Céline Braïni

Research Scientist at Inovarion
  • Claim this Profile
Contact Information
us****@****om
(386) 825-5501
Location
Strasbourg, Grand Est, France, FR
Languages
  • Français Native or bilingual proficiency
  • Anglais Professional working proficiency
  • Chinois Elementary proficiency
  • Espagnol Limited working proficiency

Topline Score

Topline score feature will be out soon.

Bio

Generated by
Topline AI

You need to have a working account to view this content.
Join now
You need to have a working account to view this content.
Join now

Credentials

  • Agrément Petite Ourse
    Association Française d'Astronomie (AFA)
    Aug, 2018
    - Oct, 2024
  • BAFA (Brevet d'aptitude aux fonctions d'animateur)
    Ministère de la Jeunesse et du sport
    Aug, 2009
    - Oct, 2024

Experience

  • Inovarion
    • France
    • Research Services
    • 1 - 100 Employee
    • Research Scientist
      • May 2022 - Present

      Affected at IMS (Institut du Médicament de Strasbourg) from May 2022. Affected at IMS (Institut du Médicament de Strasbourg) from May 2022.

  • IMS (Institut du Médicament de Strasbourg)
    • France
    • Chemical Manufacturing
    • 1 - 100 Employee
    • Research Scientist
      • May 2022 - Present

      Development of tools for the automated culture of brain organoids in microfluidic chips. Management of a microfabrication room and a microfluidic station. Work supervised by Dominique Bagnard and carried out between the ESBS engineering school and research center and the PCBIS platform. Development of tools for the automated culture of brain organoids in microfluidic chips. Management of a microfabrication room and a microfluidic station. Work supervised by Dominique Bagnard and carried out between the ESBS engineering school and research center and the PCBIS platform.

  • Télécom Physique Strasbourg
    • France
    • Higher Education
    • 1 - 100 Employee
    • Temporary teacher
      • Nov 2022 - Nov 2022

      Practical classes supervision. Teaching engineering students to fabricate SU-8 molds in a clean room, to make microfluidic chips, to produce droplets inside microfluidic chips and to make fluorescent measurements Practical classes supervision. Teaching engineering students to fabricate SU-8 molds in a clean room, to make microfluidic chips, to produce droplets inside microfluidic chips and to make fluorescent measurements

  • Strasbourg University
    • Germany
    • Higher Education
    • Research Engineer
      • Nov 2020 - Mar 2022

      Development of microfluidic tools to miniaturize high throughput screening and introduce organoids and organ-on-chip in a drug discovery platform. Creation of a microfabrication room and of a microfluidic station. Work supervised by Pascal Villa and conducted in the PCBIS platform. Development of microfluidic tools to miniaturize high throughput screening and introduce organoids and organ-on-chip in a drug discovery platform. Creation of a microfabrication room and of a microfluidic station. Work supervised by Pascal Villa and conducted in the PCBIS platform.

    • Temporary teacher
      • Nov 2021 - Nov 2021

      Practical classes supervision. Teaching engineering students to fabricate SU-8 molds in a clean room, to make microfluidic chips, to produce droplets inside microfluidic chips and to make fluorescent measurements Practical classes supervision. Teaching engineering students to fabricate SU-8 molds in a clean room, to make microfluidic chips, to produce droplets inside microfluidic chips and to make fluorescent measurements

  • Biomedical Neuroscience Institute (BNI)
    • Visiting Researcher
      • Sep 2019 - Jan 2020

      Design & elaboration of microfluidic chips to study axonal trafficking of membrane proteins in mice hippocampal neurons. Method: direct lithography with a MLA100 (Maskless Aligner), Heidelberg Instruments. Work in the context of a collaboration with Carolina González Silva (BNI) and Maria Luisa Cordero Garayar (Departamento de Física - FCFM, Universidad de Chile) Design & elaboration of microfluidic chips to study axonal trafficking of membrane proteins in mice hippocampal neurons. Method: direct lithography with a MLA100 (Maskless Aligner), Heidelberg Instruments. Work in the context of a collaboration with Carolina González Silva (BNI) and Maria Luisa Cordero Garayar (Departamento de Física - FCFM, Universidad de Chile)

  • Planète Sciences
    • France
    • Education Administration Programs
    • 1 - 100 Employee
    • Astronomy training
      • Jan 2019 - Feb 2019

      Astronomy trainings for children from 8 to 14 years old where they can obtain the "Petite Ourse" ("Little Bear") certificate from AFA (French astronomy association) Astronomy trainings for children from 8 to 14 years old where they can obtain the "Petite Ourse" ("Little Bear") certificate from AFA (French astronomy association)

  • CNRS
    • France
    • Research Services
    • 700 & Above Employee
    • Postdoctoral researcher
      • Mar 2018 - Dec 2018

      Coupling between micropatterning and microfluidics to measure synaptic activity in controlled neural networks with high reproducibility and quantifiability. Work supervised by Jean-Michel Peyrin, financed by Servier and carried out between the Pierre Gilles de Gennes Institute and the Servier's laboratories at the Institut du cerveau et de la moëlle épinière. Coupling between micropatterning and microfluidics to measure synaptic activity in controlled neural networks with high reproducibility and quantifiability. Work supervised by Jean-Michel Peyrin, financed by Servier and carried out between the Pierre Gilles de Gennes Institute and the Servier's laboratories at the Institut du cerveau et de la moëlle épinière.

  • Institut Curie
    • France
    • Hospitals and Health Care
    • 700 & Above Employee
    • Postdoctoral researcher
      • Feb 2017 - Feb 2018

      Optimization of the sub-micrometric scale cell volume measurement system developed during the doctorate (fluorescence exclusion method in a microfluidic chip). Work supervised by Catherine Villard and carried out at the Institut Pierre Gilles de Gennes. Optimization of the sub-micrometric scale cell volume measurement system developed during the doctorate (fluorescence exclusion method in a microfluidic chip). Work supervised by Catherine Villard and carried out at the Institut Pierre Gilles de Gennes.

  • Ecole Primaire Dausmenil
    • Science outreach
      • Oct 2016 - Jun 2017

      1h of science activities / week in a primary school with 6-7 years old children. 1h of science activities / week in a primary school with 6-7 years old children.

    • Visiting PhD student
      • Oct 2014 - Dec 2016

      Biophysical approach of neuronal shapes. Control of neuronal shapes in vitro by micro-patterning & observation of morphological changes or invariants at 2D (immunofluorescence) and 3D levels (measurements of dry mass and volume in microfluidic chips). Thesis supervised by Catherine Villard and carried out between the Néel Institute, the Curie Institute (Jean-Louis Viovy's team) and the Pierre Gilles de Gennes Institute. Biophysical approach of neuronal shapes. Control of neuronal shapes in vitro by micro-patterning & observation of morphological changes or invariants at 2D (immunofluorescence) and 3D levels (measurements of dry mass and volume in microfluidic chips). Thesis supervised by Catherine Villard and carried out between the Néel Institute, the Curie Institute (Jean-Louis Viovy's team) and the Pierre Gilles de Gennes Institute.

  • Institut Néel CNRS
    • France
    • Research Services
    • 100 - 200 Employee
    • PhD student
      • Oct 2013 - Dec 2016

      Biophysical approach of neuronal shapes. Control of neuronal shapes in vitro by micro-patterning & observation of morphological changes or invariants at 2D (immunofluorescence) and 3D levels (measurements of dry mass and volume in microfluidic chips). Thesis supervised by Catherine Villard and carried out between the Néel Institute, the Curie Institute (Jean-Louis Viovy's team) and the Pierre Gilles de Gennes Institute. Biophysical approach of neuronal shapes. Control of neuronal shapes in vitro by micro-patterning & observation of morphological changes or invariants at 2D (immunofluorescence) and 3D levels (measurements of dry mass and volume in microfluidic chips). Thesis supervised by Catherine Villard and carried out between the Néel Institute, the Curie Institute (Jean-Louis Viovy's team) and the Pierre Gilles de Gennes Institute.

    • Intern
      • Feb 2013 - Jul 2013

      Study of neuronal growth and axonal polarization using micropatterning and primary cultures of hippocampal neurons from mice embryos. Internship supervised by Catherine Villard. Study of neuronal growth and axonal polarization using micropatterning and primary cultures of hippocampal neurons from mice embryos. Internship supervised by Catherine Villard.

  • National Center for Nanoscience and Technology
    • Nanotechnology Research
    • 1 - 100 Employee
    • Intern
      • Apr 2012 - Jul 2012

      Study of the toxicity of multi-walled carbon nanotubes (MWCNTs) and of C60(OH)20 fullerenes in epithelial cells from RLE-6TN rat lungs as well as their link with the regulation of the epithelial-mesenchymal transition (EMT). Internship supervised by Zhao Yuliang & Chunying Chen. Study of the toxicity of multi-walled carbon nanotubes (MWCNTs) and of C60(OH)20 fullerenes in epithelial cells from RLE-6TN rat lungs as well as their link with the regulation of the epithelial-mesenchymal transition (EMT). Internship supervised by Zhao Yuliang & Chunying Chen.

  • Ville et Eurométropole de Strasbourg
    • France
    • Government Administration
    • 700 & Above Employee
    • Child care
      • 2008 - 2011

      Worked in childcare centers (3-6 and 6-12 years old) during summer holidays. Worked in childcare centers (3-6 and 6-12 years old) during summer holidays.

Education

  • Université Grenoble Alpes
    Ph.D., Physics for Life Sciences
    2013 - 2016
  • Université Joseph Fourier (Grenoble I)
    Master, Nanobiology and Nanobiotechnologies
    2011 - 2013
  • Université Louis Pasteur (Strasbourg I)
    Bachelor, Physics and engineering sciences
    2008 - 2011

Community

You need to have a working account to view this content. Click here to join now