Team Learning Experience for Job Search

Three-dimensional (3D) virtual modeling and printing advances individualized medicine and surgery. In congenital cardiac surgery, 3D virtual models and printed prototypes offer advantages of better understanding of complex anatomy, hands-on preoperative surgical planning and emulation, and improved communication within the multidisciplinary team and to patients. We report our single center team-learning experience about the realization and validation of possible clinical benefits of 3D-printed models in surgical planning of complex congenital cardiac surgery. CT-angiography raw data were segmented into 3D-virtual models of the heart-great vessels. Prototypes were 3D-printed as rigid “blood-volume” and flexible “hollow”. The accuracy of the models was evaluated intraoperatively. Production steps were realized in the framework of a clinical/research partnership. We produced 3D prototypes of the heart-great vessels for 15 case scenarios (nine males, median age: 11 months) undergoing complex intracardiac repairs. Parity between 3D models and intraoperative structures was within 1 mm range. Models refined diagnostics in 13/15, provided new anatomic information in 9/15. As a team-learning experience, all complex staged redo-operations (13/15; Aristotle-score mean: 10.64 ± 1.95) were rehearsed on the 3D models preoperatively. 3D-printed prototypes significantly contributed to an improved/alternative operative plan on the surgical approach, modification of intracardiac repair in 13/15. No operative morbidity/mortality occurred. Our clinical/research partnership provided coverage for the extra time/labor and material/machinery not financed by insurance. 3D-printed models provided a team-learning experience and contributed to the safety of complex congenital cardiac surgeries. A clinical/research partnership may open avenues for bioprinting of patient-specific implants.

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Kaizen: An Innovative Team Learning Experience for First-Semester Nursing Students

Journal of Nursing Education ◽

10.3928/01484834-20170123-11 ◽

2017 ◽

Vol 56 (2) ◽

pp. 124-124 ◽

Cited By ~ 5

Author(s):

Cathy C. Roche ◽

Nancy P. Wingo ◽

James H. Willig

Keyword(s):

Nursing Students ◽

Team Learning ◽

Learning Experience ◽

First Semester

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Asthma Simulated Patient Simulation Team Learning Experience Using Hybrid Model Method

International Journal of Advanced Nursing Education and Research ◽

10.21742/ijaner.2020.5.2.01 ◽

2020 ◽

Vol 5 (2) ◽

pp. 1-6

Author(s):

Younsook Ju ◽

◽

MuyeongSeak Yang ◽

Keyword(s):

Hybrid Model ◽

Team Learning ◽

Learning Experience ◽

Patient Simulation ◽

Simulated Patient ◽

Model Method

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Student Anticipations and Reactions to Hybrid Format Education

Perspectives on Issues in Higher Education ◽

10.1044/ihe11.2.76 ◽

2008 ◽

Vol 11 (2) ◽

pp. 76-82 ◽

Cited By ~ 4

Author(s):

Sarah M. Ginsberg

Keyword(s):

Qualitative Study ◽

Learning Styles ◽

Student Perceptions ◽

Course Design ◽

Learning Experience ◽

Learning Experiences ◽

Traditional Classroom ◽

Traditional Learning ◽

Online Platform ◽

Hybrid Format

Abstract This qualitative study examined student perceptions regarding a hybrid classroom format in which part of their learning took place in a traditional classroom and part of their learning occurred in an online platform. Pre-course and post-course anonymous essays suggest that students may be open to learning in this context; however, they have specific concerns as well. Students raised issues regarding faculty communication patterns, learning styles, and the value of clear connections between online and traditional learning experiences. Student concerns and feedback need to be addressed through the course design and by the instructor in order for them to have a positive learning experience in a hybrid format course.

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Complex Problem Solving and Worked Examples

Zeitschrift für Pädagogische Psychologie ◽

10.1024/1010-0652.23.2.129 ◽

2009 ◽

Vol 23 (2) ◽

pp. 129-138 ◽

Cited By ~ 16

Author(s):

Florian Schmidt-Weigand ◽

Martin Hänze ◽

Rita Wodzinski

Keyword(s):

Problem Solving ◽

Cognitive Load ◽

Learning Experience ◽

Worked Examples ◽

Complex Problem ◽

Complex Problem Solving ◽

Strategic Learning ◽

Learning Behavior ◽

Worked Example ◽

8Th Grade

How can worked examples be enhanced to promote complex problem solving? N = 92 students of the 8th grade attended in pairs to a physics problem. Problem solving was supported by (a) a worked example given as a whole, (b) a worked example presented incrementally (i.e. only one solution step at a time), or (c) a worked example presented incrementally and accompanied by strategic prompts. In groups (b) and (c) students self-regulated when to attend to the next solution step. In group (c) each solution step was preceded by a prompt that suggested strategic learning behavior (e.g. note taking, sketching, communicating with the learning partner, etc.). Prompts and solution steps were given on separate sheets. The study revealed that incremental presentation lead to a better learning experience (higher feeling of competence, lower cognitive load) compared to a conventional presentation of the worked example. However, only if additional strategic learning behavior was prompted, students remembered the solution more correctly and reproduced more solution steps.

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