Course syllabus

Course-PM

TIF125 Cell and tissue interactions with biomaterials lp4 VT22 (7.5 hp)

This course is offered by the Department of Physics, Chalmers.

Contact details

  • Examiner & main lecturer
    Julie Gold, Professor of Biomaterials, Dept of Physics, Chalmers University of Technology julie.gold@chalmers.se, (031) 772 3465, 070 646 7047
  • Guest lecturers
    • Anders Jeppsson <anders.jeppsson@vgregion.se>
      Professor och Chief Physician
      Dept of Molecular and Clinical Medicine
      Sahlgrenska University Hospital
      Gothenburg


      Anand Kumar Rajasekharan <anandk@amferia.com>
      Co-founder and CEO
      Amferia AB
      Astra Zeneca BioVentureHub
      Mölndal


      Margarita Trobos <margarita.trobos@biomaterials.gu.se>
      Docent
      Dept of Biomaterials
      Gothenburg University
      Göteborg


      Kristina Fant <fant.kristina@gmail.com>
      Senior Consultant
      Key2Compliance
      Göteborg


      Lars Enochsson <lars.enochson@devicia.com> TENTATIVE
      Clinical Research Manager
      Devicia AB
      Mölndal

    •  

      Alexandra Stubelius <Alexandra.Stubelius@chalmers.se>
    • Assistant Professor
    • Dept of Bioscience and Bioengineering
    • Chalmers University of Technology

Course aims

The aim of this course is for students to learn the mechanisms by which the human body reacts to a foreign material being in contact with, or implanted into, living tissues. The goal is to understand the basics of "biocompatibility" - what it is and how to determine it. Students learn about normal wound healing in the absence of a foreign material, and then how the presence of a material might influence the outcome of the wound healing response.

An understanding of tissue reactions to biomaterials is necessary in order to design new materials, surface treatments or strategies for repairing, replacing or regenerating tissues and organs. 

Schedule

TimeEdit

Course literature

Official course textbook: Biomaterials science : An introduction to materials in medicine, ed. WR Wagner et al., Elsevier Academic Press, c2020, 4th ed. THIS IS AN EBOOK via CHALMERS LIBRARY

Additional reference book, not required: Biomaterials-The intersection of biology and materials science, by JS Temenoff, AG Mikos, Pearson Prentice Hall Bioengineering, c2008 PAPER ONLY 3 copies @ CHALMERS LIBRARY or borrow from course instructor. This is good for a more basic introduction or description of the lecture topics

Course design

The course consists of lectures as well as in-class discussions and problem solving in groups.

There is a workshop on reading and writing research articles in preparation for the article review sessions, where we critically review and discuss two recent research articles.

We will also work in groups to prepare for and conduct a Mock court trial, where a group of patients sue a medical device manufacturer. It is meant for us to learn about the main aspects of the regulatory process to get market approval for medical devices. Specifically, focus is placed on how to determine the biocompatibility of a device, and the materials it is made of, for a particular application in the body.

Suggested readings in the textbook as well as reference books and additional handouts, corresponding to the course/lecture topics, are provided.

Self-study questions with answers are also provided.

There is a written quiz half way through the course as well as a written final exam.

Changes made since the last occasion

Moving the date for the Mock trial a week earlier, so that it does not fall so close to the final exam. Changing the way of grading as well as the number of points for the Mock Trial group work.

Learning objectives and syllabus

Learning objectives:

  • Correctly define and articulate the concept of biocompatibility and how to determine it
  • Differentiate between scenarios of wound healing with and without a foreign material
  • Argue a case on biocompatibility testing and regulatory aspects of biomaterials and medical devices
  • Critically evaluate and discuss with peers scientific publications in the biomaterials field, specifically from research journals

More specific learning outcomes include the following:

• Describe the key components of the tissue-material interface.
• Describe key properties of surfaces, proteins and biological fluids that influence the nature of protein adsorption to surfaces.
• Describe the major components of tissue, and how cells interact with their microenvironments, both in vivo and in vitro.
• Describe main issues in blood-material interactions, including platelet activation, fibrin clot formation, and mechanisms to control blood coagulation processes.
•Define main symptoms of, and key cell types involved in the inflammatory response. Describe the four lines of defence of the inflammatory system, and the connections between blood coagulation and inflammatory processes.
• Discuss the significance of biomaterials related infections, which bacteria are involved, and approaches to treat and prevent their occurance.
• Describe the innate versus the acquired immune systems, including key cell types and molecular events involved in each.
• Describe the Classical versus the Alternative pathways of complement activation, and the links between the inflammatory process and the complement system.
• Describe complement-mediated reactions to biomaterials and how they are regulated and can be controlled.
• Compare the phases of normal wound healing of tissues with those of wound healing around implant materials.
• Describe the events leading to fibrous capsule formation around implants and the key parameters influencing its formation.
• Be familiar with the regulatory guidelines for marketing medical devices and recommended tests to evaluate biocompatibility of devices and their materials.

 

Link to the syllabus on Studieportalen.

Study plan

 

Examination form

Article reviews & sessions  30 pts   (15 pts each x 2)

        Written article reviews    13 pts each

        Contribution to article review sessions    2 pts each

Regulatory case study/Mock trial (group grade)  15 pts

        Pre-trial report & statements (group grade)  10 pts

        Contribution to mock trial   5 pts

Quiz (written, in class)  15 pts

Final exam (written, in exam hall)  40 pts

Total  100 pts

 

Grading scale:

5 = 84-100 pts,   4 = 67-83 pts,   3 = 50-66 pts,    U (fail) < 50 pts

You need to get a passing grade (≥20pts) on the final exam in order to pass the course.

Course summary:

Date Details Due