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Thomas Scheibel

Different materials and processing techniques have revolutionized the medical field. From artificial hips that keep people mobile to wound dressings that can replace the need for a skin graft, the field of biomaterials and biomedical engineering has refocused the emphasis from the length of a lifetime to the quality of life. Seeking to completely heal wounds and cure diseases, cutting edge research in biomedical engineering has drifted towards smart drugs and materials, tissue engineering, and biofabrication.

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Different materials and processing techniques have revolutionized the medical field. From artificial hips that keep people mobile to wound dressings that can replace the need for a skin graft, the field of biomaterials and biomedical engineering has refocused the emphasis from the length of a lifetime to the quality of life. Seeking to completely heal wounds and cure diseases, cutting edge research in biomedical engineering has drifted towards smart drugs and materials, tissue engineering, and biofabrication.

Are you curious about technology and innovation in the medical sector? Are you interested in multidisciplinary studies that combine engineering, chemistry, materials science, biology, and medicine? Are you fascinated by the power of natural resources and how they are used to solve current challenges? Enroll in the MOOC Biomaterials and Biofabrication: Design, Engineering and Innovation offered by the University of Bayreuth!

This MOOC leads you through a storyline where you follow Emma and Paul, our fictional characters, as they explore the world of biomedical engineering. Our interactive videos enforce all concepts (e.g. metals, ceramics, polymers, hydrogels, hip implants, biocompatibility, additive manufacturing, bioreactors, tissue engineering, tissue regeneration, 3D printing, and more) with entertaining scenarios, examples, an accompanying textbook and in-video quizzes. You have the opportunity to learn from international field experts who present highly engaging, application-oriented content that will sharpen your theoretical and practical skills. You can also participate in our biannual, live sessions with the course coordinator, Prof. Dr. Thomas Scheibel.

Start your journey of becoming an expert in biomedical engineering and science with our MOOC!

What's inside

Learning objectives

  • Key concepts in the biomaterials and medical devices
  • Clinical testing and quality assurance
  • Key concepts in the field of tissue engineering
  • Key challenges in the field of tissue engineering
  • Key concepts in biofabrication
  • How to develop products to solve biomedical problems
  • Current trends in the field of biofabrication

Syllabus

Chapter 1 "Biomaterials Part 1"
Chapter 2 "Biomaterials Part 2"
Chapter 3 "Additive Manufacturing and Quality Assurance"
Chapter 4 "Tissue Engineering and Bioreactors"
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Chapter 5 “Tissue Regeneration”
Chapter 6 "Biofabrication"

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Straightforwardly teaches biomaterials and biomedical engineering, which are topics of growing interest within the medical industry
Provides foundational knowledge in biomaterials and tissue engineering, which can be useful for students in bioengineering and biomedical engineering
Taught by Prof. Dr. Thomas Scheibel who is a leading expert in the field of biofabrication and tissue engineering
Uses multimedia including videos, quizzes, and interactive scenarios to teach concepts, which could make the course more engaging
Covers additive manufacturing and its role in biofabrication, which is highly relevant to the medical field
May be a good fit for students interested in tissue engineering and biofabrication, given its focus on these topics

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Reviews summary

Biomaterials and biofabrication: engaging course with excellent videos

According to students, Biomaterials and Biofabrication is a highly recommended online course featuring engaging videos. Students praise the excellent quality of the videos and the use of two students to introduce topics. Learners say that the course content is very interesting.
Students find the course content to be very interesting.
"Very interesting MOOC."
The use of two students to introduce topics makes the course more engaging.
"Two students act during the videos introducing the topics."
Students highly praise the quality of the course videos.
"The setting and the videos are excellent."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Biomaterials and Biofabrication: Design, Engineering and Innovation with these activities:
Volunteer at a Biomedical Engineering Lab
Gain practical experience in biomedical engineering by volunteering at a lab.
Browse courses on Biomedical Engineering
Show steps
  • Identify a biomedical engineering lab that accepts volunteers.
  • Contact the lab and inquire about volunteer opportunities.
  • Attend the volunteer orientation and training.
  • Assist the researchers with their projects.
Review Fundamentals of Tissue Engineering
Begin by reviewing basic concepts, principles, and processes involved in tissue engineering to set up a good foundation for grasping material presented in the course.
Show steps
  • Identify different types of cells used in tissue engineering.
  • Distinguish between inductive and conductive scaffolds in tissue engineering.
  • Understand the fundamentals of biocompatibility and immune response in tissue engineering.
Test Your Understanding of Biomaterials
Reinforce your knowledge of biomaterials and medical devices by completing practice drills.
Browse courses on Biomaterials
Show steps
  • Review the provided practice problems.
  • Work through each problem, taking your time to understand the concepts involved.
  • Check your answers against the provided solutions.
  • Identify any areas where you need additional support and focus your studies accordingly.
Seven other activities
Expand to see all activities and additional details
Show all ten activities
Explore the Fundamentals of Tissue Engineering
Gain a deeper understanding of tissue engineering and its applications by reviewing a comprehensive textbook.
Show steps
  • Read the assigned chapters in the textbook.
  • Take notes and highlight important concepts.
  • Complete any end-of-chapter exercises or assignments.
  • Discuss the material with classmates or the course instructor.
Explore 3D Printing in Biofabrication
Following tutorials on 3D printing techniques used in biofabrication can broaden knowledge of current technologies and their applications.
Browse courses on 3D Printing
Show steps
  • Identify different types of 3D printing technologies.
  • Analyze the advantages and limitations of each technology.
  • Learn to design 3D models for biofabrication.
  • Experiment with different biomaterials for 3D printing.
Create a 3D Model of a Biomedical Device
Develop your skills in biofabrication by creating a 3D model of a biomedical device.
Show steps
  • Choose a biomedical device to model.
  • Research the device's design and functionality.
  • Use a 3D modeling software to create a digital model.
  • Export the model to a 3D printer.
  • Print the model and evaluate its accuracy.
Design a Biocompatible Implant
Engaging in the design and evaluation of a biocompatible implant allows for a practical application and deeper comprehension of course concepts.
Show steps
  • Research different types of biocompatible materials.
  • Analyze the biocompatibility of potential implant materials.
  • Design an implant using computer-aided design (CAD) software.
  • Evaluate the biocompatibility of the implant design using simulation software.
  • Present the design and evaluation results.
Collaborate on a Tissue Engineering Project
Enhance your understanding of tissue engineering by working on a project with peers.
Browse courses on Tissue Engineering
Show steps
  • Form a team of peers with complementary skills.
  • Choose a tissue engineering project to work on.
  • Plan and execute the project, dividing tasks among team members.
  • Present your findings to the class or a panel of experts.
Explore Advanced Topics in Biofabrication
Expand your knowledge of biofabrication by exploring advanced topics through guided tutorials.
Show steps
  • Identify advanced topics in biofabrication.
  • Find online tutorials, workshops, or courses on these topics.
  • Follow the tutorials and complete any assignments or exercises.
  • Apply the knowledge you gain to your own biofabrication projects.
Attend a Biomaterials and Medical Devices Conference
Stay up-to-date on the latest advances in biomaterials and medical devices by attending a relevant conference.
Browse courses on Biomaterials
Show steps
  • Identify a conference focused on biomaterials or medical devices.
  • Register for the conference and attend the sessions.
  • Take notes and ask questions during the presentations.
  • Network with other attendees and experts in the field.

Career center

Learners who complete Biomaterials and Biofabrication: Design, Engineering and Innovation will develop knowledge and skills that may be useful to these careers:
Biomedical Engineer
Biomedical Engineers are professionals who use their knowledge in engineering and biology to design and manufacture medical devices. This may include medical imaging equipment, prosthetics, and even artificial organs and tissues. They may work with patients, either directly or indirectly, to help improve their quality of life. The Biomaterials and Biofabrication course would be essential to a Biomedical Engineer, as it covers the key concepts in biomaterials, tissue engineering, and biofabrication. This knowledge would help a Biomedical Engineer to develop new and innovative medical devices that can help to improve patient outcomes.
Materials Scientist
Materials Scientists research and develop new materials for use in a variety of applications, including medical devices. They work to improve the properties of existing materials and to create new materials with desired properties. The Biomaterials and Biofabrication course can help a Materials Scientist gain knowledge in the field of biomaterials, which are materials used in medical devices and implants. This knowledge can help a Materials Scientist to develop new and innovative biomaterials that can improve the performance of medical devices.
Biofabrication Scientist
Biofabrication Scientists use 3D printing and other techniques to create complex biological structures. They work in a variety of fields, including medicine, tissue engineering, and drug discovery. The Biomaterials and Biofabrication course provides a Biofabrication Scientist with the knowledge and skills needed to use 3D printing and other techniques to create complex biological structures. This knowledge can help a Biofabrication Scientist to contribute to the development of new medical treatments and therapies.
Tissue Engineer
Tissue Engineers work to develop and grow new tissues and organs for use in transplantation. They use a variety of techniques, including biofabrication, to create tissues that can replace damaged or diseased tissues. The Biomaterials and Biofabrication course can provide a Tissue Engineer with the knowledge and skills needed to develop and grow new tissues and organs. This knowledge can help a Tissue Engineer to contribute to the field of regenerative medicine and to help patients who need new tissues and organs.
Product Development Scientist
Product Development Scientists work to develop and bring new products to market. They work in a variety of industries, including the medical device industry. The Biomaterials and Biofabrication course can provide a Product Development Scientist with the knowledge and skills needed to develop and bring new medical devices to market. This knowledge can help a Product Development Scientist to contribute to the development of new medical treatments and therapies.
Medical Device Designer
Medical Device Designers use their knowledge of engineering and design to create new medical devices. They work with doctors and other medical professionals to develop devices that meet the needs of patients. The Biomaterials and Biofabrication course can provide a Medical Device Designer with the knowledge and skills needed to design and develop new medical devices. This knowledge can help a Medical Device Designer to contribute to the development of new medical treatments and therapies.
Quality Assurance Engineer
Quality Assurance Engineers work to ensure that products meet quality standards. They work in a variety of industries, including the medical device industry. The Biomaterials and Biofabrication course can provide a Quality Assurance Engineer with the knowledge and skills to ensure that medical devices meet quality standards. This knowledge can help a Quality Assurance Engineer to contribute to the development of safe and effective medical devices.
Regulatory Affairs Specialist
Regulatory Affairs Specialists work to ensure that products comply with government regulations. They work in a variety of industries, including the medical device industry. The Biomaterials and Biofabrication course can provide a Regulatory Affairs Specialist with the knowledge and skills to ensure that medical devices comply with government regulations. This knowledge can help a Regulatory Affairs Specialist to contribute to the development of safe and effective medical devices.
Marketing Manager
Marketing Managers work to develop and execute marketing campaigns for products and services. They work in a variety of industries, including the medical device industry. The Biomaterials and Biofabrication course can provide a Marketing Manager with the knowledge and skills to develop and execute marketing campaigns for medical devices. This knowledge can help a Marketing Manager to contribute to the development of new medical treatments and therapies.
Sales Representative
Sales Representatives work to sell products and services to customers. They work in a variety of industries, including the medical device industry. The Biomaterials and Biofabrication course can provide a Sales Representative with the knowledge and skills to sell medical devices to customers. This knowledge can help a Sales Representative to contribute to the development of new medical treatments and therapies.
Patent Attorney
Patent Attorneys work to protect intellectual property rights. They work in a variety of industries, including the medical device industry. The Biomaterials and Biofabrication course can provide a Patent Attorney with the knowledge and skills to protect intellectual property rights in the medical device industry. This knowledge can help a Patent Attorney to contribute to the development of new medical treatments and therapies.
Healthcare Consultant
Healthcare Consultants work to improve the efficiency and effectiveness of healthcare organizations. They work with a variety of healthcare organizations, including hospitals, clinics, and medical device companies. The Biomaterials and Biofabrication course can provide a Healthcare Consultant with the knowledge and skills to improve the efficiency and effectiveness of healthcare organizations. This knowledge can help a Healthcare Consultant to contribute to the development of new medical treatments and therapies.
Medical Librarian
Medical Librarians work to manage and provide access to medical information. They work in a variety of settings, including hospitals, clinics, and medical schools. The Biomaterials and Biofabrication course can provide a Medical Librarian with the knowledge and skills to manage and provide access to medical information about medical devices. This knowledge can help a Medical Librarian to contribute to the development of new medical treatments and therapies.
Science Writer
Science Writers work to communicate scientific information to the public. They work in a variety of media, including print, broadcast, and online. The Biomaterials and Biofabrication course can provide a Science Writer with the knowledge and skills to communicate scientific information about medical devices to the public. This knowledge can help a Science Writer to contribute to the development of new medical treatments and therapies.
Teacher
Teachers work to educate students in a variety of subjects, including science and engineering. The Biomaterials and Biofabrication course can provide a Teacher with the knowledge and skills to teach students about biomaterials and biofabrication. This knowledge can help a Teacher to contribute to the development of a new generation of scientists and engineers.

Reading list

We've selected seven books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Biomaterials and Biofabrication: Design, Engineering and Innovation.
An essential reference for researchers, students, and industry professionals, it provides a broad overview of the field of biofabrication, including key concepts, techniques, and applications.
A classic textbook in the field, this book provides a comprehensive overview of the principles and applications of tissue engineering, including important historical milestones, cutting-edge advances, and future prospects.
Focuses on the clinical applications of biomaterials and regenerative medicine, providing a detailed overview of the latest research and advancements in the field.
This textbook provides a comprehensive introduction to the properties, processing, and applications of biomaterials commonly used in medical implants and devices.
Offers a clinical perspective on biomaterials, providing insights into their performance and safety in various medical applications and discussing the challenges and limitations associated with their use.
This textbook provides a thorough introduction to the engineering principles and materials used in biomaterials and medical device design, with a focus on practical applications.

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