Learning Objectives

At the end of this simulation, you will be able to:

1. Clarify the fundamental concept of tissue engineering.

2. Provide an overview of articular cartilage injuries and the methods of treatment.

3. Define the various crosslinking approaches for hydrogel synthesis:

4. Ionic crosslinking.

5. Michael addition crosslinking.

6. Enzymatic crosslinking.

7. Radical crosslinking.

8. Differentiate between natural and synthetic polymers.

9. Assess the mechanical characteristics of the created hydrogels through rheological analysis.

How do virtual labs work?

Enhance students' involvement in science by immersing them in interactive learning scenarios. Create simulations for experiments, provide hands-on training in laboratory techniques, and convey theoretical concepts through captivating visual experiences to improve their overall long-term learning outcomes.

Access web-based simulations that are compatible with laptops, Chromebooks, tablets, and iPads, eliminating the need for software installation.
Incorporate a teacher dashboard for automated grading and monitoring of student progress.
Utilize embedded quizzes to assist students in mastering scientific content.
Comprehensive repository of educational materials, including learning resources, lab reports, videos, theory pages, graphics, and more.

Virtual Laboratory for Tissue Engineering

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LMS Integration

imaginX seamlessly integrates with leading LMS (Learning Management Systems), enabling educators to track student performance and allowing students to maintain their work records. It is compatible with popular platforms such as Canvas, Blackboard, Moodle, Google Classroom, Schoology, Sakai, Brightspace/D2L, and can also be used independently of an LMS.