Dr Itia Favre-Bulle
Dr

Itia Favre-Bulle

Email: 
Phone: 
+61 7 336 53411

Background

Itia is an optical physicist and neuroscientist recently awarded an ARC DECRA fellowship. She is based at the Queensland Brain Institute in Brisbane. Her research focuses on studying the zebrafish brain using advanced techniques such as whole brain calcium imaging and specialized light shaping devices. Notably, she has pioneered the application of optical tweezers to simulate the zebrafish inner-ear's responses to acceleration and hearing, offering novel insights into sensory processing mechanisms. She has also engineered imaging systems for conducting optogenetic experiments with real-time feedback in zebrafish models. Beyond technique development, Itia explores the noradrenergic system in zebrafish, investigating its pivotal role in modulating sensory functions. Her interdisciplinary approach combines optical physics with neuroscience to advance our understanding of neural circuits and sensory perception mechanisms in zebrafish.

Availability

Dr Itia Favre-Bulle is:
Available for supervision

Fields of research

Biomedical and Clinical Sciences Central nervous system Computational neuroscience (incl. mathematical neuroscience and theoretical neuroscience) Neurosciences Neurosciences not elsewhere classified Sensory systems

Qualifications

  • Doctor of Philosophy, The University of Queensland

Search Professor Itia Favre-Bulle’s works on UQ eSpace

38 works between 2011 and 2025
All (38) Book (1) Journal Article (25) Other Outputs (1) Conference Publication (10) Book Chapter (1)

21 - 38 of 38 works

2020

Journal Article

Brain-wide mapping of water flow perception in zebrafish

Vanwalleghem, Gilles, Schuster, Kevin, Taylor, Michael A., Favre-Bulle, Itia A. and Scott, Ethan K. (2020). Brain-wide mapping of water flow perception in zebrafish. The Journal of Neuroscience, 40 (21), 4130-4144. doi: 10.1523/jneurosci.0049-20.2020

Brain-wide mapping of water flow perception in zebrafish

2020

Other Outputs

Bio-Opto-Acoustics

Favre-Bulle, Itia and Scott, Ethan (2020). Bio-Opto-Acoustics. The University of Queensland. (Dataset) doi: 10.14264/9809ff7

Bio-Opto-Acoustics

2019

Journal Article

Optical trapping in vivo: theory, practice, and applications

Favre-Bulle, Itia A., Stilgoe, Alexander B., Scott, Ethan K. and Rubinsztein-Dunlop, Halina (2019). Optical trapping in vivo: theory, practice, and applications. Nanophotonics, 8 (6), 1023-1040. doi: 10.1515/nanoph-2019-0055

Optical trapping in vivo: theory, practice, and applications

2018

Journal Article

Cellular-resolution imaging of vestibular processing across the larval zebrafish brain

Favre-Bulle, Itia A., Vanwalleghem, Gilles, Taylor, Michael A., Rubinsztein-Dunlop, Halina and Scott, Ethan K. (2018). Cellular-resolution imaging of vestibular processing across the larval zebrafish brain. Current Biology, 28 (23), 3711-3722. doi: 10.1016/j.cub.2018.09.060

Cellular-resolution imaging of vestibular processing across the larval zebrafish brain

2018

Journal Article

Diffuse light-sheet microscopy for stripe-free calcium imaging of neural populations

Taylor, Michael A., Vanwalleghem, Gilles C., Favre-Bulle, Itia A and Scott, Ethan K. (2018). Diffuse light-sheet microscopy for stripe-free calcium imaging of neural populations. Journal of Biophotonics, 11 (12) e201800088, e201800088. doi: 10.1002/jbio.201800088

Diffuse light-sheet microscopy for stripe-free calcium imaging of neural populations

2018

Journal Article

Luminance changes drive directional startle through a thalamic pathway

Heap, Lucy A. L., Vanwalleghem, Gilles, Thompson, Andrew W., Favre-Bulle, Itia A. and Scott, Ethan K. (2018). Luminance changes drive directional startle through a thalamic pathway. Neuron, 99 (2), 293-301.e4. doi: 10.1016/j.neuron.2018.06.013

Luminance changes drive directional startle through a thalamic pathway

2018

Journal Article

Optical tweezers bring micromachines to biology

Favre-Bulle, I. A., Zhang, S., Kashchuk, A. V., Lenton, I. C.D., Gibson, L. J., Stilgoe, A. B., Nieminen, T. A. and Rubinsztein-Dunlop, H. (2018). Optical tweezers bring micromachines to biology. Optics and Photonics News, 29 (4), 40-47. doi: 10.1364/opn.29.4.000040

Optical tweezers bring micromachines to biology

2018

Journal Article

Hypothalamic Projections to the Optic Tectum in Larval Zebrafish

Heap, Lucy A., Vanwalleghem, Gilles C., Thompson, Andrew W., Favre-Bulle, Itia, Rubinsztein-Dunlop, Halina and Scott, Ethan K. (2018). Hypothalamic Projections to the Optic Tectum in Larval Zebrafish. Frontiers in Neuroanatomy, 11 135, 1-12. doi: 10.3389/fnana.2017.00135

Hypothalamic Projections to the Optic Tectum in Larval Zebrafish

2018

Book Chapter

Optical Manipulation of Otoliths In-Vivo

Favre-Bulle, Itia Amandine (2018). Optical Manipulation of Otoliths In-Vivo. Imaging, Manipulation and Optogenetics in Zebrafish. (pp. 63-84) Cham, Switzerland: Springer. doi: 10.1007/978-3-319-96250-4_6

Optical Manipulation of Otoliths In-Vivo

2018

Book

Imaging, manipulation and optogenetics in zebrafish

Favre‐Bulle, Itia Amandine (2018). Imaging, manipulation and optogenetics in zebrafish. Cham, Switzerland: Springer. doi: 10.1007/978-3-319-96250-4

Imaging, manipulation and optogenetics in zebrafish

2017

Journal Article

Optical trapping of otoliths drives vestibular behaviours in larval zebrafish

Favre-Bulle, Itia A., Stilgoe, Alexander B., Rubinsztein-Dunlop, Halina and Scott, Ethan K. (2017). Optical trapping of otoliths drives vestibular behaviours in larval zebrafish. Nature Communications, 8 (1) 630, 630. doi: 10.1038/s41467-017-00713-2

Optical trapping of otoliths drives vestibular behaviours in larval zebrafish

2017

Journal Article

Erratum: Ultrasensitive rotating photonic probes for complex biological systems (vol 4, pg 1103, 2017)

Zhang, Shu, Gibson, Lachlan J., Stilgoe, Alexander B., Favre-Bulle, Itia A., Nieminen, Timo A. and Rubinsztein-Dunlop, Halina (2017). Erratum: Ultrasensitive rotating photonic probes for complex biological systems (vol 4, pg 1103, 2017). Optica, 4 (11), 1372-1372. doi: 10.1364/OPTICA.4.001372

Erratum: Ultrasensitive rotating photonic probes for complex biological systems (vol 4, pg 1103, 2017)

2017

Journal Article

Ultrasensitive rotating photonic probes for complex biological systems

Zhang, Shu, Gibson, Lachlan J., Stilgoe, Alexander B., Favre-Bulle, Itia A., Nieminen, Timo A. and Rubinsztein-Dunlop, Halina (2017). Ultrasensitive rotating photonic probes for complex biological systems. Optica, 4 (9), 1103-1108. doi: 10.1364/OPTICA.4.001103

Ultrasensitive rotating photonic probes for complex biological systems

2016

Conference Publication

Optical manipulation for optogenetics: otoliths manipulation in zebrafish

Favre-Bulle, Itia A., Scott, Ethan and Rubinsztein-Dunlop, Halina (2016). Optical manipulation for optogenetics: otoliths manipulation in zebrafish. Conference on Biophysics, Biology, and Biophotonics - The Crossroads, San Francisco, CA, United States, 13-14 February 2016. Bellingham, WA, United States: S P I E - International Society for Optical Engineering. doi: 10.1117/12.2216554

Optical manipulation for optogenetics: otoliths manipulation in zebrafish

2015

Conference Publication

Computational modeling of scattering of a focused beam in zebrafish brain tissue

Favre-Bulle, Itia, Nieminen, Timo A., Preece, Daryl, Heap, Lucy A., Scott, Ethan K. and Rubinsztein-Dunlop, Halina (2015). Computational modeling of scattering of a focused beam in zebrafish brain tissue. Optics and the Brain, BRAIN 2015, Vancouver, BC, Canada, 12-15 April 2015. Washington, DC, USA: OSA - The Optical Society. doi: 10.1364/BODA.2015.JT3A.34

Computational modeling of scattering of a focused beam in zebrafish brain tissue

2015

Journal Article

Scattering of sculpted light in intact brain tissue, with implications for optogenetics

Favre-Bulle, Itia A., Preece, Daryl, Nieminen, Timo A., Heap, Lucy A., Scott, Ethan K. and Rubinsztein-Dunlop, Halina (2015). Scattering of sculpted light in intact brain tissue, with implications for optogenetics. Scientific Reports, 5 (1) 11501, 1-9. doi: 10.1038/srep11501

Scattering of sculpted light in intact brain tissue, with implications for optogenetics

2015

Conference Publication

Sensory integration in the Zebrafish brain, what are the functions of the thalamus and the cerebellum ?

Vanwalleghem, Gilles, Heap, Lucy A., Favre-Bulle, Itia, Schuster, Kevin, Thompson, Andrew and Scott, Ethan K. (2015). Sensory integration in the Zebrafish brain, what are the functions of the thalamus and the cerebellum ?. Neuroinformatics 2015, Cairns, Australia, 20-22 August, 2015. Lausanne Switzerland: Frontiers. doi: 10.3389/conf.fnins.2015.91.00018

Sensory integration in the Zebrafish brain, what are the functions of the thalamus and the cerebellum ?

2011

Conference Publication

High-speed camera system for biological applications in optical tweezing

Favre-Bulle, Itia, Preece, Daryl, Nieminen, Timo A., Heckenberg, Norman and Rubinsztein-Dunlop, Halina (2011). High-speed camera system for biological applications in optical tweezing. International Quantum Electronics Conference, IQEC 2011 and Conference on Lasers and Electro-Optics, CLEO Pacific Rim 2011, Sydney, NSW Australia, 28 August - 1 September 2011. Piscataway, NJ United States: I E E E. doi: 10.1109/IQEC-CLEO.2011.6194030

High-speed camera system for biological applications in optical tweezing

Current funding

  • 2025 - 2026
    UQ AWARE - Dr Itia Favre-Bulle
    UQ Amplify Women's Academic Research Equity
    Open grant
  • 2023 - 2026
    Reaching deeper into neuronal networks using optical physics
    ARC Discovery Early Career Researcher Award
    Open grant
  • 2022 - 2025
    Myelin: wrapping up neural circuit function and behaviour
    NHMRC IDEAS Grants
    Open grant

Past funding

  • 2023 - 2024
    UQ AWARE - Dr Itia Favre-Bulle
    UQ Amplify Women's Academic Research Equity
    Open grant
  • 2023 - 2025
    The physics and biology of hearing in larval fish (ARC Discovery Project administered by University of Melbourne)
    University of Melbourne
    Open grant
  • 2022 - 2023
    The physics and biology of hearing in larval fish
    ARC Discovery Projects
    Open grant
  • 2022
    Myelin: wrapping up neural circuit function and behaviour (NHMRC Ideas Grant led by University of Tasmania)
    University of Tasmania
    Open grant

Availability

Dr Itia Favre-Bulle is:
Available for supervision

Before you email them, read our advice on how to contact a supervisor.

Available projects

  • Computational analysis of whole brain neuronal networks

    Summary:

    Understanding the brain and its neuronal networks is one of the greatest challenges in science. In our lab, we use the zebrafish model to elucidate key elements of this network. We image and record larval zebrafish neuronal activity over time, across the whole brain and in different environmental conditions. The results are analysed with a combination of computational methods such as clustering, regression and graph theory to make sense of the dynamical changes of the network in different conditions.

    The data:

    Complete datasets of whole brain activity have been and are currently being acquired by lab members to answer various questions in neuroscience. These datasets comprise videos of the recording of the neuronal activity in zebrafish brains undergoing environmental changes. These video recordings have been pre-processed so that the individual activity of all neurons have been extracted, along with their corresponding X,Y and Z positions in the brain.

    The team:

    The position is headed by ARC DECRA Fellow Dr Itia Favre-Bulle from both SMP and QBI with group members from various background including psychology, neuroscience, optical physics and computational biology. Our collaborative work focusses on the imaging of behaviour and brain activity of the zebrafish model. This work is challenging and rewarding, and best suited to researchers who value broad, interdisciplinary approaches to big questions in behavioural and neuroscience. Culturally, our lab values diversity, in all of its forms, and cultivates a mutually supportive and collaborative atmosphere.

    Expected learning outcomes and deliverables:

    Students will gain:

    • skills in coding,
    • knowledge in neuronal network and brain states,
    • skills in oral and writing presentations through reports and group meeting attendance,
    • The opportunity to generate a publication from their research.

    Student's background:

    This project is open to applications from students with a background in coding (ideally Matlab but not necessary) and statistical analysis.

    Primary Supervisor: Dr Itia Favre-Bulle

    Further info: Please contact Dr Itia Favre-Bulle prior to submitting an application via email at: i.favrebulle@uq.edu.au.

  • Optogenetics and laser ablation in zebrafish

    Summary:

    Understanding the brain and its neuronal networks is one of the greatest challenges in science. In our lab, we use the zebrafish model to elucidate key elements of this network. In this project, we aim to reveal the short term effects (via Optogenetics) and long terms effects (via laser ablation) of the impairment of specific neurons in brain dynamics and behaviour. Using a zebrafish line that labels the noradrenergic neurons specifically (neurons responsible to the maintenance of attention), we aim to ablate or silence those neurons, record neuronal activity in the rest of the brain, and observe spontaneous behaviour. This honours project will involve behavioural experiment in zebrafish, brain imaging and image analysis.

    The team:

    The position is headed by ARC DECRA Fellow Dr Itia Favre-Bulle from both SMP and QBI with group members from various background including psychology, neuroscience, optical physics and computational biology. Our collaborative work focusses on the imaging of behaviour and brain activity of the zebrafish model. This work is challenging and rewarding, and best suited to researchers who value broad, interdisciplinary approaches to big questions in behavioural and neuroscience. Culturally, our lab values diversity, in all of its forms, and cultivates a mutually supportive and collaborative atmosphere.

    Expected learning outcomes and deliverables:

    Students will gain:

    • skills in imaging and laser manipulation (fluorescence, optogenetics and laser ablation),
    • skills in coding
    • knowledge in neuronal network and brain states,
    • skills in oral and writing presentations through reports and group meeting attendance,
    • the opportunity to generate a publication from their research.

    Student's background:

    This project is open to applications from students with a background in coding (ideally Matlab but not necessary) and statistical analysis.

    Primary Supervisor: Dr Itia Favre-Bulle

    Further info: Please contact Dr Itia Favre-Bulle prior to submitting an application via email at: i.favrebulle@uq.edu.au.

Supervision history

Current supervision

Completed supervision

Enquiries

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