the review
Using the search string, we retrieved a total of 
193 search hits (Medline / PubMed, n = 15; Google 
Scholar, n = 178). We included 9 search hits or studies 
in the final analysis (Figure 1). To show the impact 
factors (IF) of the research studies included, we used 
the Journal Citation Reports database from 2018, 
available on the Co-operative Online Bibliographic 
System and Services. 
Quality assessment of the review and the description 
of data processing
In the final step, three authors individually appraised 
the included studies using the MMAT tool, which had 
already been used in review studies and had proven 
appropriate for appraising the methodological quality 
of research. In doing so, we followed the prescribed 
MMAT User Guide (Hong, et al., 2018). The MMAT 
tool comprises a total of 19 criteria for the appraisal 
of quantitative and qualitative research and mixed 
methods research, divided into five sets or criteria: 
the qualitative set, randomised controlled set, non-
randomised set, observational descriptive set, and 
mixed methods set (Halcomb, 2019). While the 
calculation of the overall score is not recommended, 
it is, instead, advisable to present estimates for each 
individual criterion. In our case, we gamified the final 
results of the MMAT and incorporated game elements 
in the form of star(s) (a coloured star denoted that the 
criterion had been met; an uncoloured star denoted 
that the criterion had not been met; a half-coloured 
star denoted that the criterion could not be appraised). 
We used the Inkscape tool (version 0.92.4) to visualise 
the results.
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Revision of search hits by 
criteria
Analysis of 
search hits 
Identification of 
search hits 
Search hits included 
(n = 9) 
Duplicates removed 
(n = 0) 
Excluded search hits (Medline / PubMed – n
title
 = 9, 
n
abstract
 = 3; Google Scholar – n
title
 = 161, n
abstract
 = 11)
Medline / PubMed and 
Google Scholar
(n = 193)   
Figure 1: Flow diagram of the literature screening process 

137 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
Results
The research studies were most often co-authored 
by two authors and were cited an average of 8.56 
times (s = 7.55) per year. All studies were published in 
journals dealing with a variety of topics in the field of 
nursing. Six of the journals had an IF from the Journal 
Citation Reports categorisation. The article by Roche 
and colleagues (2018) was published in Computers 
Informatics Nursing (Wolters Kluwer Health, Inc.), 
which was the journal with the lowest IF (2018) = 
1.029. The article by Davidson and Candy (2016) was 
published in Worldviews on Evidence-Based Nursing 
(Wiley Online Library) which was the journal with the 
highest IF (2018) = 2.500 (Table 1). 
The research studies were conducted within different 
educational modules of nursing degree programmes. 
The common objective in all these studies was to 
examine the applicability of gamification and to 
demonstrate its impact on nursing students. The 
results show that the positive impact of gamification 
in nursing students is expressed in the form of 
motivation, engagement, interest, learning and 
knowledge, while the negative impact of gamification 
manifests itself in the form of inefficiency and 
inappropriateness of game-based learning and lack 
of student commitment. Four studies specifically 
mention the underlying methodology in the form of 
the theories of learning: Bloom's taxonomy (n = 1), 
the ARCS model (the attention, relevance, confidence, 
and satisfaction model of motivation) (Keller, 1987)  
(n = 1) and simulation-based learning (Cato, 2012)  
(n = 2) (Table 2). 
Table 2 also shows the most frequently included 
game elements in nursing education, such as badges 
(n = 7, 77.78 %), feedback (n = 5, 55.56 %), and point 
systems with leaderboards (n = 4, 44.44 %). The 
frequency of inclusion of each game element in the 
research studies analysed is also shown in Figure 2 (a). 
As shown in Figure 2 (b), over half of the studies  
(n = 7, 77.78 %) included several games elements at 
the same time. 
Out of the eight studies which mentioned the 
use of badges. commendations, or badges and 
commendations (Figure 2, a – vertical lines), only two 
studies implemented badges and / or commendations 
as the only game element (Figure 2, b – vertical 
lines only). A total of six studies also included 
other game elements in addition to badges and/or 
commendations: in two studies, these were point 
systems or leaderboards (Figure 2, b – intersection 
of fields with vertical and wavy lines); in one study, 
these were challenges and / or feedback (Figure 2, b – 
intersection of fields with vertical lines and dots); in 
three of the studies, these were both point systems or 
leaderboards and challenges and / or feedback (Figure 
2, b - intersection of fields with vertical and wavy lines 
and dots at the centre). One study, which included 
game elements of all three groups (badges and / or 
commendations, point systems or leaderboards, 
and challenges and / or feedback), also included the 
social impact (Figure 2, b – intersection of the fields 
with vertical lines, wavy lines and dots and the circle, 
without a pattern at the centre). Game elements were 
most often expressed through virtual (e.g., digital 
learning environment in the form of games, quizzes, 
forums, etc.) and simulation (e.g., puppets and games) 
environment. 
Most of the articles reviewed applied a mixed 
methods approach (n = 5). Following the initial 
MMAT review, all of the studies included were eligible 
for further MMAT appraisal, as they address two 
research questions on average. The main appraisal of 
the studies showed the average level of quality of the 
included methodologies according to the MMAT. The 
study conducted by Foli and colleagues (2016), which 
is based on a mixed methods approach, achieved the 
highest score by individual criteria (five stars) and 
Table 1: Basic characteristics of included research
No.
Authors, year of publication 
(country)
Number  
of authors
Journal
Impact factor 
(2018)
Citation
1 Castro & Gonçalves, 2018 
(Brazil)
2 Revista brasileira de 
enfermagem
/ 1
2 Chia, 2013 (Singapore) 1 Singapore Nursing Journal / 16
3 Davidson & Candy, 2016 
(Canada)
2 Worldviews on Evidence-Based 
Nursing
2.500 20
4 Foli, et al., 2016 (India) 3 The Journal of Nursing 
Education
/ 10
5 Gallegos, et al., 2017 (USA) 4 Nurse Education in Practice 1.665 7
6 Garnett & Button, 2018 
(Australia)
2 Nurse Educator 1.262 4
7 Mackavey & Cron, 2019 (USA) 2 Nurse Education Today 2.442 0
8 Mawhirter & Garofalo, 2016 
(USA)
2 Clinical Simulation in Nursing 2.286 17
9 Roche, et. al., 2018 (USA) 6 Computers Informatics Nursing 1.029 2
Legend: No. – number; USA – United States of America

138 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
Table 2: Content characteristics of included research
No. Research objectives Methodology Game elements Main findings
1 To analyse the impact 
of gamification on the 
development of competencies 
in the Informatics in Nursing 
course and examine the 
perception of gamification 
by nursing students and 
teachers.
Sample: 10 nursing students and 5 
teachers. Assessment environment: 
digital learning environment with 
gamification and e-mail address. 
Data analysis: descriptive statistics 
and content analysis (comments).
Feedback, 
social impact, 
point system, 
ranking, levels, 
leaderboard.
The study reports a successful 
integration of gamification 
into the Informatics 
in Nursing course and 
a subsequent greater 
engagement and motivation 
in nursing students.
2 To analyse game-based 
learning on the topic of 
pulmonary disease within 
a simulated environment 
and to examine its impact 
on student perception and 
experience.
Theory: simulation-based learning 
Sample: 151 nursing students. 
Assessment environment: open 
and closed question survey Data 
analysis: descriptive statistics and 
comments.
Levels, avatars, 
feedback, badges 
(trophies), 
challenge (quiz).
The integration of game 
elements into the simulated 
environment helps 
consolidate the knowledge 
and practical skills of nursing 
students and makes learning 
more enjoyable.
3 To analyse game-based 
learning on evidence-based 
practice, and examine its 
impact on the development of 
nursing students’ knowledge 
and skills.
Theory: Bloom's taxonomy. Sample: 
30 nursing students. Assessment 
environment: educational 
game with gamification and a 
questionnaire. Data analysis: 
descriptive statistics and content 
analysis (comments).
Point system, 
leaderboard, 
badges, 
commendations 
(awards).
The new method of learning 
was positively accepted by 
nursing students and was 
expressed in the appropriate 
level of engagement, raised 
level of motivation and 
progress in the acquisition of 
knowledge.
4 To obtain opinions and 
assessments of the impact 
of badges on motivation in 
the educational process of 
nursing students related to 
safety and quality of nursing.
Theory: the ARCS model. Sample: 
87 nursing students. Assessment 
environment: digital learning 
environment and questionnaire. 
Data analysis: descriptive statistics 
and content analysis.
Badges. Most nursing students believe 
that incorporating game 
elements is reasonable and 
that they have a positive effect 
on learning motivation. 
5 To describe the experiences 
of nursing students in 
nursing education based 
on educational play and 
gamification. 
Theory: simulation-based learning 
Sample: 57 nursing students. 
Assessment environment: 
educational game with gamification. 
Data analysis: thematic analysis 
(comments).
Badges, 
point system, 
leaderboard, 
commendation.
Most nursing 
students expressed 
the inappropriateness 
and ineffectiveness of 
gamification with regard to 
the course topic.
6 To investigate the 
motivational impact of 
gamification in nursing 
students on the topic of 
foundational bioscience.
Sample: 408 (in 2015), 420 (in 
2016) and 418 (in 2017) nursing 
students. Assessment environment: 
digital learning environment. Data 
analysis: descriptive statistics.
Badges. Learning through 
gamification using the digital 
badge system motivates 
nursing students to learn, 
increases their level of 
engagement, as well as their 
interest in acquiring new 
knowledge.
7 To assess the impact of 
innovative education on 
the learning outcomes and 
engagement of nursing 
students in the family nurse 
practitioner programme. 
Sample: 522 nursing students 
over eight semesters. Assessment 
environment: digital learning 
environment. Data analysis: a 
complex quantitative data analysis.
Feedback, 
social impact, 
challenges.
Gamification showed an 
effect on student engagement 
and learning effectiveness.
8 To encourage education 
and preparedness of 
nursing students for the 
clinical environment and 
to strengthen mutual 
cooperation. 
Sample: 7 first semester nursing 
students, and 11 fourth semester 
nursing students. Assessment 
environment: patient simulator 
and questionnaire. Data analysis: 
descriptive statistics and thematic 
analysis (self-evaluation).
Feedback, 
rating scale, 
point system, 
time pressure, 
challenges, praise 
(certificate).
All nursing students 
expressed the opinion that 
the learning experience was 
useful, interesting and that 
it reduced their fear of the 
unexpected. Nursing students 
reported greater preparedness 
for the clinical environment.
9 To increase engagement and 
improve the education of 
nursing students through 
gamification. 
Sample: 133 (in 2015) and 121 (in 
2016) nursing students. Assessment 
environment: educational game 
and questionnaire. Data analysis: a 
complex quantitative data analysis.
Badges, 
feedback, 
leaderboards, 
point system.
The use of gamification 
was positively evaluated 
by nursing students. They 
improved their learning 
outcomes in nursing 
education.
Legend: No. – number;  ARCS – attention, relevance, confidence, and satisfaction model of motivation

139 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
the highest overall average score of methodological 
quality (4.5 out of 5 points) according to the MMAT 
criteria (Table 3). 
 
Discussion
We performed a search, analysis and synthesis of 
professional and scientific literature in the field of 
integrating gamification into nursing curricula. Of the 
9 studies included, a total of 8 reported or advocated 
the positive impact of gamification in the learning 
process of nursing education. Our results are similar 
to those obtained by other systematic reviews (Mora, 
et al., 2017; Subhash & Cudney, 2018) in the field of 
gamification in that they reported the inclusion of 
similar game elements, such as badges, points and 
feedback, and concluded that they are suitable for 
integration into higher education. Game elements 
have a positive effect mainly on increasing motivation 
(Moritz, 2017; Castro & Gonçalves, 2018; Garnett 
& Button, 2018; White & Shellenbarger, 2018) and 
interest (Garnett & Button, 2018). They also contribute 
to preparedness for the clinical environment (Chia, 
2013; Garnett & Button, 2018), reduce the fear of the 
unexpected (Garnett & Button, 2018) and contribute 
to greater engagement (Moritz, 2017; Castro & 
Gonçalves, 2018). In most cases, students find the 
inclusion of gamification in the learning process 
interesting, as they feel it contributes to an enhanced 
learning experience (Kurz & Kinder, 2017; Roche, 
et al., 2017; Mackavey & Cron, 2019). Conversely, 
Gallegos (2017) finds that gamification can also 
negatively affect the experience and satisfaction of 
nursing students. A similar finding was also reached 
by Fan and colleagues (2015). In their research, 
students found teaching through giving examples as 
more appropriate. Numerous studies have shown that 
students have a positive attitude towards the use of 
gamification in learning (Boeker, et al., 2013; Nevin, 
et al., 2013; Buckley & Doyle, 2014; Woo, 2014; Urh 
Figure 2: Frequency of included game elements (2a) and simultaneous use of game elements with positive and 
negative effects (2b)
Table 3: Quality score in research with game elements (stars)
No. Type of research
Number  
of RQ
Evaluation of the quality of research 
according to individual criteria
Overall average quality 
of research
1 Mixed-methods research 1 3
2 Mixed-methods research 1 2
3 Mixed-methods research 2 4
4 Mixed-methods research 3 4.5
5 Qualitative research 1 3
6 Quantitative research 5 3.4
7 Mixed-methods research 2 3
8 Quantitative research 1 2.5
9 Quantitative research 2 3.5
Legend: No. – number; RQ – research question

140 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
et al., 2015), while very little research has focused on 
faculties and teachers (Hung, et al., 2017). Teachers 
have a great influence on the motivation of students, 
which is why it is important for them to use modern, 
novel and innovative technologies in the learning 
process and thus attract students' attention. Teachers 
were also found to report positive experiences with 
the novel learning approaches using gamification 
(Brom, et al., 2009; Noraddin, 2015; Kopcha, et al., 
2016; Alabbasi, 2018). Teachers are aware of the need 
to motivate students and to integrate new approaches 
into conventional learning environments (Noraddin, 
2015). Alabbasi (2018) collected data from teachers 
involved in a postgraduate teaching programme on the 
use of gamification in online learning. While the results 
of this study show a positive perception regarding the 
use of gamification, some believe it can negatively 
affect students. In recent years, since gamification has 
become part of education, most research studies have 
reported positive results related to its inclusion in the 
learning process. Toda and colleagues (2018) focused 
their research interest primarily on the negative 
effects of gamification on students. On the basis of 
a systematic cartographic research, they identify 
four negative effects, namely: loss of efficiency, loss 
of engagement, unwanted behaviour, and declining 
effects. Among the negative effects most commonly 
mentioned is the loss of effectiveness resulting from 
tasks and situations in which gamification hinders or 
harms students' learning process. Other studies (De-
Marcos, et al., 2014; Naik & Kamat, 2015) report on 
the loss of achievement, which some perceive as a 
consequence of the presence of demotivating effects 
(Barata, et al., 2013; Hanus & Fox, 2014; Attali & 
Ariev-Attali, 2015). On the basis of their analysis, 
Toda and colleagues (2018) found that the negative 
effects occurred mainly due to the lack of appropriate 
methodologies or frameworks for planning and 
introducing the role into the learning context (Faiella 
& Ricciardi, 2015), which was also shown through the 
MMAT assessment of the quality of methodologies 
used in the analysed studies. According to MMAT, 
the results of our literature review show the most 
common limitations: non-inclusion of taxonomies 
and learning theories, poorer connections between 
individual methodologies, deficient qualitative or 
quantitative data analyses, various discrepancies in 
data interpretation and poorly designed discussions 
according to the chosen methodology. 
The examined studies also show that gamification 
integrates well into courses such as informatics 
(Castro & Gonçalves, 2018), pharmacy (Sera & 
Wheeler, 2017) and anatomy in nursing (Roche, et al., 
2018), i.e., into courses in which the teaching material 
is based more on quantitative rather than qualitative 
data. Our results show that, according to MMAT, the 
highest quality assessment was obtained by studies 
(Foli, et al., 2016) which include both types of data. 
Furthermore, we note that gamification cannot be 
included in every course unit in the field of nursing, 
and teachers must be very careful in introducing it 
as the main or complementary teaching method, and 
choose a proven technologically advanced assessment 
environment. A telling comparison is the use of 
gamification in the form of the Rezzly simulation 
game, for which research by Gallegos and colleagues 
(2017) reported negative feedback by students who 
described it as inappropriate and inefficient in learning 
theoretical nursing. The study conducted by Moritz 
(2017), however, reports a positive attitude of students 
towards gamification, as efficiency in learning the 
topics of clinical nursing increased through the use of 
the Rezzly simulation game.
Gamification has recently assumed an important 
role in education within various areas of nursing. 
Nevertheless, the traditional method of teaching 
remains at the forefront, as it represents one of the 
simpler and more easily accessible forms of education. 
Some of the many reasons for this are the focus of the 
educational and research institution (i.e., research 
and development, purchasing newer simulation and 
educational equipment, etc.), teachers' personal traits 
(enthusiasm for innovation, age, staying up to date, 
accuracy, computer literacy, time barrier, etc.) and 
the lag in overall technological development (ranging 
from the inefficiency of commercial game-based 
products to the lack of credible research in this field). 
In addition to being willing to integrate information 
and communication technologies and gamification 
into their work, teachers should also be offered prior 
training and specialised support for counselling 
work and solving potential technical and operational 
problems (Castro & Gonçalves, 2018). Moreover, 
teachers are often reluctant to try new learning 
approaches for fear of wasting time and obtaining 
lower scores in student assessment (Royse & Newton, 
2007; Roche, et al., 2018). As a result, more research 
should be invested into exploring the possibilities of 
implementing this concept, testing the acceptance of 
gamification by teachers and students, and the level 
of motivation and performance of students who using 
game elements in specific nursing course units. 
The aim of this literature review was to gain insight 
into the use of gamification in the field of education in 
nursing and to gauge the possibilities of its transfer into 
the Slovene environment. Despite the many benefits of 
this literature review, there are also certain limitations 
to our study. While we did perform a literature review, 
we did not conduct the entire process of a systematic 
search, analysis and synthesis of the literature. As a 
result, there is a possibility that not all articles related 
to gamification in the educational process within 
nursing were included in the review. Nevertheless, the 
number of articles we based this study on was similar 
to those reviewed in the already published 2020 study 
by Noyes and colleagues (2020), which focuses on a 

141 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
systematic analysis of the impact of digital badges in 
the process of health education. In the future, it would 
be interesting to conduct a systematic literature review 
in the field of gamification in the educational process 
of nursing and an in-depth analysis of the findings.
Conclusion 
Gamification is a fairly new concept in nursing 
education. It challenges teachers to make teaching 
more interesting and engaging. The studies conducted 
to date have been carried out abroad, which is why 
the findings should be interpreted with caution 
and the new method of gamification should also be 
tested before its implementation into the Slovene 
educational environment. Most studies report positive 
effects of gamification applied in the educational 
process in the field of nursing, manifested in the form 
of increased motivation and active participation of 
nursing students. On the other hand, the negative 
effect of gamification should not be disregarded, as, 
if not appropriately applied, the approach may result 
in student inefficiency and lack of commitment. Since 
gamification in terms of a regular advanced form of 
education has not yet been officially integrated in 
either international or Slovene nursing curricula, it 
presents a challenge for both researchers and teachers.
 
Slovenian translation / Prevod v slovenščino
Uvod
Svet je vstopil v ero novih tehnoloških dosežkov, 
medtem ko je izobraževalni sistem obtičal v 
preteklosti (Cohen, 2011; Baker, et al., 2012; de Sousa 
Borges, et al., 2014; Dicheva, et al., 2015). Sodobna 
andragogika se mora zato soočiti z novimi reformami 
in izzivi. Z razvojem tehnologije so se – še posebej v 
tujini – razvili tudi novi tehnološko podprti pristopi 
v izobraževalnem sistemu. Nov in atraktiven pristop 
predstavlja igrifikacija (ang. gamification). Gre za 
učenje, ki temelji na igri, ter aktualen in precej nov 
koncept, ki se nanaša na uporabo elementov igre v 
številnih dejavnostih v resničnem svetu (Deterding, 
et al., 2011; Kim, 2015; Sardi, et al., 2017). Koncept 
je že leta 2002 omenil Nick Pelling, vendar se je širša 
uporaba začela komaj po letu 2010. Igrifikacija je 
proces razmišljanja s pomočjo iger in mehanizmov iger 
z namenom aktivnega vključevanja posameznikov ter 
reševanja problemov (Zichermann & Cunningham, 
2011). Igrifikacija je močno orodje, saj pomembno 
vpliva na pridobivanje posameznikove pozornosti, 
njegovo vedenje in vključevanje v določene aktivnosti.
Igrifikacija se nanaša na uporabo elementov iger 
(Khaleel, et al., 2016), ki uporabniku omogočajo, da 
opravi nalogo učinkoviteje in je ta zanj prijetnejša 
(El-Hilly, et al., 2016). Elemente iger vključujejo v 
situacije, ki niso povezane z igrami, da bi izboljšali 
sodelovanje študentov in dosegli želeno vedenje 
(Des Armier Jr., et al., 2016). Prisotnost tehnologije v 
učnih enotah je navdihnila premik od tradicionalnih 
predavanj k interaktivnim učnim okoljem. Slednja 
predstavljajo priložnost za razvoj učnega procesa z 
vključevanjem elementov iger, ki pritegnejo pozornost 
uporabnikov, zvišajo motivacijo za doseganje ciljev ter 
spodbujajo konkurenčnost, učinkovito timsko delo in 
medsebojno komunikacijo (Boskic & Hu, 2015). 
Dicheva in sodelavci (2015) ugotavljajo, da so v 
izobraževalnem kontekstu najpogosteje uporabljeni 
elementi iger vizualni status, družbena angažiranost, 
svoboda izbire in hitre povratne informacije. 
Redki dokumenti so obravnavali načela ciljev 
in personalizacije. Subhash in Cudney (2018) 
ugotavljata, da so najpogosteje uporabljeni elementi 
iger točke, značke in lestvice. V izobraževanju se kot 
elementi igre pogosto uporabljajo digitalne značke, ki 
prav tako služijo kot inovativen pristop k igrifikaciji 
zdravstvene nege z vključevanjem socialnih povezav. 
Kot naprednejše vrste pohval oziroma dokazil izražajo 
informacije o učni uspešnosti, dosežkih, spretnostih 
in kompetencah študentov (White & Shellenbarger, 
2018). 
Igrifikacija v andragoškem izobraževanju uporabnike 
popelje v otroško dobo, v kateri so skozi igro spoznavali 
in usvajali različne veščine. Nagnjenost k zanimanju 
za novosti ter dejavno prilagajanje in oblikovanje 
lastnih sposobnosti ter znanja niso omejeni le na 
otroštvo, temveč gre za pomembno značilnost človeške 
narave, ki vpliva na učinkovitost, vztrajnost in dobro 
počutje skozi vsa življenjska obdobja (Ryan & Deci, 
2000; Lespiau & Tricot, 2019). Z igrifikacijo lahko 
preverjamo kognitivne (razumevanje, zaznavanje, 
spoznavanje), socialno-emocionalne (notranja in 
zunanja motivacija, samoučinkovitost, ambicioznost, 
socialno primerjanje) in psihomotorične veščine 
v različnih spektrih zdravstvene nege. Raziskave 
(Banfield & Wilkerson, 2014; Morillas Barrio, et 
al, 2016; Dankbaar, 2017) so pokazale, da se pri 
izobraževanju z igrifikacijo pri posameznikih 
močneje kot zunanja (ekstrinzična) razvija notranja 
(intrinzična) motivacija. T udi Alsawaier (2018) navaja, 
da bi lahko uporaba igrifikacije v izobraževalnem 
procesu pomagala pri motivaciji in zavzetosti 
študentov, saj bi prispevala k spreminjanju njihovega 
stališča do učenja.  
Igrifikacija v izobraževalnem procesu lahko prispeva 
k izboljšanju kakovosti, stroškovni učinkovitosti 
in fleksibilnosti (Gentry, et al., 2019). Prav tako 
študentom omogoča, da sami izberejo čas in 
hitrost učenja (Brull & Finlayson, 2016). Številne 
raziskave (Brull & Finlayson, 2016; Hamari, 2016; 
Sanchez, et al., 2020) opisujejo uporabo igrifikacije 
na vseh ravneh izobraževanja (od osnovnošolske 
do univerzitetne ravni). V izobraževalni sistem 
zdravstvene nege vstopajo nove generacije študentov 

142 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
(Skiba, et al., 2016), ki so večinoma odraščale s 
popolnoma drugačno sodobno tehnologijo kot 
prejšnje generacije (Sackmann & Winkler, 2013). 
Tako jim ne zadošča posredovanje znanj in veščin s 
tradicionalnim pristopom (npr. predavanja s pomočjo 
PowerPoint predstavitve) (Boskic & Hu, 2015). Zato je 
treba v učne enote za mlajše generacije uvesti novejše 
andragoške pristope. Raziskave (Simões, et al., 2013; 
Turan, et al., 2016) so pokazale, da dosegajo študenti, 
ki uporabljajo igrifikacijo, boljše akademske uspehe 
kot tisti, ki uporabljajo tradicionalne pristope učenja. 
Enako je bilo ugotovljeno na področju zdravstvene 
nege (Kinder & Kurz, 2018). Igrifikacija ustvarja varno 
okolje, kjer lahko študenti zdravstvene nege izvajajo 
intervencije brez možnih negativnih posledic za 
pacienta. Cheong in sodelavci (2014) ugotavljajo, da 
imajo študenti do igrifikacije pozitiven odnos. 
V znanstvenoraziskovalnih krogih ima teoretični 
okvir velik pomen in brez njega je raziskovalno 
delo manj relevantno ter kredibilno (Lederman 
& Lederman, 2015). Izkustveno izobraževanje (t. i. 
teorija izkustvenega učenja) predstavlja kot filozofija 
izobraževanja temeljni teoretični okvir igrifikacije 
– izobraževalnega pristopa, ki povezuje kognitivne, 
socialno-emocionalne in psihomotorične veščine 
v smiselno celoto. Najboljše rezultate dosežemo z 
uporabo dveh ali več filozofij izobraževanja (Banfield 
& Wilkerson, 2014). Trenutna tradicionalna didaktika 
kljub naprednejšemu času še vedno temelji na 
»izobraževanju, usmerjenem k učitelju«, med katerim 
študenti sedijo, poslušajo in zapisujejo predavanje, 
zaključi pa se večinoma brez osebne interakcije med 
študentom in učiteljem. Izobraževalni pristop, ki 
temelji na izkustvenem izobraževanju, pa je ravno 
obraten: študenti so v centru izobraževalnega sistema, 
gre za »izobraževanje, usmerjeno k študentu« (Balliu 
& Belshi, 2017). Dobro poznavanje teorij učenja 
učitelju omogoča eksperimentiranje in vpeljavo 
različnih učnih pristopov, kot je npr. izobraževanje, 
ki temelji na igrifikaciji in resnih igrah (ang. serious 
games and gamification based learning) (Uskov, et 
al., 2016). V teoriji učenje, podprto z igrifikacijo, 
predstavlja pristop, usmerjen k spreminjanju vedenja 
uporabnikov. Teorija prav tako poudarja, da lahko 
do spremembe vedenja pri uporabnikih pride, kadar 
obstaja kakovostna povezava med poukom in rezultati 
ter kadar neposredno vplivamo na učenje. Cilj 
igrifikacije v učnem procesu ni nadomestitev pouka, 
temveč njegova dopolnitev in izboljšanje (Landers, 
2014).
Conklin (2005) opozarja na kategorizacijo vzgojno-
izobraževalnih ciljev po Bloomovi taksonomiji in 
na njeno hierarhično strukturo urejanja učnih ciljev 
poučevanja, kar študente spodbudi k izboljšanju 
njihovega mišljenja in višji ravni abstraktnega znanja, 
upoštevajoč opredeljene učne cilje (Anderson, et al., 
2009; Adams, 2015). Bloomova taksonomija vsebuje 
tri domene: kognitivno (poznavanje), afektivno 
(čustveno) in psihomotorično domeno (Bloom, 1956). 
Ben-Zvi (2010) predlaga Bloomovo taksonomijo kot 
okvir ocenjevanja rezultatov doseženih učnih ciljev 
izkustvenega učenja. S tem so tesno povezani tudi 
učni izidi, saj nam omogočajo ocenjevanje doseženih 
učnih ciljev. Bloomova taksonomija je model, ki se 
lahko uporabi za pisanje učnih rezultatov (Bloom, 
1956). Kot ugotavlja Alsawaier (2018), vključevanje 
igrifikacije v proces učenja pomembno vpliva na 
študentov dosežek. Poleg Bloomove taksonomije 
se nekateri opirajo tudi na druge klasifikacije učnih 
ciljev, kot je na primer klasifikacija po Robertu J. 
Marzanu (Rutar Ilc, 2003). Da bi bolje razumeli 
možnosti vključevanja igrifikacije v učne načrte 
študijskih predmetov s področja zdravstvene nege, ki 
temeljijo na izbrani taksonomiji, bi bilo treba izvesti še 
več raziskav (Gallegos, et al., 2017).
Po nam znanih podatkih igrifikacija kot naprednejši 
andragoški pristop še ni bila vključena v nobeno izmed 
učnih enot s področja zdravstvene nege v slovenskem 
prostoru. S tem pregledom literature želimo na 
podlagi tujih raziskav prikazati potencialno uporabo 
igrifikacije v različnih učnih enotah s področja 
zdravstvene nege v slovenskem prostoru.
Namen in cilji 
Namen preglednega članka je predstaviti igrifikacijo 
kot nov koncept na področju izobraževanja v 
zdravstveni negi.
Cilji preglednega članka so: 
– prikazati pozitivne in negativne strani igrifikacije 
pri vključevanju v izobraževalni proces zdravstvene 
nege;
– prikazati vpliv igrifikacije na kognitivne, socialno-
emocionalne in psihomotorične lastnosti študentov 
zdravstvene nege;
– oceniti stopnjo metodološke kakovosti raziskav, ki 
so uporabljale igrifikacijo v izobraževalnem procesu 
na področju zdravstvene nege.
Raziskovalno vprašanje je bilo oblikovano na 
podlagi PIOST-priporočila (ang. Population, 
Intervention, Output, Study, Time) (Polit & Beck, 2018) 
in se glasi: Kakšen vpliv ima vključevanje igrifikacije 
v učne enote zdravstvene nege (I) na kognitivne, 
socialno-emocionalne in psihomotorične lastnosti 
(O) študentov zdravstvene nege (P)? Vključili smo 
raziskave v angleškem jeziku (S), objavljene po letu 
2012 (T). 
Metode
V prvem delu smo uporabili deskriptivno 
raziskovalno metodo dela in s pomočjo iskalnih nizov 
ter vključitvenih in izključitvenih kriterijev poiskali 
ustrezno literaturo. Pri ustvarjanju iskalnega niza smo 
za boljšo vizualizacijo zadetkov uporabili aplikacijo

143 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
2dSearch, za pridobivanje podatkov pa aplikaciji 
Publish or Perish (verzija 7) in PubMed2XL (verzija 
2.01). V drugem delu smo literaturo, vključeno v 
nadaljnjo analizo, kritično ocenili z orodjem MMAT 
(Mixed Methods Appraisal Tool), verzija 8  (Hong,  
et al., 2018). 
Metode pregleda
Pregled literature je bil izveden v juliju 2019. 
Uporabili smo Google Scholar in Medline / PubMed 
iskalnika zaradi brezplačnega dostopa, kar omogoča 
ponovljivost našega pregleda literature in zadostno 
število podatkovnih baz (npr. PubMed / Medline) za 
iskano tematiko. Pri iskanju literature smo ustvarili 
iskalni niz v angleškem jeziku in vključili Boolova 
operaterja AND (IN) ter OR (ALI). Končni iskalni niz 
se je glasil: (»elements of game« OR »game mechanics« 
OR »system design elements«) AND (»nursing 
modules« OR »nursing education« OR »nursing 
teaching« OR »nursing courses«). Pri ustvarjanju 
iskalnega niza smo si pomagali z orodjem 2dSearch za 
lažjo vizualizacijo zadetkov.
Za pridobivanje podatkov iz Medline / PubMed 
iskalnika smo uporabili aplikacijo PubMed2XL 
(verzija 2.01) (Isaak, 2016), za zadetke iz iskalnika 
Google Scholar pa aplikacijo Publish or Perish (verzija 
7) (Harzing, 2007, 2019). Tabelarično zbirko podatkov 
smo ustvarili s pomočjo orodja MS Excel 2016. Vse 
zadetke sta dva avtorja po začetnem filtriranju 
analizirala v treh nivojih, in sicer po naslovu, povzetku 
in celotnem besedilu s t. i. dummy kodiranjem (Bech 
& Gyrd-Hansen, 2005), pri čemer »1« pomeni, da 
gre zadetek v naslednji nivo; »0« pa, da je zadetek v 
tem nivoju izpadel. Zadetek oziroma raziskava, ki je 
ob zaključku ocenjevanja prejela vse tri točke, je bila 
vključena v končno analizo. 
Rezultati pregleda
S pomočjo iskalnega niza smo skupaj dobili 193 
zadetkov (Medline / PubMed, n = 15; Google Scholar, 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Izključeni zadetki (Medline / PubMed – n
naslov
 = 9, 
n
povzetek
 = 3; Google Scholar – n
naslov
 = 161, n
povzetek
 = 11)
Identifikacija 
zadetkov
Pregled zadetkov po 
kriterijih
Analiza 
zadetkov
Medline / PubMed in Google Scholar
(n = 193)
Odstranjeni dvojniki
(n = 0)
Vključeni zadetki
(n = 9)
Slika 1: Diagram poteka iskanja literature 

144 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
n = 178). V končno analizo smo vključili 9 zadetkov 
oziroma raziskav (Slika 1). Za prikaz faktorjev vpliva 
(FV) vključenih raziskav smo uporabili faktografsko 
bazo podatkov Journal Citation Reports iz leta 2018, 
dostopno na Kooperativnem online bibliografskem 
sistemu in servisu. 
Ocena kakovosti pregleda in opis obdelave podatkov
V zadnjem koraku so trije avtorji posamično ocenili 
vključene raziskave z orodjem MMAT, ki je bilo že 
uporabljeno v preglednih raziskavah in se je izkazalo 
kot primerno orodje za ocenjevanje metodološke 
kakovosti raziskav. Pri tem smo upoštevali predpisana 
MMAT-navodila (Hong, et al., 2018). Orodje MMAT 
vsebuje 19 kriterijev za oceno kvantitativnih in 
kvalitativnih raziskav ter raziskav mešanih metod, 
ki so razdeljeni v pet sklopov oziroma kriterijev: 
kvalitativni sklop, randomizirani kontrolirani sklop, 
nerandomizirani sklop, opazovalni opisni sklop in 
sklop mešanih metod (Halcomb, 2019). Izračun 
končne ocene se odsvetuje. Namesto tega se priporoča 
predstavitev ocen za vsak posamezni kriterij. V našem 
primeru smo končne rezultate po orodju MMAT 
igrificirali in elemente iger vključili v obliki zvezdic 
(obarvana zvezdica pomeni, da je kriterij dosežen; 
neobarvana zvezdica pomeni, da kriterij ni dosežen; 
polovično obarvana zvezdica pomeni, da kriterija 
nismo mogli oceniti). Za vizualizacijo rezultatov smo 
uporabili orodje Inkscape (verzija 0.92.4). 
Rezultati
Raziskave so najpogosteje nastale v sodelovanju 
dveh avtorjev in so bile v povprečju citirane 8,56-krat 
(s = 7,55) letno. Vse raziskave so bile objavljene v 
revijah, ki obravnavajo različne tematike zdravstvene 
nege. Šest revij ima FV iz kategorizacije Journal 
Citation Reports. Članek Rocheja in sodelavcev (2018) 
je bil objavljen v reviji Computers Informatics Nursing 
(Wolters Kluwer Health, Inc.), ki je imela izmed vseh 
najnižji FV (2018) = 1.029. Članek Davidsona in 
Candyja (2016) je bil objavljen v reviji Worldviews 
on Evidence-Based Nursing (Wiley Online Library) z 
najvišjim FV (2018) = 2.500 (Tabela 1). 
Analizirane raziskave so bile izvedene v različnih 
učnih enotah študijskih programov s področja 
zdravstvene nege. Njihov skupni cilj je bil preučiti 
uporabnost igrifikacije in prikazati njen vpliv na 
študente zdravstvene nege. Rezultati prikazujejo 
pozitiven vpliv igrifikacije na študente zdravstvene 
nege, ki se izraža v motivaciji, sodelovanju, zanimanju, 
učenju in vedenju, ter negativen vpliv igrifikacije v 
obliki neučinkovitosti, neprimernosti in nezavzetosti. 
Štiri raziskave posebej navajajo vključeno metodologijo 
v obliki teorij učenja: Bloomovo taksonomijo (ang. 
Bloom taxonomy) (Bloom, 1956) (n = 1), model 
ARCS (ang. The attention, relevance, confidence, and 
satisfaction model of motivation) (Keller, 1987) (n = 
1) in izobraževanje, temelječe na simulacijah (ang. 
Simulation-based learning) (Cato, 2012) (n = 2) 
(Tabela 2). 
Iz Tabele 2 lahko razberemo tudi najpogosteje 
vključene elemente iger v izobraževanje študentov 
zdravstvene nege, kot so značke (n = 7, 77,78 %), 
povratne informacije (n = 5, 55,56 %) in točkovni 
sistemi z lestvicami (n = 4, 44,44 %). Pogostost 
vključevanja posameznega elementa iger v 
analiziranih raziskavah je prikazana tudi na Sliki 2 (a). 
Pri več kot polovici raziskav (n = 7, 77,78 %) je bilo 
Tabela 1: Osnovne značilnosti vključenih raziskav 
Št.
Avtorji, leto objave  
(država) 
Št. avtorjev Ime revije
Faktor vpliva 
(2018) 
Citiranost
1 Castro & Gonçalves,  
2018 (Brazilija)
2 Revista brasileira de 
enfermagem
/ 1
2 Chia,  
2013 (Singapur) 
1 Singapore Nursing 
Journal
/ 16
3 Davidson & Candy,  
2016 (Kanada)
2 Worldviews on 
evidence-based nursing
2.500 20
4 Foli, et al.,  
2016 (Indija)
3 The Journal of nursing 
education
/ 10
5 Gallegos, et al.,  
2017 (ZDA)
4 Nurse Education in 
Practice
1.665 7
6 Garnett & Button,  
2018 (Avstralija)
2 Nurse educator 1.262 4
7 Mackavey & Cron,  
2019 (ZDA)
2 Nurse education today 2.442 0
8 Mawhirter & Garofalo,  
2016 (ZDA)
2 Clinical Simulation in 
Nursing
2.286 17
9 Roche, et. al.,  
2018 (ZDA)
6 Computers informatics 
nursing
1.029 2
Legenda: Št. – število; ZDA – Združene države Amerike 

145 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
Tabela 2: Vsebinske značilnosti vključenih raziskav
Št. Cilj raziskave Metodologija Elementi iger Glavne ugotovitve 
1 Analizirati vpliv 
igrifikacije na razvoj 
kompetenc v učni enoti 
Informatika v ZN in 
preučiti dojemanje 
igrifikacije s strani 
študentov ZN ter 
učiteljev.
Vzorec: 10 študentov ZN 
in 5 učiteljev. Ocenjevalno 
okolje: digitalno učno okolje 
z igrifikacijo in elektronski 
naslov. Analiza podatkov: 
opisna statistika in vsebinska 
analiza (komentarji).
Povratne informacije, 
socialni vpliv, točkovni 
sistem, točkovna 
lestvica, značke, ravni, 
napredovalna lestvica.
Raziskava prikazuje uspešno 
vključevanje igrifikacije v učno 
enoto Informatika v ZN in 
posledično večjo vključenost 
ter motiviranost študentov ZN.
2 Analizirati izobraževanje 
z igrifikacijo na 
tematiko obolenj pljuč 
v simuliranem okolju in 
preučiti njegov vpliv na 
študentovo dojemanje 
ter izkustvo.
Teorija: izobraževanje, 
temelječe na simulacijah. 
Vzorec: 151 študentov ZN. 
Ocenjevalno okolje: odprt / 
zaprt tip vprašalnika. Analiza 
podatkov: opisna statistika in 
komentarji.
Ravni, virtualni liki, 
povratne informacije, 
značke (pokali), izziv 
(kviz).
Integracija elementov iger s 
simuliranim okoljem pomaga 
krepiti znanje in praktične 
spretnosti študentov ZN ter 
popestri izobraževanje.
3 Analizirati izobraževanje 
z igrifikacijo o praksi, 
podprti z znanstvenimi 
dokazi, in preučiti njen 
vpliv na razvoj znanja in 
spretnosti študentov ZN.
Teorija: Bloomova 
taksonomija. Vzorec: 30 
študentov ZN. Ocenjevalno 
okolje: izobraževalna igra 
z igrifikacijo in vprašalnik. 
Analiza podatkov: opisna 
statistika in vsebinska analiza 
(komentarji).
Točkovni sistem, 
točkovna lestvica, značke, 
pohvale (nagrade).
Nov način izobraževanja je bil s 
strani študentov ZN pozitivno 
sprejet in se je izrazil v 
ustreznem nivoju vključevanja, 
dvigu nivoja motivacije in 
napredovanju v usvajanju 
znanja.
4 Pridobiti mnenja in 
ocene vpliva značk 
na motivacijo pri 
izobraževanju študentov 
ZN o varnosti ter 
kakovosti ZN.
Teorija: model ARCS. Vzorec: 
87 študentov ZN. Ocenjevalno 
okolje: digitalno učno okolje 
in vprašalnik. Analiza 
podatkov: opisna statistika in 
vsebinska analiza.
Značke. Večina študentov ZN meni, 
da je vključevanje elementov 
iger smiselno in da pozitivno 
vplivajo na motivacijo pri 
učenju. 
5 Opisati izkušnje 
študentov ZN pri 
izobraževanju iz ZN, ki 
temelji na izobraževalni 
igri in igrifikaciji. 
Teorija: izobraževanje, 
temelječe na simulacijah. 
Vzorec: 57 študentov 
ZN. Ocenjevalno okolje: 
izobraževalna igra z 
igrifikacijo. Analiza podatkov: 
tematska analiza (komentarji).
Značke, točkovni sistem, 
točkovna lestvica, 
pohvale.
Večina študentov ZN je 
izrazila neprimernost in 
neučinkovitost igrifikacije v 
povezavi z učno enoto.
6 Raziskati motivacijski 
vpliv igrifikacije 
na študente ZN pri 
izobraževanju o osnovah 
bioznanosti .
Vzorec: 408 (leta 2015), 420 
(leta 2016) in 418 (leta 207) 
študentov ZN. Ocenjevalno 
okolje: digitalno učno okolje. 
Analiza podatkov: opisna 
statistika.
Značke. Učenje z igrifikacijo v obliki 
značk motivira študente ZN k 
učenju, povečuje vključevanje 
in njihovo zanimanje za 
pridobitev novega znanja.
7 Oceniti vpliv 
inovativnega 
izobraževanja na učne 
izide in vključenost 
študentov ZN pri učni 
enoti družinska ZN. 
Vzorec: 522 študentov ZN v 
osmih semestrih. Ocenjevalno 
okolje: digitalno učno 
okolje. Analiza podatkov: 
kompleksnejša analiza 
kvantitativnih podatkov.
Povratna informacija, 
socialni vpliv, izzivi.
Igrifikacija je vplivala na 
zavzetost študentov in 
učinkovitost učenja.
8 Spodbuditi 
izobraževanje in 
pripravljenost študentov 
ZN na klinično okolje 
ter krepiti medsebojno 
sodelovanje. 
Vzorec: 7 študentov ZN 
v prvem semestru in 11 
študentov ZN v četrtem 
semestru. Ocenjevalno 
okolje: simulacijska lutka in 
vprašalnik. Analiza podatkov: 
opisna statistika in tematska 
analiza (samoevalvacija).
Povratne informacije, 
točkovna lestvica, 
točkovni sistem, časovni 
pritisk, izzivi, pohvale 
(certifikat).
Vsi študenti ZN so izrazili, 
da je bila učna izkušnja zanje 
koristna, zanimiva in je 
zmanjšala njihov strah pred 
nepričakovanim. Študenti ZN 
so izkazali večjo pripravljenost 
na klinično okolje.
9 Z igrifikacijo povečati 
zavzetost in izboljšati 
izobraževanje študentov 
ZN. 
Vzorec: 133 (leta 2015) in 
121 (leta 2016) študentov 
ZN. Ocenjevalno okolje: 
izobraževalna igra in 
vprašalnik. Analiza podatkov: 
kompleksnejša analiza 
kvantitativnih podatkov.
Značke, povratne 
informacije, točkovna 
lestvica, točkovni sistem.
Igrifikacijo so študenti ZN 
dobro sprejeli. Izboljšali so 
učne izide pri izobraževanju 
iz ZN.
Legenda: Št. – število; ZN – zdravstvena nega; ARCS – model motivacije za pozornost, ustreznost, zaupanje in zadovoljstvo

146 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
v izobraževanje vključenih več elementov iger hkrati, 
kar prikazuje Slika 2 (b). 
V osmih analiziranih raziskavah, ki so omenjale 
uporabo značk, pohval ali značk in pohval (Slika 2, a – 
navpične črte), so bile značke in / ali pohvale le v dveh 
primerih edini vključeni element iger (Slika 2, b – samo 
navpične črte). V šestih raziskavah so bili poleg značk 
in / ali pohval vključeni še drugi elementi iger: v dveh 
primerih točkovni sistemi oziroma lestvice (Slika 2, b 
– presečišče polj z navpičnimi in valovitimi črtami); 
v enem primeru izzivi in / ali povratne informacije 
(Slika 2, b – presečišče polj z navpičnimi črtami in 
pikami); v treh primerih pa oboje – točkovni sistemi 
oziroma lestvice ter izzivi in / ali povratne informacije 
(Slika 2, b – presečišče polj z navpičnimi in valovitimi 
črtami ter pikami v središču). V eno od analiziranih 
raziskav, v katero so bili vključeni elementi iger vseh 
treh skupin (značke in / ali pohvale, točkovni sistemi 
oziroma lestvice ter izzivi in / ali povratne informacije), 
je bil dodatno vključen še socialni vpliv (Slika 2, 
b – presečišče polj z navpičnimi črtami, valovitimi 
črtami in pikami ter kroga, brez vzorca v središču). 
Elementi iger so se najpogosteje izrazili s pomočjo 
virtualnega (npr. digitalno učno okolje v obliki iger, 
kvizov, forumov itd.) in simulacijskega (npr. lutke in 
igre) okolja. 
Največ obravnavanih člankov je bilo v obliki mešanih 
raziskav (n = 5). Vse vključene raziskave so bile po 
začetnem MMAT-pregledu primerne za nadaljnjo 
oceno glede na MMAT, saj v povprečju obravnavajo 
dve raziskovalni vprašanji. Glavna ocena vključenih 
raziskav je prikazala srednjo stopnjo kakovosti 
vključenih metodologij glede na MMAT. Raziskava, 
ki so jo izvedli Foli in sodelavci (2016) in temelji na 
mešanih metodah raziskovanja, je dosegla najvišjo 
oceno po posameznih kriterijih (pet zvezdic) in skupno 
povprečno oceno metodološke kakovosti (4,5 od 5 
skupnih točk) po kriterijih MMAT (Tabela 3). 
Slika 2: Pogostost vključenih elementov iger (2a) in sočasna uporaba več elementov iger ter pozitivni in negativni 
vplivi (2b)
Tabela 3: Ocena kakovosti vključenih raziskav z elementi iger (zvezdice)
Št. Tip raziskave Št. RV
Ocena kakovosti raziskav po 
posameznih kriterijih
Skupna povprečna ocena 
kakovosti raziskav 
1 Mešana raziskava 1 3
2 Mešana raziskava 1 2
3 Mešana raziskava 2 4
4 Mešana raziskava 3 4,5
5 Kvalitativna raziskava 1 3
6 Kvantitativna raziskava 5 3,4
7 Mešana raziskava 2 3
8 Kvantitativna raziskava 1 2,5
9 Kvantitativna raziskava 2 3,5
Legenda: Št. – število; RV – raziskovalno vprašanje

147 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
Diskusija
Izvedli smo iskanje, analizo in sintezo strokovne 
ter znanstvene literature s področja vključevanja 
igrifikacije v učne načrte zdravstvene nege. Izmed 
9 vključenih raziskav jih je 8 ugotovilo oziroma 
zagovarjalo pozitiven vpliv igrifikacije v učnem procesu 
zdravstvene nege. Podobno kot naši rezultati so tudi 
rezultati drugih sistematičnih pregledov (Mora, et al., 
2017; Subhash & Cudney, 2018) s področja igrifikacije 
prikazali vključevanje podobnih elementov iger, kot 
so značke, točke in povratne informacije, ter zaključili, 
da so primerni za vključevanje v visokošolsko 
izobraževanje. Elementi iger pozitivno vplivajo 
predvsem na zvišanje motivacije (Moritz, 2017; 
Castro & Gonçalves, 2018; Garnett & Button, 2018; 
White & Shellenbarger, 2018) in interesa (Garnett 
& Button, 2018), pripomorejo k pripravljenosti 
na klinično okolje (Chia, 2013; Garnett & Button, 
2018), znižajo strah pred nepričakovanim (Garnett 
& Button, 2018) ter prispevajo k večji vključenosti 
(Moritz, 2017; Castro & Gonçalves, 2018). Študentom 
je vključevanje igrifikacije v učni proces v večini 
primerov zanimivo, saj menijo, da prispeva k boljši 
izkušnji (Kurz & Kinder, 2017; Roche, et al., 2017; 
Mackavey & Cron, 2019). V nasprotju s tem Gallegos 
(2017) ugotavlja, da igrifikacija negativno vpliva na 
izkušnje in zadovoljstvo študentov zdravstvene nege. 
Podobno ugotavljajo Fan in sodelavci (2015). V 
njihovi raziskavi študenti poudarjajo, da je učenje s 
podajanjem primerov ustreznejše. Številne raziskave 
so pokazale, da imajo študenti pozitivno mnenje o 
uporabi igrifikacije pri učenju (Boeker, et al., 2013; 
Nevin, et al., 2013; Buckley & Doyle, 2014; Woo, 2014; 
Urh, et al., 2015), zelo malo raziskav pa je bilo izvedenih 
s strani fakultet in učiteljev (Hung, et al., 2017). 
Učitelji imajo velik vpliv na motivacijo študentov, zato 
je pomembno, da v učni proces vključijo sodobne, 
nove in inovativne tehnologije ter tako pridobijo 
želeno pozornost. Ugotovljeno je bilo, da imajo tudi 
učitelji pozitivne izkušnje z novimi učnimi pristopi 
z uporabo igrifikacije (Brom, et al., 2009; Noraddin, 
2015; Kopcha, et al., 2016; Alabbasi, 2018). Učitelji 
se zavedajo potrebe po motiviranju študentov in 
vključevanju novih pristopov v konvencionalna učna 
okolja (Noraddin, 2015). Alabbasi (2018) je zbiral 
podatke s strani učiteljev, ki so vključeni v program 
podiplomskega poučevanja o uporabi igrifikacije 
v spletnem učenju. Rezultati so pokazali pozitivno 
dojemanje uporabe igrifikacije, čeprav nekateri menijo, 
da ta lahko negativno vpliva na študente. V zadnjih 
letih, odkar je igrifikacija postala del izobraževanja, 
je večina raziskav pokazala pozitivne rezultate 
njenega vključevanja v učni proces. Toda in sodelavci 
(2018) pa se v raziskavi osredotočajo predvsem na 
negativne učinke igrifikacije na študente. Na podlagi 
sistematične kartografske raziskave so identificirali 
štiri negativne učinke: izgubo učinkovitosti, izgubo 
zavzetosti, neželeno vedenje in upadajoče učinke. 
Med najpogosteje navedenimi je izguba učinkovitosti, 
ki izhaja iz nalog in situacij, v katerih igrifikacija 
ovira ali škodi učnemu procesu študentov. V drugih 
raziskavah poročajo (De-Marcos, et al., 2014; Naik 
& Kamat, 2015) o izgubi uspešnosti, ki jo nekateri 
pojmujejo kot posledico prisotnosti demotivacijskih 
učinkov (Barata, et al., 2013; Hanus & Fox, 2014; Attali 
& Ariev-Attali, 2015). Toda in sodelavci (2018) na 
podlagi analize ugotavljajo, da so se negativni učinki 
pojavili predvsem zaradi pomanjkanja ustreznih 
metodologij ali okvirov za načrtovanje in uvajanje 
vloge v učni kontekst (Faiella & Ricciardi, 2015), 
kar smo prikazali tudi z MMAT-oceno kakovosti 
metodologij v analiziranih raziskavah. Rezultati 
pregleda literature glede na MMAT prikazujejo 
najpogostejše omejitve: nevključevanje taksonomij 
in teorij učenja, slabše povezave med posameznimi 
metodologijami, pomanjkljive kvalitativne oziroma 
kvantitativne analize podatkov, različna odstopanja pri 
interpretaciji podatkov in slabo oblikovane diskusije 
glede na izbrano metodologijo. 
Raziskave so prav tako pokazale, da se igrifikacija 
dobro vključuje v učne enote, kot so informatika 
(Castro & Gonçalves, 2018), farmacija (Sera & 
Wheeler, 2017) in anatomija v zdravstveni negi 
(Roche, et al., 2018), oziroma v učne enote, kjer 
učno gradivo temelji bolj na kvantitativnih kot na 
kvalitativnih informacijah. Pridobljeni rezultati sicer 
prikazujejo, da imajo najkakovostnejšo oceno glede na 
MMAT raziskave (Foli, et al., 2016), ki vključujejo oba 
tipa informacij / podatkov. Nadalje ugotavljamo, da 
igrifikacije ni mogoče vključiti v vsako učno enoto s 
področja zdravstvene nege, zato jo morajo učitelji zelo 
previdno vpeljati kot glavno oziroma dopolnilno učno 
metodo in izbrati preverjeno tehnološko napredno 
ocenjevalno okolje. Nazorna primerjava je uporaba 
igrifikacije v obliki simulacijske igre Rezzly, kjer je 
raziskava Gallegosa in sodelavcev (2017) prikazala 
negativen odnos študentov, ki se je izražal v obliki 
neprimernosti in neučinkovitosti pri učenju teoretične 
zdravstvene nege. Raziskava, ki jo je izvedel Moritz 
(2017), pa je prikazala pozitiven odnos do igrifikacije, 
saj se je učinkovitost pri učenju klinične zdravstvene 
nege povečala s simulacijsko igro Rezzly.
V zadnjem obdobju je igrifikacija dobila pomembno 
vlogo pri izobraževanju v različnih spektrih zdravstvene 
nege. Kljub temu ostaja tradicionalna oblika 
izobraževanja na prvem mestu, saj predstavlja enega 
izmed lažjih in bolj dostopnih načinov izobraževanja. 
Med raznolikimi razlogi za navedeno izpostavimo 
vizijo izobraževalno-raziskovalne institucije (nagnjenost 
k raziskavam in napredku, nabava novejše simulacijske 
in izobraževalne opreme itd.), osebnostne lastnosti 
učiteljev (inovativnost, starost, ažurnost, natančnost, 
računalniška pismenost, časovna bariera itd.) in 
splošni razvoj same tehnologije (od neučinkovitosti 
komercialnih produktov, ki temeljijo na igrifikaciji, do 

148 Fijačko, N., Gosak, L., Debeljak, N., Skok, P ., Štiglic, G. & Cilar, L., 2020. / Obzornik zdravstvene nege, 54(2), pp. 133–152.
premalo verodostojnih raziskav s tega področja). Poleg 
volje za vključevanje informacijsko-komunikacijskih 
tehnologij in igrifikacije v delo učitelja je treba 
izvajalcu nuditi tudi predhodno usposabljanje in 
specializirano podporo za svetovanje ter reševanje 
morebitnih tehničnih in operativnih težav (Castro & 
Gonçalves, 2018). Prav tako učitelji pogosto oklevajo 
pri preizkušanju novih učnih pristopov zaradi strahu 
pred izgubo časa in slabših ocen študentov (Royse 
& Newton, 2007; Roche, et al., 2018). Posledično bi 
bilo treba izvesti več raziskav, ki bi raziskale možnosti 
implementacije koncepta, testirale sprejemanje igrifikacije 
s strani učiteljev in študentov ter raven motiviranosti in 
uspešnosti študentov, ki uporabljajo elemente iger pri 
specifičnih učnih enotah zdravstvene nege. 
Pregled literature je narejen z namenom pridobitve 
vpogleda v uporabo igrifikacije na področju izobraževanja 
v zdravstveni negi in preverjanja možnosti za njen 
prenos v slovensko okolje. Čeprav pregled literature 
prinaša veliko koristi, ima raziskava tudi določene 
omejitve. Izveden je bil pregled literature in ne celoten 
proces sistematičnega iskanja, analize in sinteze 
literature. Posledično obstaja možnost, da v pregled 
niso vključeni vsi članki, ki se nanašajo na igrifikacijo 
v učnemu procesu zdravstvene nege. Kljub temu 
smo našli podobno število člankov kot že objavljena 
raziskava iz leta 2020 (Noyes, et. al., 2020), ki je 
sistematično analizirala vpliv digitalnih značk v procesu 
izobraževanja v zdravstvu. V prihodnosti obstaja 
možnost izvedbe sistematičnega pregleda literature s 
področja igrifikacije v učnem procesu zdravstvene nege 
in poglobljene analize obstoječih ugotovitev.
Zaključek 
Igrifikacija je precej nov koncept na področju 
izobraževanja v zdravstveni negi. Učiteljem ponuja 
izziv, kako informacije podajati bolj zanimivo in 
privlačno. Obstoječe raziskave so bile izvedene v 
tujini, zato je treba ugotovitve interpretirati previdno 
in novo metodo igrifikacije pred implementacijo v 
slovensko učno okolje tudi testirati. Večina raziskav 
nakazuje pozitivne učinke igrifikacije v učnem 
procesu zdravstvene nege, ki se izražajo v obliki 
povečane motivacije in aktivnega sodelovanja 
študentov zdravstvene nege. Na drugi strani ne 
smemo zanemariti negativnega učinka igrifikacije, 
ki ob neprimernem vključevanju lahko privede do 
neučinkovitosti in nezavzetosti študentov . Ugotovljeno 
je bilo, da igrifikacija kot redna naprednejša oblika 
izobraževanja v zdravstveni negi uradno ni vključena 
niti v tuje niti v slovenske učne načrte, zato predstavlja 
izziv tako za raziskovalce kot za učitelje. 
Conflict of interest / Nasprotje interesov
The authors declare that no conflict of interest exist. / 
Avtorji izjavljajo, da ni nasprotja interesov.
Funding / Financiranje
The "Digital toolbox for innovation in nursing 
education (I-BOX)" project which is co-funded by 
the EU's Erasmus+ programme. / Pregled literature je 
bil podprt s strani Evropske komisije, ki sofinancira 
projekt Erasmus+ »Digitalna orodja za inovacije v 
izobraževanju na področju zdravstvene nege«.
Ethical approval / Etika raziskovanja
No approval by the Ethics Committee was necessary 
to conduct the study due to the selected research 
methodology. / Za izvedbo pregleda literature glede 
na izbrano metodologijo raziskovanja dovoljenje ali 
soglasje komisije za etiko ni bilo potrebno.
Author contributions / Prispevek avtorjev
The literature review presented here was carried 
out in collaboration among all authors. NF developed 
a study design and supervised the literature review. 
NF, LG, PS and LC drafted the manuscript. NF, LG, 
LC, ND and GŠ conducted, analysed and interpreted 
data. All authors read, revised, and approved the final 
manuscript. / Pregled literature je delo vseh avtorjev. 
NF je načrtoval in nadziral pregled literature. NF, LG, 
PS in LC so napisali osnutek pregleda. NF, LG, LC, 
ND in GŠ so zbrali in izvedli analizo podatkov ter 
jih interpretirali. Vsi avtorji so prebrali, pregledali in 
odobrili končni rokopis.
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Cite as / Citirajte kot: 
Fijačko, N., Gosak, L., Debeljak, N., Skok, P., Štiglic, G. & Cilar, L., 2020. Gamification in nursing: a literature review. Obzornik 
zdravstvene nege, 54(2), 133–152. https://doi.org/10.14528/snr.2020.54.2.2991