Visualizing the Complexity of the Molecular World: Examining the Role of Animated Representations in the Development of Undergraduate Students’ Understanding of Dynamic Cellular Events

Jenkinson, Jodie

22 August 2012

The purpose of this study was to examine the relative effectiveness of three-dimensional visualization techniques for learning about protein conformation and molecular motion in association with a ligand and receptor binding event. Increasingly complex versions of the same binding event were depicted in each of four animated treatments. Students (n = 131) were tested at three time points, and over both the short and longer term, the most complex of the four animated treatments was the most successful at fostering students’ understanding of the events depicted. A follow-up study including eight biology students was conducted to gain greater insight into the students’ underlying thought processes and better characterize their understanding of the animated representations. Analysis of verbal reports and eye tracking data suggest that students are able to attend to the same narrative elements regardless of the level of complexity depicted in each animation. Analysis of verbal protocol data revealed a positive correlation between the number of explanatory statements expressed by participants and the complexity of the animation viewed. As well, prior knowledge was positively correlated with the number of explanatory statements contained in each protocol. Overall, students demonstrated an understanding of protein conformation and molecular crowding. However results suggest that students have difficulty understanding and associating randomness with molecular events. The verbal reports contained several instances of students’ attaching agency to protein and ligand, anthropomorphizing their movements and subsequent binding. Ordinarily cellular events, owing to their sheer complexity, are depicted in a highly schematized, simplified form. The results of this study would suggest that under select circumstances this may not be the most appropriate approach to depicting dynamic events. However additional attention must be given to exploring techniques that can satisfactorily balance the random nature of molecular events with narrative explanations of these processes.

Animation

Biomedical Visualization

Undergraduate Biology

Molecular Biology

Visual Representation

Visual Complexity

0710

0307

0714

The Development of Pedagogical Content Knowledge in Science Teachers: New Opportunities Through Technology-mediated Reflection and Peer-exchange

Madeira, M. Cheryl-Ann

28 February 2011

This design-based research study investigates the development of pedagogical content knowledge among nine teacher-participants (N = 9) in three design phases. PCK is a particular type of teacher knowledge that addresses not only the teacher’s understanding of the content to be instructed, but also ways of how to teach that content effectively. This knowledge has been well documented over several decades, and is seen as central to teacher expertise. However, its actual development has been difficult for researchers to investigate. This study offers a detailed perspective on how teachers developed PCK with their engagement in lesson planning and enactment of a project-based technology-enhanced lesson. The study includes two specific interventions designed to enhance teachers’ development of PCK: (1) scaffolded reflection that occurs throughout the practices; and (2) peer-exchange of lesson plans, enactment ideas, and completed reflections. The findings demonstrate that teachers improve their planning and enactment of project-based technology-enhanced lessons with scaffolded reflection and peer exchange. Positive correlations were seen between teachers’ engagement in the reflections and the quality of their lesson planning. Teachers who participated more deeply in the scaffolded reflections were able to understand how their lesson plans and enactment patterns fostered student understanding of relevant science concepts. Positive correlations were also seen between community influence and teacher lesson plans and enactment. Additionally, positive correlations were confirmed between teachers’ level of participation in the peer exchange activities and the quality of their lesson planning and enactments. Teachers who contributed more deeply within the online and face-to-face peer community meetings benefited from the different perspectives of their peers about student learning and the best ways to succeed with project-based instruction. This study allowed some insight into how PCK develops as a result of teachers’ engagement in the complex set of activities that constitute the practices of lesson planning and enactment. The primary implication of this study is that engaging teachers in scaffolded reflections and peer exchange can be a valuable in-service professional development activity. A methodological strength is derived from an approach to coding teachers’ lesson planning and enactment according to an activity systems perspective, drawing on a spectrum of data sources (e.g., wiki-based reflections, planning artefacts, videotaped classroom enactments). Teacher learning—particularly the development of PCK—is recognized as critical in promoting student understanding of science concepts. This dissertation lays out a possible foundation for professional development models that promote effective teacher learning.

Science Education

Educational Technology

Cognitive Psychology

Professional Development

0714

0710

0533

0727

Knowledge Community and Inquiry in Secondary School Science

Peters, Vanessa Lynn

01 March 2011

This design-based study was the first empirical investigation of a new model of learning and instruction called Knowledge Community and Inquiry (KCI). In KCI, students are engaged as a learning community as they work on scaffolded inquiry activities that target specific science learning objectives. Although community-oriented approaches have been successful at the elementary level, there has been relatively little uptake of such methods at the secondary school level – particularly in science. The pedagogical framework of KCI addresses the challenges of community models by blending established inquiry based approaches with community-oriented pedagogy. This dissertation tested the validity of KCI by designing, implementing, and empirically evaluating a curriculum based on the KCI model. This was achieved through curriculum trials involving two separate cohorts of grade-ten biology students (n = 102; n = 112). The first implementation consisted of a two-week physiology lesson that engaged students in co-authoring wiki artifacts about human system diseases, which students then used as a resource for solving medical case studies. The second implementation, an eight-week lesson on Canada's biodiversity, was a deeper application of the model, and focused on students' collaborative processes during the construction of their wiki-based knowledge repository. In both cases, the curriculum was evaluated according to its design, enactment, and learning outputs, as evidenced by students' knowledge artifacts and performance on the final exam. Technology scaffolds ensured that students focused on the physiology and biodiversity science curriculum expectations. Analyses of the data revealed that KCI engaged students in collaborative learning processes that were characteristic of a knowledge community. Additionally, final exam scores demonstrated increased learning performance when compared to those from previous years where students did not participate in KCI. The findings from this research provide the first empirical support for KCI, and demonstrate its potential for engaging secondary science students in the kinds of collaborative inquiry processes of authentic knowledge communities. This dissertation provides insight into the conditions necessary for such engagement, and contributes design recommendations for blending knowledge community and inquiry in secondary school science curriculum.

Knowledge community

Collaboration

Science education

Inquiry learning

Web 2.0

0714

0727

0710

0533

Making Meaning of von Hagens' Body Worlds: Towards an Interdisciplinary Approach to Science Exhibitions

Dubek, Michelle

08 January 2014

Body Worlds is a traveling exhibition of plastinated human cadavers that offers the general public an opportunity to experience the human body in a unique way. It has been met with controversy and awe; public reactions and responses have been mixed. This case study research explored visitor responses to this controversial science exhibition, and examined the meaning visitors made of their experience. Specifically, the following research questions directed this study: Within the context of the Body Worlds exhibition: (a) What meaning did visitors make and how did they respond to the exhibits? (b) What tensions and issues arose for visitors? and (c) What did this type of exhibition convey about the changing role of science centres and the nature of their exhibitions? The primary sources of data for this study were 46 semi-structured interviews with visitors to the exhibition, observation notes, and 10 comment books including approximately 20 000 comments. Data suggested that the personal, physical, and sociocultural contexts (Falk & Dierking, 2000) contributed to visitor meaning meaning-making. The use of plastinated human cadavers within this exhibition raised ethical and moral questions and controversies about body procurement, use of human cadavers in display, representations of the bodies, and issues related to the sanctity of life. The tensions and issues identified by visitors demonstrated that messages (intended or unintended) located within Body Worlds were critically examined by visitors and called into question. Finally, data from this study suggested that an interdisciplinary approach to the presentation of science served to enhance accessibility for the viewer. This exhibition demonstrated that visitors responded positively and made personal connections when the arts, spirituality, edutainment, issues, and a combination of historical and contemporary museum practices were used to present science.

Body Worlds

museum

informal learning

science centre

controversial issues

interdisciplinary

science exhibitions

0714

0515

Making Meaning of von Hagens' Body Worlds: Towards an Interdisciplinary Approach to Science Exhibitions

Dubek, Michelle

08 January 2014

Body Worlds is a traveling exhibition of plastinated human cadavers that offers the general public an opportunity to experience the human body in a unique way. It has been met with controversy and awe; public reactions and responses have been mixed. This case study research explored visitor responses to this controversial science exhibition, and examined the meaning visitors made of their experience. Specifically, the following research questions directed this study: Within the context of the Body Worlds exhibition: (a) What meaning did visitors make and how did they respond to the exhibits? (b) What tensions and issues arose for visitors? and (c) What did this type of exhibition convey about the changing role of science centres and the nature of their exhibitions? The primary sources of data for this study were 46 semi-structured interviews with visitors to the exhibition, observation notes, and 10 comment books including approximately 20 000 comments. Data suggested that the personal, physical, and sociocultural contexts (Falk & Dierking, 2000) contributed to visitor meaning meaning-making. The use of plastinated human cadavers within this exhibition raised ethical and moral questions and controversies about body procurement, use of human cadavers in display, representations of the bodies, and issues related to the sanctity of life. The tensions and issues identified by visitors demonstrated that messages (intended or unintended) located within Body Worlds were critically examined by visitors and called into question. Finally, data from this study suggested that an interdisciplinary approach to the presentation of science served to enhance accessibility for the viewer. This exhibition demonstrated that visitors responded positively and made personal connections when the arts, spirituality, edutainment, issues, and a combination of historical and contemporary museum practices were used to present science.

Body Worlds

museum

informal learning

science centre

controversial issues

interdisciplinary

science exhibitions

0714

0515

The Role of Epistemic Cognition in Complex Collaborative Inquiry Curricula

Acosta, Alisa

20 November 2013

This thesis examines the role of epistemic cognition within the context of a Knowledge Community and Inquiry (KCI) curriculum for secondary science. The study employs a new form of design-based research, called Model-Based Design Research (MBDR), which first maps a formal pedagogical model onto the curriculum design, and then assesses how the enacted curriculum adheres to the design. The curriculum design was a ten-week Grade 11 Biology unit that met the Ontario Ministry requirements for evolution and biodiversity, and included activities situated within a unique immersive environment called EvoRoom. The thesis includes an assessment of students' epistemological views about science and science learning, and evaluates the epistemic commitments of KCI using a relevant theoretical framework of epistemic cognition. The analysis reveals the complex interconnections amongst the epistemological, pedagogical and technological elements of the design, resulting in recommendations for future design iterations as well as theoretical insights concerning the KCI model.

epistemic cognition

epistemology

knowledge community

inquiry

secondary

science

biology

smart classroom

0714

0533

0998

0710

0515

The Role of Syk in Airway Hyperresponsiveness and Remodeling in House Dust Mite Induced Murine Models of Allergic Airways Inflammation

Salehi, Sepehr

27 November 2013

Spleen tyrosine kinase (Syk) plays a critical role in regulation of immune and inflammatory responses. This thesis investigated the role of Syk in the development of the asthma phenotype in acute and chronic mouse models of allergic airways inflammation. Airway hyperresponsiveness (AHR) to methacholine and inflammation increased significantly in HDM-induced compared with the saline control mice. We demonstrated that in vivo inhibition of Syk by selective Syk inhibitors, and genetic deletion of Syk using conditional Syk knockout mice attenuated AHR despite of inflammatory cell influx in the lung. Histological analysis showed airway remodeling in the chronic model, which was attenuated to some degree by deletion of Syk. This study identified a role of Syk in airway hyperresponsiveness and remodeling without significantly affecting leukocyte recruitment in HDM model of airways disease. My results support the improvement of therapeutic strategies in asthma by targeting the Syk pathway.

Allergic Airway Inflammation

Airway Hyperresponsiveness

House Dust Mite

Murine Model

0680

0714

Développement et évaluation d’un environnement informatisé d’apprentissage pour faciliter l’intégration des sciences et de la technologie

Saliba, Marie-Thérèse

03 1900

Par cette recherche, nous voulons évaluer de manière exhaustive les bénéfices qu’apporte l’ExAO (Expérimentation Assistée par Ordinateur) dans les laboratoires scolaires de sciences et technologie au Liban. Nous aimerions aussi qu’elle contribue d’une manière tangible aux recherches du laboratoire de Robotique Pédagogique de l’Université de Montréal, notamment dans le développement du µlaboratoire ExAO. Nous avons voulu tester les capacités de l’ExAO, son utilisation en situation de classe comme : 1. Substitut d’un laboratoire traditionnel dans l’utilisation de la méthode expérimentale; 2. Outil d’investigation scientifique; 3. Outil d’intégration des sciences expérimentales et des mathématiques; 4. Outil d’intégration des sciences expérimentales, des mathématiques et de la technologie dans un apprentissage technoscientifique; Pour ce faire, nous avons mobilisé 13 groupe-classes de niveaux complémentaire et secondaire, provenant de 10 écoles libanaises. Nous avons désigné leurs enseignants pour expérimenter eux-mêmes avec leurs étudiants afin d’évaluer, de manière plus réaliste les avantages d’implanter ce micro laboratoire informatisé à l’école. Les différentes mise à l’essai, évaluées à l’aide des résultats des activités d’apprentissage réalisées par les étudiants, de leurs réponses à un questionnaire et des commentaires des enseignants, nous montrent que : 1. La substitution d’un laboratoire traditionnel par un µlaboratoire ExAO ne semble pas poser de problème; dix minutes ont suffi aux étudiants pour se familiariser avec cet environnement, mentionnant que la rapidité avec laquelle les données étaient représentées sous forme graphique était plus productive. 2. Pour l’investigation d’un phénomène physique, la convivialité du didacticiel associée à la capacité d’amplifier le phénomène avant de le représenter graphiquement a permis aux étudiants de concevoir et de mettre en œuvre rapidement et de manière autonome, une expérimentation permettant de vérifier leur prédiction. 3. L’intégration des mathématiques dans une démarche expérimentale permet d’appréhender plus rapidement le phénomène. De plus, elle donne un sens aux représentations graphiques et algébriques, à l’avis des enseignants, permettant d’utiliser celle-ci comme outil cognitif pour interpréter le phénomène. 4. La démarche réalisée par les étudiants pour concevoir et construire un objet technologique, nous a montré que cette activité a été réalisée facilement par l’utilisation des capteurs universels et des amplificateurs à décalage de l’outil de modélisation graphique ainsi que la capacité du didacticiel à transformer toute variable mesurée par une autre variable (par exemple la variation de résistance en variation de température, …). Cette activité didactique nous montre que les étudiants n’ont eu aucune difficulté à intégrer dans une même activité d’apprentissage les mathématiques, les sciences expérimentales et la technologie, afin de concevoir et réaliser un objet technologique fonctionnel. µlaboratoire ExAO, en offrant de nouvelles possibilités didactiques, comme la capacité de concevoir, réaliser et valider un objet technologique, de disposer pour ce faire, des capacités nouvelles pour amplifier les mesures, modéliser les phénomènes physiques, créer de nouveaux capteurs, est un ajout important aux expériences actuellement réalisées en ExAO. / Through this research we will fully assess the benefits brought by the ExAO (Computer Assisted Experimentation) in school laboratories of science and technology in Lebanon. We would also like to mention its contribution in a tangible way in laboratory research of Pedagogic Robotic from Montreal University, particularly in the development of ExAO µlaboratory. We wanted to test the capabilities of the ExAO, its use in the classroom such as: 1. A replacement of a traditional laboratory in the use of the experimental method. 2. A scientific investigation tool. 3. An integration tool of experimental sciences and mathematics. 4. An integration tool of experimental sciences, mathematics and technology in the technoscientific learning. To do so, we have mobilized 13 group classes, designated teachers to experiment themselves along with their students in order to assess, in a more realistic way, the benefits of implementing this micro computer laboratory at school. Different testing, evaluated using the results of learning activities undertaken by students, their responses to a questionnaire and feedback from teachers, show that: 1. The replacement of a traditional laboratory with an ExAO µlaboratory does not seem to pose problem, expected that students have adapted to it in only ten minutes, indicating that the speed with which data were graphed was more productive. 2. In order to investigate a physical phenomenon, the usability of the tutorial associated with the ability to amplify the phenomenon before its graph representation, has allowed students to design and implement quickly and independently an experiment to verify their prediction. 3. The integration of mathematics into an experimental approach can quickly grasp the phenomenon. In addition, it gives more autonomy and a meaning to the graphs and algebraic representations allowing to use them as a cognitive tool to interpret this phenomenon. 4. The approach made by the students to design and construct a technological object, showed that this activity was easily carried out by the use of universal sensors, amplifiers to offset the graphical modeling tool, and the tutorial ability to transform any measured variable by another variable (for instance, the resistance variation in temperature change, …). This educational activity shows that students had no difficulty integrating in a single learning activity the mathematics, experimental sciences and technology, in order to design and implement a functional piece of technology. The ExAO µlaboratory, by offering new educational opportunities, such as the ability to design, produce and validate a technological object, in order to do so, new capacities to boost measures, modeling physical phenomena, developing new sensors, is an important addition to the experiments being conducted in ExAO.

ExAO

didactique

intégration

écoles Libanaises

ExAO

teaching

integration

Lebanese schools

The Role of Epistemic Cognition in Complex Collaborative Inquiry Curricula

Acosta, Alisa

20 November 2013

This thesis examines the role of epistemic cognition within the context of a Knowledge Community and Inquiry (KCI) curriculum for secondary science. The study employs a new form of design-based research, called Model-Based Design Research (MBDR), which first maps a formal pedagogical model onto the curriculum design, and then assesses how the enacted curriculum adheres to the design. The curriculum design was a ten-week Grade 11 Biology unit that met the Ontario Ministry requirements for evolution and biodiversity, and included activities situated within a unique immersive environment called EvoRoom. The thesis includes an assessment of students' epistemological views about science and science learning, and evaluates the epistemic commitments of KCI using a relevant theoretical framework of epistemic cognition. The analysis reveals the complex interconnections amongst the epistemological, pedagogical and technological elements of the design, resulting in recommendations for future design iterations as well as theoretical insights concerning the KCI model.

epistemic cognition

epistemology

knowledge community

inquiry

secondary

science

biology

smart classroom

0714

0533

0998

0710

0515

The Role of Syk in Airway Hyperresponsiveness and Remodeling in House Dust Mite Induced Murine Models of Allergic Airways Inflammation

Salehi, Sepehr

27 November 2013

Spleen tyrosine kinase (Syk) plays a critical role in regulation of immune and inflammatory responses. This thesis investigated the role of Syk in the development of the asthma phenotype in acute and chronic mouse models of allergic airways inflammation. Airway hyperresponsiveness (AHR) to methacholine and inflammation increased significantly in HDM-induced compared with the saline control mice. We demonstrated that in vivo inhibition of Syk by selective Syk inhibitors, and genetic deletion of Syk using conditional Syk knockout mice attenuated AHR despite of inflammatory cell influx in the lung. Histological analysis showed airway remodeling in the chronic model, which was attenuated to some degree by deletion of Syk. This study identified a role of Syk in airway hyperresponsiveness and remodeling without significantly affecting leukocyte recruitment in HDM model of airways disease. My results support the improvement of therapeutic strategies in asthma by targeting the Syk pathway.

Allergic Airway Inflammation

Airway Hyperresponsiveness

House Dust Mite

Murine Model

0680

0714