Influence of applying VARK learning styles on enhancing teaching skills: application of learning theories.

BACKGROUND: Social media in our networks have been exploited as dynamic learning tools and free platforms. AIMS: The main objective of this study is to determine the impact of VARK learning styles (visual (V), aural (A), read/write (R), and kinesthetic (K)) in enhancing parasitological laboratory skills using social media and various learning theories. METHODS: A research sample of 100 chemists working in Mega Alfa labs underwent online learning of laboratory parasitology skills via Facebook posts and WhatsApp dictated messages for an average of 7 weeks. All posts served various VARK learning styles and were designed based on Zeigarnik's effect (conducting information with tactical breaks), memory storage and retrieval strength theories (repetition of information). Trainees were classified according to their VARK learning style preferences and were evaluated through pre/post-tests. Data on VARK learning styles were summarized using frequency (count) and relative frequency (percentage). Data of pre-test and post-test scores were summarized using mean and standard deviation. T-test was used to compare pre-test and post-test scores. The difference between the pre-test results, the post-test results and the preferred learning style was analyzed using ANOVA with Tukey's post-hoc testing. P-values less than 0.05 were considered statistically significant. RESULTS: In a total of 100 trainees, tri-modal and multimodal learning styles were preferred by 40% and 30% of the trainees respectively; on the contrary, the unimodal and bimodal learning styles were the least preferred. In the trimodal and multimodal groups, the post-test results showed significant increase when compared with the pre-test results. Also, using the ANOVA test and a Tukey's post-hoc comparison, the assemblage of multiple learning styles (tri-modal and multimodal) appeared to significantly improve the learning performance in the post-test results when compared with the unimodal and bimodal groups. CONCLUSION: The tri-modal and multimodal learning styles were found to influence the acquirement of the laboratory parasitology skills much better than the unimodal and bimodal learning styles. Kinesthetic learning should have a special emphasis in training.

Current status of parasitic diseases in Japan and request from a clinician to parasitologists.

In Japan, parasitic diseases are rare today, with the exception of amebiasis and anisakidosis. As a result, many Japanese clinicians have limited knowledge of parasitic diseases and do not consider them important. Parasitology departments in the schools of medicine in Japan have tended to be replaced or downsized, and the amount of time spent for the teaching of parasitology to undergraduate students has been shortened. However, even in Japan, patients with parasitic diseases visit clinics or hospitals. Medical students have to learn the diagnosis and basic treatment of parasitic diseases that could cause death or serious sequelae without proper treatment, and those which are relatively frequently encountered in Japan. It is also essential for the students to know the circumstances they should suspect parasitic diseases. There is nothing restricting a parasitologist from responding to questions and requests from clinicians regarding diagnosis and treatment; rather, it is in the best interest of patients with parasitic diseases to do so based on their professional knowledge.

The Bibliometric Analysis of the Postgraduate Theses Written on Medical Parasitology in Türkiye.

Objective: The aim of this study was to analyze the theses prepared in the field of medical parasitology in Türkiye and to reveal the importance given to the science of parasitology in the groves of academe and to raise awareness in this field. Methods: Council of Higher Education's National Thesis Center database has been analyzed postgraduate these documents conducted in the field of medical parasitology from January 1985 to September 2022. Results: As a result of the examining, 393 theses made in the field of medical parasitology were detected. It was determined that 52.9% of the theses prepared were master, 28% of PhD and 19.1% were the thesis of medical specialty thesis and 61.3% of the theses prepared were related to protozoa, 16.5% of helminths, 8.6% arthropods and 12.2% of intestinal parasites (helminth and protozoa). The top five types of parasites in the theses were Toxoplasma gondii, Leishmania spp., Echinococcus spp., Giardia intestinalis and Cryptosporidium spp. respectively. Conclusion: In conclusion, it was of the opinion that more importance should be given to the field of medical parasitology in Türkiye.

Curiosities take the stage - role-play in parasitology teaching.

Careful observation of parasites, masters of camouflage, reveals an ingenious and fascinating world. However, students often perceive parasitology as impenetrable. What if a flamboyant flea circus director passionately introduced the multidimensional contexts of this discipline? Will role-play capture the imagination of students and guide them in their future learning?

Designing equity, diversity, and inclusion training for postgraduate parasitologists.

Equity, diversity, and inclusion (EDI) have received increased attention in the sciences, with increasing expectation that students will receive formal training in this area. However, compared with other biosciences, little guidance has been produced for parasitology educators. Therefore, this article presents the contents and evaluation of pilot training designed for postgraduates.

Collaborative parasitology: student partnerships in open education.

Student-faculty partnerships can drive innovation in parasitology education and outreach. We provide recommendations for building successful partnerships during the design, implementation, and impact assessment stages. We also introduce a new series of freely available educational and community outreach materials available on a platform that the parasitology community can contribute to.

Mikros, aplicación androide para Microbiología y Parasitología en la Universidad de Ciencias Médicas de Camagüey / Mikros, an Android Application for the Microbiology and Parasitology Subject in the University of Medical Sciences of Camagüey

Introducción: El aprendizaje móvil (m-learning) es la inclusión de dispositivos móviles en las actividades de aprendizaje. En la enseñanza de Microbiología y Parasitología médica estos ofrecen un alto poder de ilustración y contribuyen al aprendizaje de la asignatura de los estudiantes de la carrera de medicina; además, sirven de apoyo a otros perfiles como Tecnología de la Salud. Objetivo: Exponer la actualización del curso de Microbiología y Parasitología en la Universidad de Ciencias Médicas de Camagüey mediante una aplicación androide. Métodos: Se realizó una aplicación optimizada para androide 4.4 o superior con el lenguaje de programación Java. Esta investigación se desarrolló en la Universidad de Ciencias Médicas Carlos J. Finlay y se aplicó a estudiantes de la carrera de medicina en los cursos 2018-2019 y 2019-2020. El universo del estudio fueron 1446 estudiantes de los cursos de 2016-2020. Se realizó una encuesta validada por expertos a una muestra probabilística de 88 estudiantes de la Universidad de Ciencias Médicas de Camagüey, en el período comprendido entre noviembre y diciembre de 2020. Se calculó el coeficiente concordancia general W de Kendall en cuanto a las respuestas a las preguntas. Resultados: Mikros fue una herramienta de apoyo a la docencia, fruto de un proyecto de colaboración entre el Centro de Inmunología y Productos Biológicos de la Universidad de Ciencias Médicas y la Facultad de Ingeniería Informática de la Universidad Ignacio Agramonte, de Camagüey, que permitió introducir al profesor en una modalidad de enseñanza muy a tono con estos tiempos. Conclusiones: La aplicación Mikros incluyó conceptos básicos y un alto nivel de actualización. También contribuyó a elevar el índice académico y a una mayor satisfacción del alumno en el aprendizaje, y resultó una herramienta de consulta práctica para estudiantes de años posteriores de la carrera en rotación por el área clínica y útil para el aprendizaje a distancia en tiempos de COVID-19(AU)

Introduction: Mobile learning (m-learning) consists in the inclusion of mobile devices into learning activities. In the teaching of medical parasitology and microbiology, such devices offer a high power of illustration and contribute to medical students' learning of the subject; in addition, they serve as support to other profiles such as health technology. Objective: To present the update, by means of an android application, of the Microbiology and Parasitology course at the University of Medical Sciences of Camagüey. Methods: An optimized application for android 4.4 or higher was created with the Java programming language. This research was carried out at Carlos J. Finlay University of Medical Sciences and applied to medical students in the 2018-2019 and 2019-2020 academic years. The study universe was made up of 1446 students from the academic years from 2016 to 2020. A survey validated by experts was carried out, in the period between November and December 2020, with a probabilistic sample of 88 students from the University of Medical Sciences of Camagüey. Kendall's coefficient of general concordance (W) was calculated for the answers to the questions. Results: Mikros was a teaching support tool, the result of a collaborative project between the Center of Immunology and Biological Products at the University of Medical Sciences and the School of Computer Engineering at Ignacio Agramonte University, in Camagüey, which allowed to present the professor in a teaching modality much in tune with the current times. Conclusions: The Mikros application included basic concepts and a high update level. It also contributed to raising the student's academic index and satisfaction with learning. It turned out to be a practical consultation tool for students of higher academic years of the major who are rotating through the clinical area, as well as a useful tool for distance learning in COVID-19 times(AU)

[Reconstruction of teaching mode of Human Parasitology among rural order-oriented medical students in the context of curriculum ideology and politics].

To set the cultivation goal with adaptation to rural order-oriented medical students, the teaching mode of Human Parasitology was reformed in the context of curriculum ideological and political education. The new teaching mode not only enables students to harvest medical knowledge during the school education stage, but also plays a guiding role in cultivation of humanistic qualities and professional spirit, which provides a basis for cultivating general practitioners serving for grassroots healthcare.

Climbing the Integration Ladder: A Case Study on an Interdisciplinary and Case-Based Approach to Teaching General Pathology, Parasitology and Microbiology in the Veterinary Curriculum.

The School of Veterinary Medicine, University College Dublin, Ireland, restructured the teaching of general pathology, parasitology, and microbiology in third year in 2018 as part of the development of an outcome-based curriculum. A new integrated teaching module was created, called Veterinary Pathobiology, which encompassed the three paraclinical subjects, worth 20 ECTS credits. Subject integration was driven and supported by case-based learning (CBL) activities, and practical classes, which were aimed at facilitating the understanding of basic disease processes, infectious agents, and the application of diagnostic tests. The disciplines maintained their identities within lectures which were aligned by content. The restructuring led to a reduction of contact hours by 20% and of assessment time by 40%. The examinations included integrated questions with an emphasis on the material students had covered in their CBL. Despite positive outcomes, which included equivalent examination scores and positive written feedback by students on teaching and learning, understanding, assessment, relevance, CBL, group work, and generic skills, the average scores for overall student satisfaction dropped dramatically in the second academic year of implementation. This followed the introduction of new regulations by the University relating to student progression, which was capped at "carrying" 10 ECTS credits, thus preventing students that failed the new module from progressing. Other criticisms of the new module by students included too little communication on the changes implemented in its first iteration and a workload perceived to be too heavy. Further restructuring is therefore necessary. This study highlights the process/pitfalls of integration/curricular innovation.

[Application of the "virtual-real combination" experimental teaching model in Human Parasitology teaching: a case study of comprehensive schistosome experiments].

Information technology has become an important driver to facilitate higher education developments in the context of new medical sciences. A new "virtual-real combination" experimental teaching model was designed and created through integrating information technology with experimental teaching by Experimental Teaching Center of Basic Medical Sciences and Department of Pathogen Biology, Nanjing Medical University and was applied in Human Parasitology teaching, which achieved satisfactory teaching effectiveness. This new model showed effective to deepen the understanding of the basic human parasitology knowledge, improve the operative skills, and cultivate the moral literacy and comprehensive capability among medical students. This report presents the teaching protocols and implementation, teaching effectiveness and evaluation, and experiences of comprehensive schistosome experiments.

[Exploration and practice of process assessment in Human Parasitology teaching for international medical students].

Teaching evaluation is an important measure to test the teaching quality. In order to better achieve the training objectives among international medical students based on the specific conditions of foreign students and the characteristics of Human Parasitology, a process-based assessment and evaluation system has been established for international medical students. The process assessment highlights the characteristics of assessment process, diversified forms and inquires of test questions. Following implementation of process assessment, the proportion of excellence (examination scores of 90 and higher) improved from 3.25% (10/308) to 13.09% (50/382) (t = 5.995, P < 0.001) and the proportion of good marks (examination scores of 80 to 89) increased from 18.83% (58/308) to 36.13% (138/382) (t = 7.505, P < 0.001) during the semester assessment among international medical students at five grades, while the proportion of failure in examination pass (examination scores of below 60) reduced from 12.34% (38/308) to 3.24% (10/382) (t = 7.303, P < 0.000 1), indicating that the process-based assessment and evaluation system improves the examination score of Human Parasitology among international medical students and the teaching quality of Human Parasitology.

Remote conferences in parasitology and entomology during the pandemic: eliminate or maintain in a post-pandemic world? That is the dilemma!

The COVID-19 pandemic brought enormous challenges for health, scientists and academic world two years ago. Social isolation and the inabilities of face-to-face activities generated the emergence of many educational and scientific initiatives. Remote activities gave information and brought company and affection to people which allowed students and professionals from different parts of the world to integrate. In this report we are showing the experience from three initiatives in South America of scientific dissemination in infectious diseases. We discuss the scope of having a permanent practice for access and integration in science using remote communication, which can give great benefits in unequal societies.

Parasitology Education Before and After the COVID-19 Pandemic.

The COVID-19 pandemic has disrupted parasitology curricula worldwide, which is expected to lead to the reshaping of parasitology education. Here, we share our experiences of remote teaching and learning of veterinary parasitology and discuss opportunities offered by remote teaching during COVID-19 lockdowns, enabling the development of interactive online parasitology courses.

History of the E.I. Martsinovsky Institute of Medical Parasitology and Tropical Medicine: research on malaria and leishmaniasis.

This review presents the 100-year history of the Martsinovsky Institute of Medical Parasitology and Tropical Medicine in Moscow, Russia, starting with its foundation and early activities, and also describes the impact of its leading scientists, some of whom became internationally known. The institute headed a network of nine tropical institutes in the various Soviet republics from the 1920s to 1990. The extensive body of literature on the history and research accomplishments of this institute has mainly been published in Russian; our goal here is to introduce these achievements and this expertise to the international scientific and medical community, focusing on malaria and leishmaniasis and the development of measures to control and monitor these diseases in the USSR.

History of the E.I. Martsinovsky Institute of Medical Parasitology and Tropical Medicine: research on malaria and leishmaniasis / História do Instituto E.I. Martsinovsky de Parasitologia Médica e Medicina Tropical: pesquisa sobre malária e leishmaniose

Abstract This review presents the 100-year history of the Martsinovsky Institute of Medical Parasitology and Tropical Medicine in Moscow, Russia, starting with its foundation and early activities, and also describes the impact of its leading scientists, some of whom became internationally known. The institute headed a network of nine tropical institutes in the various Soviet republics from the 1920s to 1990. The extensive body of literature on the history and research accomplishments of this institute has mainly been published in Russian; our goal here is to introduce these achievements and this expertise to the international scientific and medical community, focusing on malaria and leishmaniasis and the development of measures to control and monitor these diseases in the USSR.

Resumo O artigo analisa a história centenária do Instituto Martsinovsky de Parasitologia Médica e Medicina Tropical em Moscou, Rússia, desde sua fundação e primeiras atividades, e descreve a influência de seus principais cientistas, alguns dos quais viriam a conquistar renome internacional. O instituto liderou uma rede de nove institutos tropicais em diversas repúblicas soviéticas entre as décadas de 1920 e 1990. A vasta literatura sobre o trabalho de história e pesquisa desse instituto foi publicada sobretudo em russo; nosso objetivo aqui é apresentar esse trabalho e conhecimento à comunidade médica e científica internacional, concentrando-se na malária e na leishmaniose e no avanço de medidas de controle e monitoramento dessas doenças na URSS.

Using the Digital Platform ExamSoft in Veterinary Anatomy and Parasitology Assessments in Written and Laboratory Components.

The Ohio State University College of Veterinary Medicine (CVM), with a class size of 162, is one of the largest in the nation. In an effort to streamline examination procedures, create a consistent assessment format among courses, replace paper exams, track test questions linked to learning objectives, and reduce exam grading time, our DVM program adopted the use of ExamSoft for core courses beginning in the autumn semester 2014. ExamSoft is an electronic assessment application, which provides a secure testing environment and robust reporting features. CVM uses it for high stakes midterm and finals. Although easily adopted into a didactic course format, its application in laboratory-based examinations proved challenging. Designing, setting up and grading exams for Anatomy and Parasitology courses with a laboratory component have always required substantial time investment, and adding a testing application to the process demanded rethinking and restructuring logistics. After two semesters of process refinement and standardization of a testing device to the iPad, faculty teaching in the Anatomy and Parasitology courses were able to implement ExamSoft in a laboratory setting to realize the same assessment and efficiency gains. Here we describe the benefits of ExamSoft testing in the written and laboratory settings and the lessons learned during the 2-year transition.