Neurophysiology

Neurophysiology: Introduction to Electrophysiology and Imaging

Course manual 2022/2023

Course content

This course gives an overview of modern approaches in (cognitive) neuroscience. These methods integrate across different scales of analysis and understanding: from small-scale measurements and manipulations of neural circuits and individual neurons in animals to large-scale measurements of brain-wide networks in humans. Each method will be explained from the ground up: starting from the principles of the signals we are recording in the brain, to the raw data we acquire, to the analyses we can perform on that data, and to the conclusions we can finally draw.

The neurophysiological methods we will cover can be subdivided into two categories:

1) Methods that answer questions at the molecular and cellular level and which are more invasive and thus mainly use animal models (intracellular and extracellular recordings; 2-photon imaging).

2) Methods that answer questions at the regional, inter-regional and systems level, which are (generally) not invasive and thus are mainly conducted in humans (ECoG; EEG; fMRI).

Next to these base methods, we will touch on
- Advanced imaging techniques (DTI, fMRS)
- Computational modeling of neurophysiological data
- Ways to perturb brain functioning, which permit asking causal questions (optogenetics, deep brain stimulation)

Each lecture is given by an experienced researcher who actively uses the method that he/she will discuss with the class. The lecturers will explain: (i) what aspect of brain activity a particular method measures or manipulates, (ii) the advantages and disadvantages of the method, (iii) what type of questions can be answered by using the method, (iv) experimental designs used to incorporate the method, and (v) common applications of the method.

Students will apply the knowledge of said methods with a weekly Journal Club. One host-group will lead the Journal Club for a relevant paper to the weeks materials, while the rest of the group get a redacted version of the paper without the author's interpretations. Through open discussions the students will interpret the paper, and critically evaluate its conclusions.

Study materials

Literature

• For each lecture :

  - 1 review paper and/or book chapter

  - 1 original research paper.

  The details of the reading material will be made available via Canvas.

Practical training material

Objectives

• Argue which methods and techniques are best suited for particular research questions within cognitive neuroscience
• Understand how analyses and statistics are performed on data obtained with some of the techniques covered in the class
• Explain the rationale and interpret the results of scientific articles that use methods and techniques discussed throughout the course. The student can also point out potential issues in analyses conducted or in conclusions drawn
• Integrate findings across levels of measurement (from the physiological to the psychological) to address an outstanding cognitive neuroscience question
• Critically assess published research findings
• Understand good research practices in cognitive neuroscience

Teaching methods

• Lecture
• Self-study
• Working independently on e.g. a project or thesis
• Supervision/feedback meeting
• Seminar
• Presentation/symposium

Lectures: Will cover all the basics required for student to independently and critically think about each method.

Assignment: A written assignment will allow students to focus on two methods of interest, and think through all the details ranging from data acquisition to analysis and understanding.   

Journal clubs: actively participating in the journal clubs will allow students to critically assess published research findings 

Self-study: will cover all the basics required for student to independently and critically think about each method.

Learning activities

Attendance

Requirements of the programme concerning attendance (OER-B):

1. In the case of practicals, the student must attend at least 80%. Should the student attend less than 80%, he/she must redo the practical, or the Examinations Board may have one or more supplementary assignments issued.
2. In the case of study-group sessions with assignments, the student must attend at least 80% of the study-group sessions. Should the student attend less than 80%, he/she must redo the study group, or the Examinations Board may have one or more supplementary assignments issued.

Additional requirements for this course:

Lectures: Not mandatory but highly recommended.

Assignment: Mandatory. 

Journal clubs: Students can miss one of six journal clubs. Missing more than one journal club means the student fails this part of the course and needs to either redo it next year or the student will be given an alternative assignment. Absence needs to be communicated to the course coordinator.

Assessment

Exam: Grade is determined in direct proportion to the points obtained. For example, a student who obtains 83 points out of a 100 will score an 8.3 for the exam.

Assignment: Students will receive written feedback on their first draft. The grade for the final draft is determined based on the rubric (on Canvas). Not meeting the deadlines (for the first or final drafts) means 1 point is deducted from the assignment grade. 

Journal clubs: Pass / fail based on overall engagement across journal clubs.

Table of how the course objectives are assessed:

In order pass the course, the grades for both the exam and assignment must be >= 5.5, and the grade for the journal clubs must be a "pass".  

There will be one resit exam. The grade will account for 70% of the course grade.

Inspection of assessed work

Contact the course coordinator via email (j.w.degee@uva.nl) to make an appointment for inspection.

Assignments

Write a peer review
Students will individually write a peer review proposal (max 1000 words) that covers:

• Brief summary
• Strengths and weaknesses of the manuscript, including a discussion about whether the authors’ claims and conclusions are justified by their data.
• Recommendations for the authors that outline how you think the science and its presentation could be strengthened.
• Main limitation of the method, and outline of how a different method can overcome this.

The assignment is graded. Students will receive written feedback on their first draft from the course coordinator, and from a peer. The grade for the final draft is determined based on the rubric (on Canvas).

Fraud and plagiarism

The 'Regulations governing fraud and plagiarism for UvA students' applies to this course. This will be monitored carefully. Upon suspicion of fraud or plagiarism the Examinations Board of the programme will be informed. For the 'Regulations governing fraud and plagiarism for UvA students' see: www.student.uva.nl

Course structure

Timetable

The schedule for this course is published on DataNose.

Additional information

max. 24.

This course is mandatory for first year students of the Master Brain and Cognitive Sciences, cognitive neuroscience track. They will be registered automatically.

For each lecture there will be: one review paper and/or book chapter and one application paper assigned. The details of the reading material that the students need to obtain will be available in Canvas.

The power point presentation of each lecture will be available in Canvas shortly after the class.

Last year's student feedback

In order to provide students some insight how we use the feedback of student evaluations to enhance the quality of education, we decided to include the table below in all course guides.

Contact information

Coordinator

• Jan Willem de Gee PhD