Next Article in Journal / Special Issue
Peer Mentoring as a Tool for Developing Soft Skills in Clinical Practice: A 3-Year Study
Previous Article in Journal
Conservative Non-Surgical Management of Horizontal Root-Fractured Maxillary Incisors in a Young Male with Angle Class II, Division 2, Malocclusion
Previous Article in Special Issue
Identifying Risk Factors Affecting the Usage of Digital and Social Media: A Preliminary Qualitative Study in the Dental Profession and Dental Education
 
 
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Brief Report

Psychometric Characteristics of Oral Pathology Test Items in the Dental Hygiene Curriculum—A Longitudinal Analysis

Department of Oral Pathology, Medicine and Radiology, Indiana University School of Dentistry, Indiana University Purdue University at Indianapolis, Indianapolis, IN 46202, USA
Submission received: 25 March 2021 / Revised: 19 April 2021 / Accepted: 22 April 2021 / Published: 13 May 2021
(This article belongs to the Special Issue Dental Education)

Abstract

:
As the landscape of oral healthcare and the delivery of services continue to undergo change, the dental hygienist plays an increasing role in assisting dentists with oral diagnosis and preventive strategies. Hence, the dental hygiene curriculum standards require biomedical science instructions, including general and oral pathology. Student learning and cognitive competencies are often measured using multiple-choice questions (MCQs). The objectives of this study were to perform a longitudinal analysis of test items and to evaluate their relation to the absolute grades of the oral pathology course in the dental hygiene curriculum. A total of 1033 MCQs covering different concepts of oral pathology administered from 2015 through 2019 were analyzed for difficulty and discriminatory indices, and the differences between the years were determined by one-way ANOVA. Test reliability as determined by the average KR-20 value was 0.7 or higher for each exam. The mean difficulty index for all exams was 0.73 +/− 0.05, and that of the discriminatory index was 0.33 +/− 0.05. Wide variations were observed in the discriminatory indices of test items with approximately the same difficulty index, as well as in the grade distribution in each cohort. Furthermore, longitudinal data analyses identified low achieving cohorts amongst the groups evaluated for the same knowledge domain, taught with the same instruction, and using similar test tools. This suggest that comparative analyses of tests could offer feedback not only on student learning attributes, but also potentially on the admission processes to the dental hygiene program.

1. Introduction

Dental hygienists play an integral role in assisting individuals and groups in achieving and maintaining optimal oral health. Thus, the dental hygiene educational guidelines recommended by the Commission on Dental Accreditation (CODA) require instructions on biomedical sciences to ensure an understanding of the basic biological principles for comprehensive oral hygiene care [1]. The CODA standards specify that pathology class time hours should be classified in terms of general pathology and oral pathology. By description, the general pathology content areas focus on the nature of disease processes and the associated alterations in structure and function.
The oral pathology content emphasizes the etiopathogenesis of oral diseases, and the systemic pathology teaches the etiologies and host responses of organ systems [2]. Traditionally, dental hygiene education has relied on a teacher-delivered, lecture-based curriculum and a performance-based approach to clinical activities. In recent years, the lecture as an instructional format is supplemented with a variety of useful adjunct educational tools, such as videos, student-led discussions, and online activities that are incorporated into the curriculum. This ensures the proper transfer and acquisition of knowledge, preparing the students to understand and participate comprehensively in the delivery of oral healthcare [3].
Student learning is often evaluated using multiple choice questions (MCQs) that test cognitive competencies [4]. The assessment of learning is an important element of an instructional design process, which provides feedback on learning and teaching processes and enables the review and improvement of the whole process [5,6]. There have been few reports on the assessment of general and oral pathology instruction in terms of instructional content and student performance [7]. Various methods are used to assess multiple-choice tests to provide feedback on learning and teaching processes. Item analysis is one such method that examines student responses to individual test item. The Difficulty Index (DI) is the percentage of students who chose the correct answer, and is expressed as a fraction of 1 or as a percentage. The Discrimination Index (Disc-I), or point biserial correlation, measures how students who did well or poorly overall performed on an item. In other words, the discriminating measures evaluate how performance on a single item correlated with overall performance [8,9,10].
This study aims to determine the DI, Disc-I, or point biserial correlation of the MCQs administered as part of the oral pathology course in the dental hygiene bachelor’s degree program offered through Purdue University at Indianapolis, Indiana. The MCQs were designed to test the student’s comprehension of the content and its application to the practice of dental hygiene. The specific research objectives were to perform item analysis of MCQ test items in an oral pathology course to evaluate the relationship between the DI and Disc-I of multiple-choice questions and the distribution of grades in the oral pathology course in the dental hygiene curriculum; and (2) to compare the reliability of the MCQ exams assessing the same knowledge domain across multiple years.

2. Methods

Question cohort and participants: The study cohort consisted of 1033 MCQs (with four choices) that were included across twenty exams in the fall semesters of 2015–2019 at four exams per year, covering different concepts of oral pathology. The number of exam takers were 30 in each exam in 2015, 27 in each exam in 2016, 19 in each exam in 2017, and 20 in each exam in 2018 and in 2019.
Data collection: ExamSoft testing software (ExamSoft Worldwide, Dallas, TX, USA) was used to administer the MCQ exams [11]. Questions were presented as one question per screen. The exam takers were allowed one hour to complete the exam, and could advance to the next question, review previous questions, and change answers as desired. After completion, the exam takers uploaded the examination file to the ExamSoft database. All questions in each exam were used for data collection, and the raw score of each exam taker in terms of the total number of correct responses, the percentage of correct responses, and the letter grade based on a pre-determined range were obtained in the summary report. In ExamSoft, the internal consistency and reliability of each exam was measured by KR-20 (Kuder–Richardson Formula). It considers all dichotomous questions and how many exam takers answered each question correctly [12]. The ExamSoft statistical report for each item also included DI, Disc-I, and point biserial.
Data analysis: The mean DI, Disc-I, and point biserial were calculated for each of the four exams of each year. The difference in the mean scores of DI, Disc-I, and point biserial scores was assessed by one-way ANOVA and Tukey’s post hoc analysis. A p-value of less than 0.05 was considered significant. An absolute grading system was used to provide a letter grade for the exam based on the average scores of all four exams at the end of the semester in each year on a scale of 90–100 points for A, 80–89 points for B, 70–79 points for C, and an F for points 69 and below [13,14].

3. Results

Course duration: In the current study, the format of didactic instruction in the pathology courses included thirty-two hours of lectures and online activities and sixty-four hours of individual student–instructor hours as needed. Each year, students were assessed by four MCQ tests over the course of 16 weeks. Table 1 gives examples of MCQs covering two distinct concepts of the oral pathology curriculum.
The reliability of exams: The reliability of the examination was measured using KR-20; a high KR-20 indicates that if the same exam takers took the same assessment, there is a higher chance that the results would be the same. A low KR-20 means that the results would be more likely to be different [12]. A KR-20 value of <0.3 is considered poor, and a value of ≥0.7 is considered acceptable [15,16]. The mean and standard deviation of the KR-20 value for each of the four exams administered over five consecutive years is given in Table 2.
The item analysis of exams: The mean DI of the examinations ranged from 63% in 2018 to 81% in 2015, that of the mean Disc-I ranged between 0.25 in 2019 to 0.43 in 2016, and that of the mean point biserial ranged between 0.25 in 2015 to 0.45 in 2016 (Table 3). The mean DI for all of the exams for the course in each year was 72 +/− 4.72%, a value that is widely considered acceptable. The overall mean Discriminatory Index was 0.33 +/− 0.05, and the overall mean point biserial was 0.34 +/− 0.05 (Table 2). The average DI was significantly higher in the year 2015 (77.8 +/− 2.9%) than that for the years 2017 (70.3 +/− 3.3%), 2018 (71.3 +/− 5.4%), and 2019 (70 +/− 3.54%). The Discriminatory Index and point biserial were significantly lower in 2017 compared to the values in 2015.
Course grade across five years: The exam takers were provided an absolute grade based on predetermined cutoff levels. Data showed that the letter grade A was achieved from 20% to 35% of exam takers in each of the four exams in 2015 and 2019. The letter grade B was the most common, obtained by >50% of the exam takers in all years except 2017, in which the common grade of exam takers was C (Figure 1A). The final grade for the course based on the average of four exams per year suggested that the most common grade for the course was B for all years except for 2017, with most exam takers obtaining a C. The percentage of exam takers with a grade F was higher in the years 2016–2018.
Relationship between grade distribution and DI and Disc-I: As noted above, although the material taught, the instructor, and the multiple-choice question developer were the same across the years, the distribution of grading was different. The DI of 78% suggested that the 2015 cohort of exam takers found that the test items were relatively easy, and was reflected in the higher percentage of individuals achieving the letter grade A in 2015 (Figure 1B). The lower Disc-I and point biserial in the 2017 cohort suggested that the items were identified as relatively hard, and thereby was reflected the lower percentage of exam takers who achieved scores consistent with the letter grade A (Figure 2) [17].
Next, the contribution of individual item characteristics, DI, Disc I, or point biserial, to the differences in the grade distribution was evaluated. Analysis of performance of twenty-five test items with approximately the same DI ( +/− 0.05) showed that the test items exhibited varied Disc-I and point biserial indices, potentially reflecting the differences in the ability of the exam taker cohorts (Figure 2).

4. Discussion

One of the most challenging areas in dental and dental hygiene practice is the diagnostic process. The dental hygienist plays a key role in the preliminary evaluation and data collection of oral pathologic conditions for final diagnosis and management by the dentist [18]. Instruction in pathology content areas helps prepare the students of dental hygiene for this role. It has been stated that the knowledge gained from pathology instruction enables students to understand and participate comprehensively in the delivery of healthcare [3].
In addition to the content, the assessment of learning is an important element of an instructional design process. It provides feedback on learning and teaching processes and enables the review and improvement of the whole process [5,19]. Although some basic test statistics, including the mean, median, and mode, have been carried out routinely, there is a paucity of item analysis in specific subjects of the pathology course domain in dental hygiene education. This study examined the assessment of the oral pathology instructions in the dental hygiene program from two different perspectives: evaluating student learning using item analysis of MCQs and evaluating the test content in assessing student comprehension across multiple years. Furthermore, we discuss whether the data could be of value in a retrospective analysis of admission criteria to the dental hygiene program.
This study included only single best response MCQs designed specifically to assess broad domains of knowledge effectively and reliably [15,20,21]. In the present study, the mean DI value was 72.6 +/− 4.7%, which is widely considered an acceptable level of difficulty. Similarly, the mean Disc-I and point biserial values, 0.33 +/− 0.05 and 0.34 +/− 0.05, respectively, were also within an acceptable range. The Disc-I and point biserial coefficient values correlate with a dichotomous variable (a right or wrong response for a single item) and a continuous variable (the test score) [15,22,23]. The data showed that these values exhibited significant variations for items with similar levels of DI in different cohorts of exam takers. Although variations in discriminatory indices are often considered indicators of ambiguous wording, the wide scatter could also reflect some extent of guessing practices [8,24,25]. Pertinently, Dascalu et al. observed that, in a cohort of students in dental medicine, while the grades of MCQ tests followed a normal distribution, the average was significantly lower than that in traditional oral examinations [6]. A limitation of this study is that the analysis was restricted to one subject domain in the senior year of the dental hygiene curriculum, and may not be representative of the overall ability of the exam takers to succeed in other didactic or clinical courses.
Alternatively, variations in the Discriminatory Index and point biserial across the years could reflect the learning attributes of the exam taker cohort. It is observed that the analysis across five years showed that the Discriminatory Index for the same test item was consistently lower in the year 2017, and the average test grade for this cohort was one grade lower (C) than that of the other years. In this context, it is interesting to note that the KR-20 value for exams three and four in the year 2017 were 0.57 and 0.56, respectively. Since the calculation of KR-20 is based on the standard deviation and the proportion of students responding correctly and incorrectly, it appears that the lower Discriminatory Index for the year 2017 could at least be partially cohort specific. Typically, admissions to the dental hygiene program require at least one year of college and the completion of prerequisite courses, including anatomy, biology, chemistry, microbiology, and math. Interestingly, in a recent analysis of predictive factors for student success in dental school, Sabato et al. showed that the elements of undergraduate education could help identify students who are at risk for poor performance and require timely intervention [26].

5. Conclusions

As with other health professional training, the effective measurement of knowledge is an important component of both allied dental education and practice [20,27,28]. Well-designed, single-choice MCQs are excellent tools to align the evidence resulting from the tests with student achievement or cognition as reflected in the grades [4,15]. Our observations of a low-achieving cohort amongst the cohorts of five consecutive years evaluated for the same knowledge domain using similar test tools suggest that the comparative analyses of tests could offer some feedback not only on learning abilities, but also on the selection processes for admission to the dental hygiene program. It will be interesting to analyze similarly concurrent courses offered and tested for the same cohort of exam takers.

Funding

This research received no external funding.

Institutional Review Board Statement

The study was conducted according to the guidelines of the Declaration of Helsinki, and approved by the Institutional Review Board of Indiana University Purdue University at Indianapolis (protocol #: 2011678210 and date of approval: 25 November 2020).

Informed Consent Statement

Not applicable.

Conflicts of Interest

The author declares no conflict of interest.

References

  1. CODA. Accreditation Standards for Dental Hygiene Education Programs; CODA: Chicago, IL, USA, 2018. [Google Scholar]
  2. ADEA. ADEA Compendium of Curriculum Guidelines (Revised Edition). In Allied Dental Education Programs; ADEA: Washington, DC, USA, 2016. [Google Scholar]
  3. Lyle, D.; Grill, A.; Olmsted, J.; Rotehn, M. Leading the transformation of the dental hygiene profession to improve the public’s oral and overall health. In American Dental Hygienists Association: National Dental Hygiene Research Agenda; ADHA, CODA: Chicago, IL, USA, 2016. [Google Scholar]
  4. Glass, A.L.; Sinha, N. Multiple-Choice Questioning Is an Efficient Instructional Methodology That May Be Widely Implemented in Academic Courses to Improve Exam Performance. Curr. Dir. Psychol. Sci. 2013, 22, 471–477. [Google Scholar] [CrossRef]
  5. Momsen, J.; Offerdahl, E.; Kryjevskaia, M.; Montplaisir, L.; Anderson, E.; Grosz, N. Using Assessments to Investigate and Compare the Natureof Learning in Undergraduate Science Courses. CBE Life Sci. Educ. 2013, 12, 239–249. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  6. Dascalu, C.; Enache, A.; Mavru, R.; Zegan, G. Computer-based MCQ assessment for students in dental medicine-advantages and drawbacks. Procedia Soc. Behav. Sci. 2015, 187, 22–27. [Google Scholar] [CrossRef] [Green Version]
  7. Jacobs, B.B.; Lazar, A.A.; Rowe, D.J. Assessment of pathology instruction in U.S. Dental hygiene educational programs. J. Dent. Hyg. 2015, 89, 109–118. [Google Scholar]
  8. Koçdar, S.; Karadag, N.; Sahin, M.D. Analysis of the Difficulty and Discrimination Indices of Multiple-Choice Questions According to Cognitive Levels in an Open and Distance Learning Context. Turk. Online J. Educ. Technol. 2016, 15, 16–24. [Google Scholar]
  9. Lesage, E.; Valcke, M.; Sabbe, E. Scoring methods for multiple choice assessment in higher education—Is it still a matter of number right scoring or negative marking? Stud. Educ. Eval. 2013, 39, 188–193. [Google Scholar] [CrossRef]
  10. Pande, S.S.; Pande, S.R.; Parate, V.R.; Nikam, A.P.; Agrekar, S.H. Correlation between difficulty & discrimination indices of MCQs in formative exam in Physiology. South-East Asian J. Med. Educ. 2013, 7, 45–50. [Google Scholar]
  11. Zheng, M.; Bender, D. Evaluating outcomes of computer-based classroom testing: Student acceptance and impact on learning and exam performance. Med. Teach. 2019, 41, 75–82. [Google Scholar] [CrossRef]
  12. ExamSoft. A Guide to Statistics (Legacy and Enterprise Portal). 2021. Available online: https://community.examsoft.com/s/article/A-Guide-to-the-Statistics-Legacy-and-Enterprise-Portal (accessed on 19 March 2021).
  13. Ganzfried, S.; Yusuf, F. Optimal Weighting for Exam Composition. Educ. Sci. 2018, 8, 36. [Google Scholar] [CrossRef] [Green Version]
  14. Sayin, A. The Effect of Using Relative and Absolute Criteria to Decide Students’ Passing or Failing a Course. J. Educ. Train. Stud. 2016, 4, 2–16. [Google Scholar] [CrossRef]
  15. Daggett, L. All of the Above: Computerized Exam Scoring of Multiple Choice Items Helps To: (A) Show How Exam Items Worked Technically, (B) Maximize Exam Fairness, (C) Justly Assign Letter Grades, and (D) Provide Feedback on Student Learning. J. Leg. Educ. 2007, 57, 391. [Google Scholar]
  16. Quaigrain, K.; Arhin, A.K. Using reliability and item analysis to evaluatea teacher-developed test in educationalmeasurement and evaluation. Cogent Educ. 2017, 14, 1301013. [Google Scholar] [CrossRef]
  17. Sim, S.M.; Rasiah, R.I. Relationship between item difficulty and discrimination indices in true/false-type multiple choice questions of a para-clinical multidisciplinary paper. Ann. Acad. Med. Singap. 2006, 35, 67–71. [Google Scholar] [PubMed]
  18. Overman, P.; Gurenlian, J.; Kass, S.; Shepard, K.; Steinbach, P.; Stolberg, R. Transforming Dental Hygiene Education: New Curricular Domains and Models. In Proceedings of the American Dental Hygiene Association Annual Meeting, Las Vegas, NV, USA, 19 June 2014. [Google Scholar]
  19. Yang, B.W.; Razo, J.; Persky, A.M. Using Testing as a Learning Tool. Am. J. Pharm. Educ. 2019, 83, 7324. [Google Scholar] [CrossRef] [PubMed]
  20. Schultz, D.S. A Model for Using the National Board Dental Hygiene Examination Results as a Method of Outcomes Assessment. Ph.D. Thesis, Department of Teaching, Learning and Leadership, Western Michigan University, Kalamazoo, MI, USA, 2004. [Google Scholar]
  21. Skakun, E.N.; Nanson, E.M.; Kling, S.; Taylor, W.C. A preliminary investigation of three types of multiple choice questions. Med. Educ. 1979, 13, 91–96. [Google Scholar] [CrossRef] [PubMed]
  22. Sabri, S. Item analysis of student comprehensive test for research in teaching beginner string ensemble using model based teaching among music students in public universities. Int. J. Educ. Res. 2013, 1, 1–14. [Google Scholar]
  23. Thompson, J.J. What Are You Measuring? Dimensionality and Reliability Analysis of Ability and Speed in Medical School Didactic Examinations. J. Appl. Meas. 2016, 17, 91–108. [Google Scholar]
  24. Abdulghani, H.M.; Irshad, M.; Haque, S.; Ahmad, T.; Sattar, K.; Khalil, M.S. Effectiveness of longitudinal faculty development programs on MCQs items writing skills: A follow-up study. PLoS ONE 2017, 12, e0185895. [Google Scholar] [CrossRef]
  25. Kheyami, D.; Jaradat, A.; Al-Shibani, T.; Ali, F.A. Item Analysis of Multiple Choice Questions at the Department of Paediatrics, Arabian Gulf University, Manama, Bahrain. Sultan Qaboos Univ. Med. J. 2018, 18, e68–e74. [Google Scholar] [CrossRef]
  26. Sabato, E.H.; Perez, H.L.; Jiang, S.; Feldman, C.A. Elements of Undergraduate Education Related to Students’ Academic Performance in the First Year of Dental School. J. Dent. Educ. 2019, 83, 510–520. [Google Scholar] [CrossRef]
  27. Williams, K.B.; Schmidt, C.; Tilliss, T.S.; Wilkins, K.; Glasnapp, D.R. Predictive validity of critical thinking skills and disposition for the national board dental hygiene examination: A preliminary investigation. J. Dent. Educ. 2006, 70, 536–544. [Google Scholar] [CrossRef] [PubMed]
  28. Bianchi, S.; Bernardi, S.; Perili, E.; Cipollone, C.; Di Biasi, J.; Macchiarelli, G. Evaluation of effectiveness of digital technologies during anatomy learning in nursing school. Appl. Sci. 2020, 10, 2357. [Google Scholar] [CrossRef] [Green Version]
Figure 1. (A) Letter grade in each exam for each year. The students were provided a letter grade based on the percentage of their raw score against a fixed scale of absolute grading: 90–100% for A, 80–89% for B, 70–79% for C, and an F for points 69% and below. (B) The average of the four exams for each year was used as the final grade for the oral pathology course. The line graph is the average Discriminatory Index for all four exams of the indicated year.
Figure 1. (A) Letter grade in each exam for each year. The students were provided a letter grade based on the percentage of their raw score against a fixed scale of absolute grading: 90–100% for A, 80–89% for B, 70–79% for C, and an F for points 69% and below. (B) The average of the four exams for each year was used as the final grade for the oral pathology course. The line graph is the average Discriminatory Index for all four exams of the indicated year.
Dentistry 09 00056 g001
Figure 2. The relationship between the DI and point biserial of test items. Twenty-five test items included in the exams in each year with a similar DI were selected. Line graphs are the point biserial value of the indicated test item. The point biserial value (the broad brown line) indicates the values of the test time in 2017.
Figure 2. The relationship between the DI and point biserial of test items. Twenty-five test items included in the exams in each year with a similar DI were selected. Line graphs are the point biserial value of the indicated test item. The point biserial value (the broad brown line) indicates the values of the test time in 2017.
Dentistry 09 00056 g002
Table 1. Examples of MCQs and respective DI and Disc-I.
Table 1. Examples of MCQs and respective DI and Disc-I.
A 50-year-old ex-smoker is referred to the dentist by a cardiologist. Past history includes severe recurrent oral ulcerations affecting lateral borders of the tongue, labial mucosa, and soft palate. Ulcers are one or two at a time and persist for about eight weeks. Medical history showed use of a potassium channel activator (nicorandil) for unstable angina and aspirin (75 mg/day) since his myocardial infarction nine months ago. He has no eye, skin, or genital ulcerations. The most probable cause of the major RAS ulcers is
  • Aspirin burn
  • Bechet’s disease
  • Nicorandil use (potassium channel blocker)
  • Smoking cessation
Academic YearDIDisc-I
20150.650.4
20160.650.6
20170.630.6
20180.10.2
20190.350.0
A middle-aged man presented with a slowly growing swelling on the left side of the mandible. The X-ray showed driven snow appearance of mixed radio-opacity and radiolucency. The most likely diagnosis is
  • Odontogenic keratocyst
  • Ameloblastoma
  • Pindborg’s tumor
  • Compound odontoma
Academic YearDIDisc-I
20150.720.38
20160.760.4
20170.790.2
20180.750.4
Table 2. The reliability score of each exam as determined by the Kuder–Richardson formula 20 coefficient (KR-20).
Table 2. The reliability score of each exam as determined by the Kuder–Richardson formula 20 coefficient (KR-20).
KR-20 Values
20152016201720182019AverageSD
Exam 10.730.680.70.710.760.7160.03
Exam 20.720.520.810.680.760.6980.10
Exam 30.770.770.570.770.680.7120.08
Exam 40.70.680.560.830.670.6880.09
Average0.730.66250.660.74750.7175
SD0.030.090.100.060.04
Table 3. Item analysis including the Difficulty Index, Discriminatory Index, and point biserial score of each exam.
Table 3. Item analysis including the Difficulty Index, Discriminatory Index, and point biserial score of each exam.
ADifficulty Index
20152016201720182019AverageSD
Exam 10.780.710.670.70.730.720.04
Exam 20.730.70.670.630.670.680.03
Exam 30.790.770.740.770.660.750.05
Exam 40.810.760.730.750.740.760.03
Average0.780.740.700.710.70.730.03
SD0.030.030.030.050.04
BDiscriminatory Index
20152016201720182019AverageSD
Exam 10.350.430.290.290.250.320.06
Exam 20.30.330.370.410.370.360.04
Exam 30.350.340.260.350.260.310.04
Exam 40.280.40.30.340.310.330.04
Average0.320.3750.3050.350.3
SD0.030.040.040.040.05
CPoint Biserial AverageSD
Exam 10.340.40.250.310.280.320.05
Exam 20.350.320.350.340.330.340.01
Exam 30.320.450.270.370.320.340.06
Exam 40.330.430.320.360.330.350.04
Average0.340.40.30.350.32
SD0.010.040.040.020.02
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Srinivasan, M. Psychometric Characteristics of Oral Pathology Test Items in the Dental Hygiene Curriculum—A Longitudinal Analysis. Dent. J. 2021, 9, 56. https://0-doi-org.brum.beds.ac.uk/10.3390/dj9050056

AMA Style

Srinivasan M. Psychometric Characteristics of Oral Pathology Test Items in the Dental Hygiene Curriculum—A Longitudinal Analysis. Dentistry Journal. 2021; 9(5):56. https://0-doi-org.brum.beds.ac.uk/10.3390/dj9050056

Chicago/Turabian Style

Srinivasan, Mythily. 2021. "Psychometric Characteristics of Oral Pathology Test Items in the Dental Hygiene Curriculum—A Longitudinal Analysis" Dentistry Journal 9, no. 5: 56. https://0-doi-org.brum.beds.ac.uk/10.3390/dj9050056

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop