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Citation: Sarilita, E., 
Nugraha, H. G., Murniati, N. 
and Soames, R. W. 2022. Online 
Capacity Building In Anatomy 
Knowledge for High School 
Biology Teachers: Community-
University Partnerships 
in Indonesia During the 
COVID-19 Pandemic. Gateways: 
International Journal of 
Community Research and 
Engagement, 15:1, 1–9. https://
doi.org/10.5130/ijcre.v15i1.8043

ISSN 1836- 3393 | Published 
by UTS ePRESS | http://ijcre.
epress.lib.uts.edu.au

SNAPSHOT ARTICLE

Online Capacity Building In Anatomy 
Knowledge for High School Biology Teachers: 
Community-University Partnerships in 
Indonesia During the COVID-19 Pandemic

Erli Sarilita1, Harry Galuh Nugraha2, Nani Murniati1 and Roger William Soames3
1  Department of Oral Biology, Faculty of Dentistry, Universitas Padjadjaran, West Java, Indonesia
2  Department of Radiology, Faculty of Medicine, Universitas Padjadjaran, West Java, Indonesia
3  Centre for Anatomy and Human Identification, School of Science and Engineering, University of 
Dundee, UK

Corresponding author:  Erli Sarilita, Department of Oral Biology, Faculty of Dentistry, 
Universitas Padjadjaran, West Java, Indonesia, erli.sarilita@fkg.unpad.ac.id

DOI: https://doi.org/10.5130/ijcre.v15i1.8043
Article History: Received 01/01/2022; Revised 25/03/2022; Accepted 14/04/2022;  
Published 06/2022

Abstract
This anatomical program for high-school biology teachers, a university-driven capacity- 
building exercise, achieved its aims of: (1) determining the participants’ profiles; (2) 
increasing the anatomical knowledge of participants; and (3) evaluating the online 
program. The webinar program comprised 4 lectures, including discussion, preceded 
and followed by a test consisting of 19 anatomy questions. Of 867 high-school biology 
teachers who registered an interest, 222 completed the post-program test and feedback 
questionnaire; however, only 153 (111 females, 42 males) completed both pre-program 
and post-program tests and the feedback questionnaire. A significant (P<0.001) increase 
in the overall post-program scores (88.9%: male 89.5±16.52%; female 88.7±17.38%) 
compared to the pre-program test scores (56.3%: male 56.1±15.66%; female 56.5±16.82%) 
was observed, the increase being irrespective of age, level of education or teaching 
experience. The program attracted participants from throughout Indonesia rather than 
just those close to the university. There was an overall improvement in test scores, 
supporting the effectiveness and efficiency of the online anatomy program. More than 60% 
of participants stated that the program met their needs in terms of the level of anatomy 

1 DECLARATION OF CONFLICTING INTEREST The author(s) declared no potential conflicts of interest with  
respect to the research, authorship, and/or publication of this article. FUNDING This study was supported by the 
Universitas Padjadjaran through their award of a community outreach grant 1397/UN6.3.1/PM/2020.

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by/4.0/
https://doi.org/10.5130/ijcre.v15i1.8043
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mailto:erli.sarilita@fkg.unpad.ac.id
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knowledge, and that the topics were of interest, well presented and relevant to their teaching. This 
study may provide useful information for future community-university studies in this area.

Keywords
Community-University Partnerships; Online Programs; Anatomy; High-School Biology, Indonesia

Introduction
In Indonesia, human anatomy is initially taught to science students by high-school biology teachers, with 
some continuing their anatomy education in health professional undergraduate programs. A knowledge 
of human anatomy is necessary for students wishing to pursue health science study programs in which 
they will continue to study human anatomy at a deeper level under the tuition and guidance of university 
anatomy lecturers (Hegarty et al. 2009; Schafer et al. 2019; Swinnerton et al. 2017).

Higher education plays a vital role in improving society and academics, as key contributors to higher 
education, should embrace community engagement (Kearney, Wood & Zuber-Skerritt 2013). As a result, 
there has been a notable increase in the literature discussing community-university partnerships’ research 
and practices worldwide (Baker & Meletzke 2021; Kearney, Wood & Zuber-Skerritt 2013; Northmore & 
Hart 2011.

In the Republic of Indonesia, Higher Education Institutes are obliged to provide three pillars of 
higher education (Tri Dharma Perguruan Tinggi) comprising education, research and community service 
(Law Number 12/2012). Every institution must have a strategic plan for both research and community 
service (Regulation of the Minister of Research, Technology and Higher Education Number 44/2015) 
that takes into account the resources available. The Universitas Padjadjaran publishes a plan every five 
years, the latest being for 2021–2025, which acts as a guide for the development and implementation of 
community service activities to be undertaken by academics at the university. The strategic plan is also 
adapted for national priority programs determined by the Directorate of Higher Education, Ministry of 
Education, Culture, Research and Technology, and supported by the Ministry of Village, Development of 
Disadvantaged Regions and Transmigration for the development of disadvantaged areas and transmigration. 
The community service carried out by the Universitas Padjadjaran is a pentahelix collaboration involving the 
government, society, academics, industry and the media.

The Universitas Padjadjaran employs community-engagement activity as one of the key performance 
indicators of its academics. Anatomy lecturers at Universitas Padjadjaran come from the Faculties of 
Dentistry and Medicine. They organise and conduct community-university partnerships, including human 
anatomy enrichment programs for high-school biology teachers at the university in Bandung. Previous face-
to-face programs consistently received positive feedback.

The COVID-19 pandemic changed the educational environment around the world, with face-to-face 
teaching being largely abandoned and replaced by online learning (Lei et al. 2020). Anatomy teachers 
world-wide immediately adjusted their teaching in response to the pandemic (Cheng et al. 2020; Evans 
et al. 2020; Franchi 2020; Iwanaga et al. 2021; Longhurst et al. 2020; Pather et al. 2020; Singal, Bansal 
& Chaudhary 2020). From March 2020, all education providers in Indonesia had to adapt their teaching 
to online formats following advice from the government. However, in addition to undergraduate health 
professional programs, there was a growing need for online anatomy courses (Kelsey et al. 2020).

The pandemic therefore forced us to adapt the outreach anatomy program so as to enable it to be 
delivered online, and thus continue anatomical training for high-school biology teachers. Because the course 
was now available online, the target audience was increased to include all 34 Indonesian provinces. However, 
a number of challenges had to be overcome. These included the time differences across the three time zones 

Sarilita, et al.

Gateways: International Journal of Community Research and Engagement, Vol. 15, No. 1 June 20222



in Indonesia; marketing the program; maintaining attention during the program; differences in the length of 
work experience and qualifications of participants; use of online learning (video conferencing) and YouTube 
for synchronous presentation; and differences in internet connection stability in various geographical areas.

In this article we present the findings of the first online anatomy community outreach program for high-
school biology teachers conducted in Indonesia. The aims of the study were to: (1) determine the participant 
profile; (2) increase the anatomical knowledge of the participants; and (3) evaluate the online program.

Results
Of the 867 teachers who initially expressed an interest, 222 completed the post-program test, survey and 
feedback questionnaires; however, only 153 completed the pre-program test. The 222 participants came from 
30 of the 34 provinces within Indonesia, with the greatest numbers being from West Java, East Java, Central 
Java, Jakarta and Banten provinces. Distribution of gender, age, education level, teaching experience, and the 
number of biology teachers at the respective institutions are tabulated in Table 1. More detailed information 
can be found in Appendix 1.

Table 1. Characteristics of the participants

Characteristics Percent Characteristics Percent

Gender (# participants) Teaching experience (# participants)

Males 73.4 1–5 years 41.9

Females 26.6 6–10 years 10.8

Total 100 11–15 years 14.4

16–20 years 11.7

Age (# participants) > 20 years 21.2

20–30 41.1 Total 100

31–40 18.5

41–50 25.2 Number of biology teachers at 
school (# participants)

1 16.051–60 14.9

Total 100 2 32.0

3 22.8

Education level (# participants) 4 14.2

Diploma 2.2 5 9.1

BSc 73.0 6 5.9

MSc 24.8 Total 100

Total 100

The methods used to teach biology at the institutes was a mixture of lectures, discussion, demonstrations, 
project assignments, experiments and tests/quizzes. The majority (88.7%) of participants stated that this was 
the first time they had taken part in an anatomy capacity-building program.

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The mean test scores, expressed as percentages, of the 153 participants who took both tests are shown in 
Table 2, with the data presented for each age group and gender, as well as the overall pre- and post-program 
test scores. Independent t-tests showed significant differences (P<0.001) between all pre- and post-program 
scores, as well as a significant (P<0.001) difference in the pre-program scores between males and females in 
the 41–50 year cohort. No other differences were observed.

Table 2.  Overall pre-program and post-program mean scores (expressed as percentages) for 
those who took both tests (n=153), as well as the scores for males and females within 
each age range. All post-program test scores are significantly greater (P<0.01) than the 
pre-program scores.

Pre-program (%) Post-program (%)

Age Sample size 
(M/F)

All (±SD) Male 
(±SD) 

Female 
(±SD) 

All 
(±SD)

Male 
(±SD)

Female 
(±SD)

20–30 62
(22/40)

52.0 
(17.27)

52.1
(12.11)

52.0
(19.60)

88.7 
(16.72)

88.2
(18.30)

89.0
(16.10)

31–40 32
(8/24)

61.6 
(18.19)

65.4
(17.68)

60.5
(18.56)

89.6 
(19.43)

92.5
(10.46)

88.8
(21.47)

41–50 41
(9/32)

56.4 
(11.64)

44.2*
(11.53)

58.4
(10.86)

90.6 
(14.41)

86.3
(22.21)

91.3
(14.34)

51–60 18
(3/15)

60.8
(16.58)

66.9
(17.11)

57.9
(15.28)

85.4 
(21.30)

92.5
(13.54)

82.1
(23.77)

All 
ages

153
(42/111)

56.3
(16.06)

56.1
(15.66)

56.5
(16.82)

88.9
(17.43)

89.5
(16.52)

88.7
(17.83)

*Significantly less than corresponding female score

Analysis of the feedback questionnaire (Table 3) showed that more than 60 percent of participants agreed 
or strongly agreed that the online program increased their level of anatomy knowledge, and that the topics 
were well presented, of interest and relevant to their teaching. However, approximately a quarter of participants 
strongly disagreed. Only 53.6 percent of participants thought that there was sufficient time for discussion.

Table 3.  The percentage (%) of responses, using a 5-point Likert scale from strongly agree to 
strongly disagree, to questions on the feedback questionnaire following the anatomy 
online program.

Scale*

Questions 1 2 3 4 5

Did your knowledge of anatomy increase? 46.8 14.0 4.5 9.5 25.2

Were the presentations of good quality? 42.8 18.4 3.2 9.9 25.7

Were the topics presented of interest? 47.2 14.4 3.2 9.5 25.7

Were the topics relevant to your teaching? 41.0 17.1 6.8 8.6 26.5

Was there sufficient time for discussion? 22.5 31.1 12.6 19.8 14.0

*1 strongly agree; 2 agree; 3 neither agree or disagree; 4 disagree; 5 strongly disagree

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A range of topics was suggested for inclusion in future programs, with the three most popular topics 
being the immune, reproductive and nervous systems, closely followed by the endocrine, intestinal and 
respiratory systems.

Discussion
Recently, the amount of time undergraduate health professionals spend learning anatomy has decreased, 
as other topics have assumed greater prominence in modern curricula (Mitchell & Batty 2009). It has 
therefore become necessary to provide anatomy teaching for future health professional undergraduates as 
part of their foundation learning, and high-school teachers are key to this provision. There are currently 65 
medical schools and 31 dental schools in Indonesia, each of which offers anatomy modules as part of their 
curricula. According to the Ministry of Education and Culture, there were 23,083 high-schools in Indonesia 
in 2020 (Ministry of Education and Culture, Republic of Indonesia 2020).

We believe that anatomy capacity building for biology teachers is performed worldwide. However, there 
is a lack of publications on this topic. Doss and Brooks (2016) describe the anatomy workshops established 
for high-school teachers by the University of Alabama, where the program has been well received by 
participants and been shown to enhance participants’ anatomical knowledge. The current program discussed 
in this paper has also successfully contributed to professional development in anatomical knowledge for 
high-school teachers. This is notable when one considers the challenges faced by countries such as Indonesia 
which have a variety of information and technology facilities and a vast geographic area to cover.

Given the reduction in anatomy content in undergraduate professional healthcare programs, there is a 
need for anatomy workshops/webinars for high-school biology teachers.

In March 2020, the COVID-19 pandemic became a major disruptive factor for education provision 
in Indonesia as educators were required to operate via online platforms, irrespective of whether they were 
prepared for this. By the end of March 2020, however, the existing offline anatomy program for high-school 
biology teachers in Bandung (capital city of West Java Province) was transformed to an online mode and 
made available to all high-school biology teachers in Indonesia. The current study presents the findings 
of this online anatomy program. Unlike anatomy modules for professionals and undergraduates, anatomy 
courses for high-school biology teachers are less well investigated and developed, except by the University of 
Alabama (Doss & Brooks 2016).

The interest generated by the online program was high, with just over a quarter (222/867) of those 
registered showing an interest in participating; however, only 68.9 percent (153/222) took the pre- and 
post-program tests. Not surprisingly, given that this was the first online anatomy program to be offered and 
available throughout Indonesia rather than just in Bandung city, 88.7 percent of participants stated that this 
was the first time they had taken part in such a program. Although participants came from most provinces 
in Indonesia, the largest number (43.7%) came from five provinces (West Java, East Java, Central Java, 
Jakarta and Banten). The program thus succeeded in delivering the online program to high-school biology 
teachers from various geographical regions in Indonesia.

There were more female than male participants; however, whether this reflects the ratio of female to 
male high-school teachers in Indonesia is not known. The majority of participants had a BSc and were less 
than 30 years of age, which was not surprising given that younger individuals generally wish to improve 
their knowledge as an aid to gaining future work or promotion. The program, as developed and delivered, 
achieved its aim of increasing the anatomical knowledge of the participants as exhibited in the pre- and 
post-test scores.

Feedback from the program was positive regarding the topic, its presentation and its relevance to the 
participants’ teaching; however, it was generally agreed that more time for discussion would have been 
useful. The latter point will be addressed in future online programs by either extending the time of each 

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Gateways: International Journal of Community Research and Engagement, Vol. 15, No. 1 June 20225



presentation or devoting more than one presentation to each sub-topic. There was some negative feedback. 
However, the authors considered that the constructive criticism would positively shape future offerings. It 
was assessed that the difficulties in time differences, insufficient interaction between participants and the 
instructors, and being the first online program encountered created the reasons for the negative feedback. 
The topics suggested for future programs (immune, respiratory and nervous systems) were not surprising 
given the current pandemic.

Continuing education is an integral part of life-long learning (Wilson et al. 2018). The current study 
suggests that the online anatomy program should be maintained and possibly expanded, not only to other 
anatomy topics, but also to other disciplines relevant to the health sciences. In general, the participants 
agreed that the program enhanced their anatomy knowledge.

It is clear that the pandemic has had a major impact on teaching and learning; however, it should not 
deter Universitas Padjadjaran and other universities from persevering with or developing online community-
university programs and partnerships. Online platforms and learning management systems have been 
shown to be extremely useful in such situations, as demonstrated in the present study. Based on the current 
study, future online learning platforms at Universitas Padjadjaran will be developed and evaluated with 
respect to the needs of the biology teacher community in order to enhance their subject-specific knowledge 
and, possibly, teaching skills. However, further thought needs to be given to providing asynchronous 
presentations to overcome the time differences between regions, as well as using platforms that would be 
available to all, irrespective of their digital skills and access to the Internet in cities and rural areas.

Conclusions
COVID-19 has transformed the way in which capacity building programs are undertaken. Online learning 
is no longer viewed as an alternative method of presentation, but has become an accepted and, in the 
current times, the only way of delivering institutional knowledge enrichment. The current program reached 
a wide audience in terms of age, educational level, teaching experience and location within Indonesia. The 
program developed for high-school biology teachers was effective in improving their anatomy knowledge; 
nevertheless, future programs could be enhanced by increasing the duration of each presentation or by 
devoting more than one session to each sub-topic to allow more time for discussion. Feedback from the 
program was positive in terms of knowledge improvement, quality of the presentations and relevance to 
participants’ teaching. To maintain the interest of participants and to encourage them to take part in future 
programs, the themes to be presented should be informed by the participants, but also tailored to the needs 
of high-school biology teachers throughout Indonesia. This article provides insights into the characteristics 
of the high-school biology teacher community in Indonesia as the target of engagement, which presumably 
would differ from similar engagement in other countries. However, it may serve as a blueprint for those who 
are interested in similar types of community-university partnerships.

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Appendix 1
Profile of all teachers (n=222) who participated in the online anatomy program with respect to age, gender, 
level of education and number of years teaching: the numbers in brackets are those (n=153) who did the 
pre-program and post-program tests.

Level of 
education

Age range 
(years)

20–30 31–40 41–50 51–60 Total

Years 
teaching

M F M F M F M F

Diploma

<5 1
(1)

2
(0)

1
(1)

1
(1)

5
(3)

<10

<15

<20

20+

Subtotal 1
(1)

2
(0)

1
(1)

1
(1)

5
(3)

BSc

<5 23 
(16) 

52 
(36)

2
(1)

3
(1)

80
(54)

<10 3
(3) 

4
(3)

4
(3)

8
(6)

2
(2)

21
(17)

<15 3
(2)

10 
(10)

3
(2)

7
(6)

23
(20)

<20 1
(1)

2
(1)

13
(8)

1
(0)

17
(10)

20+ 7
(6)

3
(3)

11
(8)

21
(17)

Subtotal 26 
(19)

56
(39)

9
(6)

22
(18)

5
(3)

29
(22)

3
(3)

12
(8)

162
(118)

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Gateways: International Journal of Community Research and Engagement, Vol. 15, No. 1 June 20228



MSc

<5 2
(2)

5
(1)

1
(1)

8
(4)

<10 2
(1)

1
(0)

3
(1)

<15 1
(1)

4
(4)

3
(3)

1
(1)

9
(9)

<20 5
(2)

4
(3)

9
(5)

20+ 1
(0)

6
(4)

7
(3)

12
(6)

26
(13)

Subtotal 2
(2)

5
(1)

1
(1)

8
(6)

11
(6)

15
(9)

13
(7)

55
(32)

 TOTAL 29 
(22)

63
(40)

11
(8)

30
(24)

16
(9)

45
(32)

3
(3)

25
(15)

222
(153)

Sarilita, et al.

Gateways: International Journal of Community Research and Engagement, Vol. 15, No. 1 June 20229