Immuno-imaging and molecular therapy

3 ECTS credits
90 u studietijd

Aanbieding 1 met studiegidsnummer 4021496ENR voor alle studenten in het 2e semester met een verdiepend master niveau.

Semester

2e semester

Inschrijving onder examencontract

Niet mogelijk

Beoordelingsvoet

Beoordeling (0 tot 20)

2e zittijd mogelijk

Ja

Onderwijstaal

Engels

Onder samenwerkingsakkoord

Onder interuniversitair akkoord mbt. opleiding

Faculteit

Faculteit Wetenschappen en Bio-ingenieurswetensch.

Verantwoordelijke vakgroep

Bio-ingenieurswetenschappen

Onderwijsteam

Nick Devoogdt (titularis)

Onderdelen en contacturen

0 contacturen Exam
30 contacturen Lecture
20 contacturen Self study

Inhoud

Antibodies have an exceptional competency to recognize specific molecules via their antigen-binding region. Therefore, they play an important role in cancer imaging and therapy. Indeed, antibody-based imaging can provide a sensitive way to non-invasively visualize, characterize and quantify molecular and cellular processes, and antibody-based therapies have proven to be successful alternatives to traditional cancer treatments. However, antibodies also have their shortcomings and limitations and are the subject of molecular engineering to generate more optimal compounds.

This course aims to provide an extensive overview of applications of antibodies and antibody-fragments in various applications of molecular imaging and targeted therapies. The core of this knowledge will be provided during a one-week intensive workshop where national and international experts will give an introduction of their respective research field during 1,5-2h lectures. The lectures will be supplemented with discussion fora that aim to dig deeper in particular research topics. The one-week workshop will be preceded by an introductory lecture and also a feedback session is foreseen.

This course aims to develop students into critical, self-sufficient and confident researchers by bringing them into contact and stimulating discussions with national and international researchers (peers and non-peers) who are active in the field on immuno-imaging and -therapy.

More in particular, the following topics will be provided:

• Overview of molecular imaging modalities, including nuclear (PET/SPECT), optical (Fluorescence and Bioluminescence) and magnetic resonance imaging techniques.
• Overview of current clinical practices in nuclear medicine departments
• Overview of biotechnological applications of antibodies, antibody-fragments and nanobodies
• Overview of the concepts in the development of molecular tracers, with focus on immuno-tracers and nanobody-based tracers
• Introduction to radiochemical strategies towards development of radio-tracers
• Introduction to the concept of theranostics and targeted radionuclide therapy
• Overview of optical imaging applications, with focus on interventional molecular imaging
• Insights in the process of translating a molecular imaging technology towards the clinic and towards industry
• Highlight of important novel developments in the field, presented by international and/or national experts.

Bijkomende info

The core of this course is a one-week workshop that consists of lectures and discussion fora. This workshop usually takes place in the last week of April at the Health Campus. A detailed program of the workshop, including the content and timing of the various lectures, and a biosketch of each lecturer will be provided beforehand. The presence at this workshop is obligatory.

In addition, a 3h introductory lecture (obligatory presence) will be given one week before the start of the workshop, and a 4h interactive session (optional presence) is foreseen one week after the workshop to provide feedback on the course content.

All lectures and hands-on sessions will be accompanied with powerpoint presentations: a printout of the handouts of these presentations will be provided before the start of the lectures. They will also be provided digitally by uploading them on the learning platform.

Leerresultaten

General competences

• To understand the important concepts of molecular imaging and therapy discussed during the lectures:
  • Advantages and shortcomings of the different molecular imaging modalities and equipment
  • Engineering and application of molecular tracers, taking into account biological, chemical, pharmaceutical, medical and economical aspects
• To be able to apply these concepts for the design of molecular tracers for specific medical needs (what, how, why?)
• To gain competences in scientific communication with peers and non-peers
  • Asking scientific questions during seminars
  • Taking part in face-to-face scientific discussions during informal contact moments
• To be able to summarize, critically evaluate and present a scientific paper relating to various aspects presented and discussed during the seminar.

Beoordelingsinformatie

De beoordeling bestaat uit volgende opdrachtcategorieën:
Examen Andere bepaalt 100% van het eindcijfer

Binnen de categorie Examen Andere dient men volgende opdrachten af te werken:

• Examen andere met een wegingsfactor 1 en aldus 100% van het totale eindcijfer.

Aanvullende info mbt evaluatie

Students will be evaluated on 3 aspects: 1) active participation in the workshop; 2) presentation of a self-chosen scientific paper dealing with several aspects related to the course content; 3) knowledge of the course content. Students will not be scored for the correct use of the english language during the workshop, scientific presentation or oral examination.

1) 1/4 of the grading will depend on the course participant's active participation. The tutor who will be present during all workshop sessions will make this evaluation. The tutor will evaluate the ability of the student to ask critical questions, participate in discussions with peers and lecturers during lectures, hands-on sessions and a poster session (where non-VUB workshop participants present their personal research field).

2) 1/4 of the grading will depend on the presentation of a self-chosen scientific paper to the course lecturers. At least 3 workshop lecturers will be present during this presentation to participate in the evaluation. The student is asked to present in a short powerpoint presentation the key aspects of a scientific paper that involves topics that were discussed during at least two workshop lectures. The student will be graded on presentation skills, attitude, introduction of the topic, presentation layout, correctness of the presented data and interpretation of the conclusions

3) 1/2 of the grading will depend on the knowledge of the course content. This will be evaluated during an oral exam that will take place after the presentation of the self-chosen scientific paper. Again, at least 3 lecturers will participate in the evaluation, and a mean grading of all examinators will be calculated. The student will be examined on knowledge of the whole course content, not only on the topics that were presented in the self-chosen scientific publication.

Toegestane onvoldoende

Kijk in het aanvullend OER van je faculteit na of een toegestane onvoldoende mogelijk is voor dit opleidingsonderdeel.

Academische context

Deze aanbieding maakt deel uit van de volgende studieplannen:
Master of Molecular Biology: Standaard traject (enkel aangeboden in het Engels)