key: cord-0766384-vy3ob1v6
authors: Kurtulmus‐Yilmaz, Sevcan; Önöral, Özay
title: Effectiveness of Screen‐to‐Screen and Face‐to‐Face Learning Modalities in Dental Anatomy Module During Covid‐19 Pandemic
date: 2021-10-31
journal: Anat Sci Educ
DOI: 10.1002/ase.2150
sha: 04d93e3e1d62c04b1b9743e700bcae0b85afdc8b
doc_id: 766384
cord_uid: vy3ob1v6

The Covid‐19 pandemic has forced all dentistry faculties to quickly shift to the online supplementation or replacement of traditional modules to pursue education. However, there is limited research evaluating the effectiveness of this education modality on student performance in dental anatomy and manipulation module. Accordingly, it was aimed to compare the influence of different education modalities on the performances of the students enrolled in this module. The students were requested to perform 11 practical assignments throughout the fall term. A total of 220 face‐to‐face‐educated (F2F) and 138 screen‐to‐screen‐educated (S2S) students were included. To evaluate the influence of education modality on the performances of the students, cumulative success scores were calculated and compared using an independent t‐test. The grades of the first (maxillary central), sixth (maxillary premolar), and eleventh assignments (mandibular first molar) were also analyzed to understand the manipulation‐skill progress of each student within the same year. The grades of above‐mentioned three assignments were converted into nominal data (excellent, very good, good, acceptable, and fail) based on certain thresholds, and a chi‐square test was conducted. The cumulative success scores in F2F group were significantly lower than those in S2S group (P = 0.02). Differences between the first and eleventh tasks in both education modalities were significant (P < 0.05). The S2S‐educated students achieved significantly higher achievement points in the sixth and eleventh assignments (P < 0.001). The S2S education can be suggested as an applicable modality for teaching dental anatomy and manipulation module. However, further work is needed to ascertain whether this result is replicable throughout dental anatomy education.

Dental education extends on three prominent pillars: (1) theoretical modules, (2) preclinical practical modules, and (3) clinical training/internship (Chang et al., 2021) . During the pandemic, to circumvent the issues influencing the first pillar, synchronous S2S theoretical modules were held in the vast number of dental faculties with the aid of different video conferencing tools (Bennardo 2020; Machado et al., 2020; Önöral and Kurtulmus-Yilmaz, 2020; Wu et al., 2020) as it was proved that in the synchronized S2S modality, students have the opportunity to get live, real-time, facilitated, and learning-oriented education in an electronic classroom through active questioning or interaction with the lecturer (Shahabadi and Uplane, 2015) . However, the detriments on the second and third pillars are more devastating. Many countries suspended simulation laboratory modules and internships as students must gather in the laboratory and hospital environments that pose a high risk in terms of virus spread and transmission in accordance with the inherent characteristics of dental settings (Balaji, 2020; Hung et al., 2020) . Although some remedial steps have been taken such as sharing demonstration videos for practical modules (Chang et al., 2021) ; the internships could not be totally replaced with S2S activities (Bennardo, 2020) . Problem-based learning tutorials, imaginary case reports, S2S discussions on clinical matters, tele dentistry, videotaping were adopted for the 4th-and 5th-year dental students to refrain from the aggregation of individuals (Hung et al., 2020; Meng et al., 2020) . Despite all these efforts, self-learning has gained great importance during the pandemic. Therefore, the students should be encouraged to engage in self-learning and to fully use online sources. Moreover, they should be psychologically supported against disease-associated fear, pressure to do well, and financial stress (Hung et al., 2020; Meng et al., 2020) .

In North Cyprus, within the precautions of the pandemic and consistent with the decision of the higher education council, all courses have been conducted online since the spring semester of the 2019-2020 academic year. Considering this measure, the newly registered students to dentistry faculty in the 2020-2021 academic year took the dental anatomy and manipulation module in a completely S2S manner. These students attended S2S live theoretical lectures, watched asynchronous and synchronous demonstration videos which were shared with them via online platform of Distance Education and Information Technologies Center (UZEBIM, 2021) , and attended the S2S live practical courses with their instructors on Google Meet. Following each practical course, students acquired

This article is protected by copyright. All rights reserved photographs of their assignments from different aspects under appropriate illumination and uploaded them onto the UZEBIM center for evaluation. This center, UZEBİM, uses Moodle as a learning management system (Moodle Pty Ltd, West Perth, WA, Australia) and aims to follow all kinds of contemporary and up-to-date innovations in the field of educational technology to prepare permanent professional educational courses using green screen technology. It has eight main academic service areas mainly including distance education, eexam, information technologies, academic component, electronic document management, etc.

Students can access lecture notes, synchronized / asynchronized lecture videos, and all other documents whenever they want. In addition, classes can be created on this platform; students can be contacted, announcements can be made, assignments can be given, assignments can be evaluated, and comments can be made, e-exams containing a wide variety of question types can be performed.

Above all, it works successfully with different software that ensures exam security.

Given the sparse number of studies investigating the influence of education modality on the performances of the students enrolled in the dental anatomy and manipulation module, this study aimed to compare the F2F and S2S education modalities in terms of student performance and manipulation progress. The following hypotheses were tested: (1) F2F-educated students would have higher cumulative success scores than S2S-educated students, (2) F2F-educated students would have higher grades in specific assignments, and (3) the progression of manipulation skills would be seen in both education modalities.

The current study was conducted on the data of the dental anatomy and manipulation module which is given to first-year dental students at the Near East University Faculty of Dentistry. Grades of the students who did not reject to be a part of this study were included. Therefore, the manipulation assignment grades of 220 F2F-educated students in the 2019-2020 academic year and 138 S2Seducated students in the 2020-2021 academic year were scrutinized. The demographics of the student population are depicted in Table 1 .

This article is protected by copyright. All rights reserved

The current study received ethical approval from the Near East University Scientific Research Ethic Evaluation Board with a reference number of YDÜ/EB/2021/650.

At the Near East University, the dental anatomy and manipulation module consists of two theoretical committees (one fall term, one spring term) and a practical committee which is an annual course.

During the 28-week academic year, one hour of theoretical and four hours of practical classes are held per week. The textbook Wheeler's Dental Anatomy, Physiology, and Occlusion (Nelson, 2015) is followed in theoretical courses. In practical courses, real-size or enlarged 3D artificial tooth models are used.

For the fall term, the anatomy and morphological characteristics of permanent dentition are elucidated within the scope of the theoretical committee and the students are requested to carve enlarged models of the permanent teeth from the soap in the practical committee. For the spring term, different dental materials such as gypsum products, dental wax, and acrylic resin are introduced within the context of the theoretical committee, and it is aimed to broaden the material science knowledge. In the light of acquired knowledge on material science, students are requested to perform gypsum carving, wax carving, and acrylic resin flasking (the process of investing the tooth carved from a wax block into a flask to form a sectional mold that is used to produce the relevant tooth from the acrylic resin) procedures in the practical committee.

To evaluate the performance of the students for this module, both practical and theoretical examinations are held on. In theoretical committee examinations, summative exams are performed by using a wide range of question types such as essay-type, fill-in-the-blank, or multiple-choice questions. In the practical examinations, within a limited time, students are requested to perform a practical assignment that has been previously done in the pre-clinic. A success grade is obtained by summing up three components: (1) the overall score of assignments performed throughout the year,

(2) the overall score of the practical quizzes, and (3) the score of the end-of-year practical examination.

This article is protected by copyright. All rights reserved For the F2F-educated group (2019-2020), every week before the practical session, a theoretical session was done instructing the anatomy of each permanent tooth in detail. In the practical session, students watched the F2F demonstration of soap-carving at the pre-clinic and were directed to perform carving. After a week of practice, students were subsequently asked to submit the relevant soap-carving assignment.

For the S2S-educated group (2020-2021), the dental anatomy module was conducted in a completely S2S manner. The same curriculum in the previous year was followed. The UZEBIM center was effectively used during the pandemic period. Students attended the synchronous online lectures on Google Meet and the recorded video of the lecture was uploaded and kept on the UZEBIM center for being persistently reachable to re-watch. An asynchronous soap carving demonstration video was also uploaded to the UZEBIM center before the practical session and an interactive live demonstration was performed on Google Meet every week at the beginning of the session which was also uploaded on UZEBIM center network. Students were divided into small groups (12 students maximum in each group) and invited to Google Meet links for the S2S practical session. The students were asked to turn on their cameras and practice soap carving under the observation of instructors.

Throughout that week, students were allowed to consult. After a week of practice, students were asked to submit the photographs of their assignments onto UZEBIM center. Students were asked to follow the guideline for image acquisition and preparation to obtain standardization in assignments ( Figure 1 ).

The evaluation of the practical assignments was made by the same lecturers according to the same criteria (Table 2 ) out of 100. The following grading boundaries were used in the consideration of the grades: ≤49 fail; 50-64 acceptable; 65-74 good; 75-84 very good; and ≥85 excellent (Bakr et al., 2016a) . Figure 2 presents three different assignments for mandibular first molar graded as excellent, good, and fail. To achieve standardization, in both academic years, the theoretical lectures of the permanent teeth were given by the same lecturers. Data of a total of 11 tasks, including maxillary and mandibular central and lateral teeth, maxillary canine, maxillary and mandibular premolar teeth, maxillary and mandibular first molars, were obtained.

This article is protected by copyright. All rights reserved

The grades of each student for each assignment were obtained for both education modalities. Student scores from the dental anatomy module were entered into MS Excel and imported into SPSS statistical package, version 23 (IBM Corp., Armonk, NY) for analysis. The values of P < 0.05 were accepted as statistically significant.

Three different assignments were determined to analyze the improvement of manipulation skills and manual dexterity within each education modality. For this purpose, the first (maxillary central), the middle-sixth (maxillary first premolar), and the last-eleventh (mandibular first molar) were selected. The supposition of normal distribution was confirmed with the aid of the Kolmogorov Smirnov test. The data of these tasks were analyzed with a one-way analysis of variance (ANOVA) test and subsequently with Tukey HSD post hoc test for pair-wise comparisons.

To compare the effects of F2F and S2S learning modalities on the performances of the students; grades of first, middle, and the last assignments were analyzed with the independent t-test.

Total scores of all assignments were also calculated for each student to obtain a cumulative success score. To evaluate the effect of education modality on general achievement, the cumulative success scores were compared with the independent t-test.

In the above-mentioned three assignments, the grades of the students were converted into nominal data (excellent, very good, good, acceptable, and fail) based on the rubric with thresholds. Subsequently, by cross tabulating the education model and the status of achievement, with the aid of the chi-square test, an additional analysis was conducted. The averages of the scores obtained by each student in the F2F and S2S modalities from 11 assignments were also calculated. The average achievement score obtained for each student were converted into nominal data (excellent, very good, good, acceptable, and fail) based on certain thresholds. Subsequently, the chi-square test was used for cross tabulating the education model and the status of average achievement.

Kendall's tau B and Cronbach's alpha were estimated to assess the validity and internal consistency (reliability) of the rubric scale (excellent, very good, good, acceptable, and fail).

The grading instruments used in this study were tested in terms of reliability. They represented reasonable reliability as Kendall's tau B ranged from 0.70 to 0.92 and Cronbach's alpha was 0.93. The

This article is protected by copyright. All rights reserved mean grades of the students' assignments and their standard deviations are demonstrated in Table 3 The enhancement in manual dexterity was evaluated by comparing the grades of first, middle, and last tasks within each education modality. For F2F and S2S education mediums, the manipulation skill was detected to be improved by means of exercise and training throughout the academic year.

Although no significant differences were found between maxillary central and maxillary first premolar tasks in both F2F (P = 0.293) and S2S (P = 0.093) education modalities; the grades of mandibular first molar tasks were significantly higher than maxillary central tasks in both F2F (P = 0.014) and S2S (P = 0.001) education modalities. While the grades of maxillary first premolar were significantly lower than those of mandibular first molars in the F2F-educated group (P = 0.001); no statistically significant difference was found between the grades of two tasks in the S2S-educated group (P = 0.098).

The medium of instruction was found to be effective on the achievement of the students enrolled in the dental anatomy and manipulation module. When the grades of the first, middle and last tasks were compared in terms of education modality, no difference was observed in the maxillary central task (P = 0.813); whereas the students who received the S2S dental anatomy practical course got significantly higher grades in the maxillary premolar (P = 0.001) and mandibular first molar tasks (P = 0.001). The cumulative success scores of eleven tasks were also analyzed to compare education modalities and the statistical analysis showed that the overall scores of the students in the F2F education modality (571 ±100.15 / 1100) were significantly lower than the scores of the students (605 ±136.20 / 1100) in the S2S education modality (P = 0.02) ( Table 3 ).

In overall, it was found that the education modality has mainly influenced the percentage of the high-achieving students. For the maxillary central assignment, 36.3% and 43.5% of the students received 'fail' grade enrolled in F2F and S2S courses, respectively, and no statistically significant difference was found between education models (P = 0.3198). However, a significantly higher percentage (7.2%) of students received the 'excellent' grade who took the course in the S2S modality (P = 0.001). Significantly lower percentages in 'fail' grades were detected for the S2S-educated students for both maxillary first premolar (P = 0.0008) and mandibular first molar (P = 0.0431).

This article is protected by copyright. All rights reserved Significant differences were also found in the 'very good' grade of maxillary first premolar (P = 0.0125) and mandibular first molar (P = 0.0418) at which percentages of S2S-educated students were higher. When the mean grades of 11 assignments for each student were evaluated according to the grading boundaries, a higher percentage of students got 'fail' grades in the F2F education model (P = 0.0293). The percentages of students who got 'excellent' (2.9%), 'very good' (34%), and 'good' (37%) grades were higher while only a significant difference was obtained for 'very good' grades (P = 0.0009) ( Table 4) .

This research assessed the influence of education modalities on the performances of the students in the dental anatomy and manipulation practical module. The cumulative success scores and the grades of specific tasks were compared for both education modalities and improvement of manipulation skill was evaluated within each education model. The results indicated that the students in the S2S group achieved significantly higher cumulative scores, therefore the first hypothesis of the study was rejected. Intergroup comparison revealed that there were no significant differences between the grades of the first tasks, and significantly higher grades were detected in the S2S group for the other tasks.

Consequently, the second hypothesis was also rejected. There were significant differences between the grades of the first and the last tasks for both education modalities as the grades increased towards the last task which confirms the acceptance of the third hypothesis.

The rigid challenge posed by the Covid-19 pandemic forced dental faculties to embrace S2S teaching (Wang, 2021) . The S2S learning in dentistry during the pandemic have been previously discussed (Alzahrani et al, 2020; Iyer et al., 2020; Mukhtar et al, 2020; Önöral and Kurtulmus-Yilmaz, 2020; Schlenz et al, 2020) and its flexibility was reported as the principal advantage. In this mode of delivery, students can pause, rewind, and review courses at their own pace without time limit and physical boundaries of classrooms (Mukhtar et al, 2020; Önöral and Kurtulmus-Yilmaz, 2020; Schlenz et al, 2020; Wang, 2021) . In the present study, the percentages of high achieving (excellent, very good grades) and average (good) students educated with S2S manner were considerably higher than those of the F2F-educated group, whereas the percentage of failed students was significantly lower. This may be attributed to the above-mentioned advantages of S2S learning especially for the

This article is protected by copyright. All rights reserved group of students that are more interested in and willing to the course. However, this finding is not in accordance with those of studies by Schlenz et al (2020) and Yang et al (2020) . Yang et al reported that despite having a high number of participants, S2S live lectures showed low learning progress with a low completion rate. Schlenz et al (2020) evaluated the perspectives of students and lecturers on S2S learning and concluded that students thought they were not prepared enough for the practical courses by participating only in S2S learning.

As the pandemic has continued, newly registered students in the dentistry faculty had to take the dental anatomy module in a completely S2S manner. Both academic and administrative members had concerns about the performance of newly registered students in the dental anatomy practical module as the students would not be able to examine 3D anatomy models used in the demonstrations and it was their first year in the dentistry faculty. However, the findings of this study revealed that students who got a fully S2S dental anatomy module showed significantly higher success scores. This result may be attributed to the accessibility of course materials. Different from previous years, this

year, video records of live dental anatomy theoretical sessions, soap carving demonstrations, and photographs of the carvings were uploaded onto the UZEBIM. In this manner, students were able to monitor course materials consistently. The use of recorded lectures in dental education has been suggested to serve as a supplement to enhance the learning capability of the students (Horvath et al., 2013; Kalludi et al, 2015) . Receiving detailed feedback on their assignments may be suggested as another explanation for the higher performance of students in the S2S learning group. During grading the assignments on the distance learning platform, the lecturers and students had an opportunity to give and receive feedback. It has been reported that regular two-way feedback increased motivation and improved self-efficacy (Wang and Wu, 2008) .

In the F2F education group, students have submitted their assignments to lecturers and lecturers evaluated them visually and three-dimensionally. However, in the S2S learning group, the assignments were graded by evaluating the photographs taken by the students and submitted to the distance learning platform. The latter method has some limitations which may result in higher or lower scores. Firstly, although students were asked to take photographs from different aspects and a guideline for submission was shared for each task; evaluation of two-dimensional photographs on a screen, the angle of photographs, and lighting conditions under which the images were captured may

This article is protected by copyright. All rights reserved all affect the accurate evaluation. Besides, students had a chance to edit the photographs before submission which cannot be detected by the lecturer and result in higher grades. To circumvent all these limitations, a video record of the task which makes the evaluation stage more accurate was requested from students to support the photographs. This approach was also implemented in the practical examinations and all alterations made on the task by the student were detected.

Current undergraduate dental students are part of generation Z which is also called the generation of digital natives since the members were born into a digital era and can adapt to technology easily. Generation Z students do not prefer traditional didactic teaching methods or listen to lectures for a long time and have higher demands for technology-based learning Reynolds et al., 2008; Dalmolin et al, 2018; Eckleberry-Hunt et al, 2018) . A recent study (Abdalla, 2020) concluded that the use of digital technology in dental anatomy teaching was highly appreciated and rated by dental students.

This pandemic experience led the faculties to reconsider their dental curricula (Iyer et al, 2020) . Traditionally, the learning model consists of 2D illustrations (clinical photographs, radiographs, or schematic drawings) on which the lecturer elucidates the morphology of the dentition.

However, it is cumbersome, passive-learning, and inconvenient to acquire the learning content and morphological details. With this regard, real 3D models obtained from polystyrene or calcium sulfate can be regarded as beneficial at the pre-clinic. However, these models are not home portable. (Juan et al., 2016) . Similarly, cadaveric teaching for human anatomy is commonly preferred. However, manifold problems such as an insufficient number of cadavers in comparison to the number of students or difficulties in conserving cadavers (Zafar and Zachar, 2020) . To circumvent all these drawbacks, innovative approaches such as virtual reality (VR) and augmented reality (AR) have been introduced to contemporary dental education. Accelerated learning outcomes have been achieved with these innovations (Zafar and Zachar, 2020). Supportively, Juan et al (2016) highlighted that augmented reality is completely intuitive and facilitates the study of dentition at home without the demand for a real 3D model. Another study suggested that the integration of AR technology provides an additional means of dental anatomy training. However, the same study also states that it cannot replace traditional cadaver education but will only serve as a supplement to traditional mode. Moro et al (2017) recommended the use of VR and AR technologies as means to supplement course content in

This article is protected by copyright. All rights reserved anatomy education. Reymus et al (2020) investigated the effectiveness of VR technology in teaching root canal anatomy and concluded that third-year undergraduate students greatly appreciated VR simulation. Bakr et al (2013) and Bakr et al (2015) underlined another innovative modality in which computer-driven haptic-based dental simulators are used. These simulators present a vast number of advantageous properties including safety, ethical advantage, error management, the relevance of training, and enhanced precision as the tactile sensation is integrated into them. In the light of these data, it can be said that although students enjoy learning with these innovative tools; it is uncertain whether they present superior results in terms of knowledge acquisition.

Blended learning is a student-centered pedagogical approach that combines F2F and S2S learning modalities (Bakr et al., 2016a; Ma et al., 2019) . Investigations on blended learning have sorely increased over the past decade for a better understanding of its applicability and sustainability in dentistry. Although Bennardo et al (2020) emphasized blended learning as a cornerstone of future dental education and Bakr et al (2016b) supported hybrid or blended model as a future of anatomy education; an ongoing controversy exists. Some of the researchers argue that traditional F2F education will completely replace S2S mode soon; however, some argue that the blended education model, in which S2S education acts as a complement, will be more dominant. Recently, flipped classroom, also known as an inverted classroom, has come to the fore as a subcategory of blended education and as an instructional strategy by which didactic information is given before class and the class-time is used as a dynamic interactive learning environment with the aid of mutual discussion (Bakr et al., 2016a; Day, 2018) . It has been drastically evaluated in the literature for dental anatomy modules and found to improve student performance by increasing the engagement and motivation of students (Bakr et al., 2016a; Chutinan et al, 2018; Kelleserian et al., 2018) . Supportively, another study documented that lower-performing students can benefit more from the flipped classroom than the higher-performing students (Day, 2018) . Instead of being purely S2S education, the future curriculum of dental anatomy modules may include flipped or blended learning to better accommodate generation Z and enhance learning by shifting it towards the active contribution of students and improving student-lecturer interaction.

This article is protected by copyright. All rights reserved

In the current study, students were not asked to evaluate the S2S education quantitatively or qualitatively or compare the F2F and S2S modalities which may be regarded as a limitation. The student satisfaction level may be the subject of future studies. Additionally, this study is limited to one dentistry faculty. A greater number of participants from a wider cohort of students would better reflect the consequences.

The inherent characteristics (aerosol involvement, gathering in pre-clinic, simulation laboratory, or clinics, F2F interaction with patients) of dental settings can pose potential risk factors in terms of Covid-19 transmission. Therefore, this pandemic has forced a vast number of dentistry faculties to quickly shift to S2S teaching, with the aid of all innovative techniques facilitating lecturer-student interaction. In this study, the effectiveness of S2S and F2F learning modalities in the dental anatomy module was scrutinized and the S2S education was suggested as an applicable modality for teaching dental anatomy and manipulation module. However, to reinforce this finding, future studies are strongly needed as purely S2S education was not widely accepted in dental education wherein practical training predominates. In accordance with the futuristic approach, the blended or hybrid mode which amalgamates the advantageous properties of S2S mode (virtual reality, augmented reality, haptic simulation) with F2F mode will be accepted as optimal. 

This article is protected by copyright. All rights reserved 

This article is protected by copyright. All rights reserved Number of participants in the face-to-face group (n = 220) and in the screen-to-screen group (n=138). a P < 0.05. F2F, face-to-face, S2S: screen-

Impact of COVID-19 pandemic on dental education, research, and students

Evaluation of Simodont ® haptic 3D virtual reality dental training simulator

Can virtual simulators replace traditional preclinical teaching methods: A students' perspective

Flipping a dental anatomy course: A retrospective study over four years

Digital cadavers: Online 2D learning resources enhance student learning in practical head and neck anatomy within dental programs

Anatomical sciences: A foundation for a solid learning experience in dental technology and dental prosthetics

COVID-19-Future of dentistry

Novel coronavirus (COVID-19) and dentistry -A comprehensive review of literature

COVID-19 is a challenge for dental education-A commentary

Innovation of dental education during COVID-19 pandemic

Accepted Article This article is protected by copyright. All rights reserved

Student performance in a flipped classroom dental anatomy course

Educational Interventions to Improve Dental Anatomy Carving Ability of Dental Students: A Systematic Review

Learning styles preferences and e-learning experience of undergraduate dental students

A gross anatomy flipped classroom effects performance, retention, and higher-level thinking in lower performing students

Optimizing quality of dental carving by preclinical dental students through anatomy theory reinforcement

Comparative effectiveness of dental anatomy carving pedagogy: A systematic review

The COVID-19 pandemic: Implications for dental education

A vision of dental education in the third millennium

Is medical education ready for Generation Z?

Accepted Article This article is protected by copyright. All rights reserved

Teledentistry during COVID-19 pandemic

Use of lecture recordings in dental education: Assessment of status quo and recommendations

In an era of uncertainty: Impact of COVID-19 on dental education

Impact of COVID-19 on dental education in the United States

COVID-19 transmission in dental practice: Brief review of preventive measures in Italy

A mobile augmented reality system for the learning of dental morphology

Is video podcast supplementation as a learning aid beneficial to dental students?

Flipping the dental anatomy classroom

Assessment of two e-learning methods teaching under-graduate students cephalometry in orthodontics

Accepted Article This article is protected by copyright. All rights reserved

Enhancing students' blended learning experience through embedding metaliteracy

COVID-19 pandemic and the impact on dental education: Discussing current and future perspectives

Coronavirus disease 2019 (COVID-19): Emerging and future challenges for dental and oral medicine

The effectiveness of virtual and augmented reality in health sciences and medical anatomy

Advantages, limitations and recommendations for online learning during COVID-19 pandemic era

Wheeler's Dental Anatomy, Physiology and Occlusion. 10 th Ed

Teaching clinically relevant dental anatomy in the dental curriculum: Description and assessment of an innovative module

Direct assessment as a measure of institutional effectiveness in a dental hygiene distance education program

Accepted Article This article is protected by copyright. All rights reserved

Influence of COVID-19 pandemic on dental education in Cyprus: Preclinical and clinical implications with e-learning strategies

Knowledge, attitude and practice of tooth morphology among dental students

Virtual reality: An effective tool for teaching root canal anatomy to undergraduate dental students -A preliminary study

Remember the days in the old school yard: From lectures to online learning

Effectiveness of e-learning in oral radiology education: A systematic review

Students' and lecturers' perspective on the implementation of online learning in dental education due to SARS-CoV-2 (COVID-19): A cross-sectional study

Synchronous and asynchronous e-learning styles and academic performance of e-learners

A journey like no other: Anatomy

A nationwide survey of online teaching strategies

357 -983] in the face-to-face group (n = 220) and in the screen-to-screen group (n=138). P-values indicate the statistical differences between two groups in the same row

This research was presented as an oral presentation at the 1st International Dental Education Congress in Ankara, Turkey (11-15 January 2021).