Fernanda Klein Marcondes
Associate Professor of Physiology
Piracicaba Dental School (FOP), University of Campinas (UNICAMP)
Educational games may help students to understand Physiology concepts and solve misconceptions. Considering the topics that have been difficult to me during my undergraduate and graduate courses, I’ve developed some educational games, as simulations and noncompetitive activities. The first one was the cardiac cycle puzzle. The puzzle presents ﬁgures of phases of the cardiac cycle and a table with ﬁve columns: phases of cardiac cycle, atrial state, ventricular state, state of atrioventricular valves, and state of pulmonary and aortic valves. Chips are provided for use to complete the table. Students are requested to discuss which is the correct sequence of ﬁgures indicating the phases of cardiac cycle, complete the table with the chips and answer questions in groups. This activity is performed after a short lecture on the characteristics of cardiac cells, pacemaker and plato action potentials and reading in the textbook. It replaces the oral explanation from the professor to teach the physiology of the cardiac cycle.
I also developed an educational game to help students to understand the mechanisms of action potentials in cell membranes. This game is composed of pieces representing the intracellular and extracellular environments, ions, ion channels, and the Na+-K+-ATPase pumps. After a short lecture about resting membrane potential, and textbook reading, there is the game activity. The students must arrange the pieces to demonstrate how the ions move through the membrane in a resting state and during an action potential, linking the ion movements with a graph of the action potential. In these activities the students learn by doing.
According to their opinions, the educational games make the concepts more concrete, facilitate their understanding, and make the environment in class more relaxed and enjoyable. Our first studies also showed that the educational games increased the scores and reduced the number of wrong answers in learning assessments. We continue to develop and apply new educational games that we can share with interested professors, with pleasure.
Luchi KCG, Montrezor LH, Marcondes FK. Effect of an educational game on university students´ learning about action potentials. Adv Physiol Educ., 41 (2): 222-230, 2017.
Cardozo LT, Miranda AS, Moura MJCS, Marcondes FK. Effect of a puzzle on the process of students’ learning about cardiac physiology. Adv Physiol Educ., 40(3): 425-431, 2016.
Marcondes FK, Moura MJCS, Sanches A, Costa R, Lima PO, Groppo FC, Amaral MEC, Zeni P, Gaviao KC, Montrezor LH. A puzzle used to teach the cardiac cycle. Adv Physiol Educ., 39(1):27-31, 2015.
Fernanda Klein Marcondes received her Bachelor’s Degree in Biological Sciences at University of Campinas (UNICAMP), Campinas – SP, Brazil in 1992. She received her Master in Biological Sciences (1993) and PhD in Sciences (1998). In 1995 she began a position at Piracicaba Dental School, UNICAMP, where she is an Associate Professor of Physiology and coordinates studies of the Laboratory of Stress. She coordinates the subjects Biosciences I and II, with integration of Biochemistry, Anatomy, Histology, Physiology and Pharmacology content in the Dentistry course. In order to increase the interest, engagement and learning of students in Physiology classes, she combines lectures with educational games, quizzes, dramatization, discussion of scientific articles and group activities. Recently she started to investigate the perception of students considering the different teaching methodologies and the effects of these methodologies on student learning.