Advanced in vitro exposure systems.

15. Jun. 2021

VITROCELL® Cloud Alpha - A Family of Exposure Systems Suitable for Nebulized Solutions and Suspensions

Poster LIVe 2021 Kongress, 15th June 2021

Patrick Weindl, Heidi Ortolf-Wahl, Tobias Krebs

VITROCELL Systems GmbH, 79183 Waldkirch, Germany

 

Optimal Solution for Everyday Experiments  at the Air/Liquid Interface
The VITROCELL® Cloud Alpha series is our newest innovation and presents a great leap forward in automated exposure of cell cultures. It combines reliable exposure of cell cultures from the respiratory tract with ease of use. The series comprises the Cloud Alpha 6, - 12, - 96 and Cloud Alpha MAX – they represent an optimal solution for everyday experiments at the Air/Liquid Interface using 6-well, 12-well, 24-well or 96-sized inserts. We have run extensive tests to ensure the Cloud Alpha series devices match our standards in terms of the established characteristics for Cloud principle exposure devices: Deposition Efficiency, Spatial Deposition and Repeatability.
 

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2. Jun. 2021

Development of a standardized in vitro approach to evaluate microphysical, chemical, and toxicological properties of combustion-derived fine and ultrafine particles

https://doi.org/10.1016/j.jes.2021.06.001

Ana Teresa Juarez-Facio 1, Clément Castilla 2, Cécile Corbière 1, Hélène Lavanant 2, Carlos Afonso 2, Christophe Morin 2, Nadine Merlet-Machour 2, Laurence Chevalier 3, Jean-Marie Vaugeois 1, Jérôme Yon 4, Christelle Monteil 1,
1Normandie Univ, UNIROUEN, UNICAEN ABTE, 76000 Rouen, France
2Normandie Univ, UNIROUEN, INSA Rouen, CNRS, COBRA, 76000 Rouen, France
3Normandie Univ, UNIROUEN, INSA Rouen, CNRS, GPM-UMR6634, 76000 Rouen, France
4Normandie Univ, UNIROUEN, INSA Rouen, CNRS, CORIA, 76000 Rouen, France

 

The present study illustrate a methodological approach which allows comparing, in an original and innovative way, the physical, chemical, and toxicological properties of different fine and ultrafine particles. In this study, two different operating conditions were used to obtain model particles containing either high (CAST3) or low (CAST1) organic contents, and exposed differentiated NHBE cells “on-line” at the air-liquid interface to be closer to realistic conditions.

 

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20. Apr. 2021

An In Vitro Air-Liquid Interface Inhalation Platform for Petroleum Substances and Constituents

DOI: 10.14573/altex.2010211 


Sandra Verstraelen1, An Jacobs1, Jo Van Laer1, Karen Hollanders1, Masha Van Deun2, Diane Bertels2, Rob Brabers1, Hilda Witters1, Sylvie Remy1,3, Lieve Geerts1, Lize Deferme4 and Evelien Frijns1
1VITO NV (Flemish Institute for Technological Research), Unit HEALTH, Mol, Belgium; 
2VITO NV, Unit Separation and Conversion Technology (SCT), Mol, Belgium; 
3University of Antwerp, Department of Biomedical Sciences, Antwerp, Belgium; 
4ExxonMobil Petroleum and Chemical BV, Machelen, Belgium
 

This pilot study exposed a frequently used in vitro model (A549 cells) at the ALI to assess inhalation toxicity of the single compound EB. Experimental conditions using the VITROCELL® 24/48 exposure system were optimized to achieve a (low) delivery efficiency that resulted in dose-dependent biological changes. The data demonstrate consistency in effect levels when comparing cell viability in the ALI experiments with known in vivo non-lethal effects in humans. It can be concluded that QIVIVE from in vitro air concentrations applied for testing cell viability to in vivo air concentrations may be a promising method for screening for acute inhalation toxicity. 

 

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19. Apr. 2021

Product News 04/2021

The new VITROCELL® Millicell Holder

How to use Millicell 24-well Standing Inserts in the VITROCELL® 12 Module Series

The revolutionary new holder system enables for the use of standing inserts in all modules of the VITROCELL® 12 Series for 12-well sized inserts. As an additional advantage, the media com­partment is sealed towards the aerosol exposure head to avoid contact of the test substance with the cell culture media.

VITROCELL® Millicell Holder – How to use Millicell 24-well Standing inserts in the VITROCELL® 12 Module Series

 

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23. Feb. 2021

Product News 02/2021

The New VITROCELL® RH/T-Controller

Reliable digital Humidity- and Temperature Measurement

The VITROCELL® RH/T-Controller system was designed to measure temperature and relative humidity in numerous applications at high precision. It can be fitted to humidification systems, aerosol ducts and climatic chambers.

VITROCELL® RH/T-Controller – Reliable digital Humidity- and Temperature Measurement

 

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15. Feb. 2021

Impact of Sea Breeze Dynamics on Atmospheric Pollutants and Their Toxicity in Industrial and Urban Coastal Environments

doi:10.3390/rs12040648

Patrick Augustin 1, Sylvain Billet 2 , Suzanne Crumeyrolle 3, Karine Deboudt 1, Elsa Dieudonné 1 , Pascal Flament 1 , Marc Fourmentin 1 , Sarah Guilbaud 1, Benjamin Hanoune 4 , Yann Landkocz 2, Clémence Méausoone 2, Sayahnya Roy 5, François G. Schmitt 5, Alexei Sentchev 5 and Anton Sokolov 1
1 Univ. Littoral Côte d’Opale, UR 4493—LPCA—Laboratoire de Physico-Chimie de l’Atmosphère, 59140 Dunkerque, France;
2 Univ. Littoral Côte d’Opale, SFR Condorcet FR CNRS 3417, UR 4492—UCEiV—Unité de Chimie Environnementale et Interactions sur le Vivant, 59140 Dunkerque, France; 
3 Univ. Lille, CNRS, UMR 8518—LOA—Laboratoire d’Optique Atmosphérique, 59000 Lille, France;
4 Univ. Lille, CNRS, UMR 8522—PC2A—Physico-Chimie des Processus de Combustion et de l’Atmosphère, 59000 Lille, France; 
5 Univ. Lille, Univ. Littoral Côte d’Opale, CNRS, UMR 8187—LOG—Laboratoire d’Océanologie et de Géosciences, F 62930 Wimereux, France; 

 

An atmospheric mobile unit was implemented during a field campaign performed at a representative site of urbanized and industrialized coastal environment of the North Sea (Northern France), to study the impact of sea breeze dynamics on aerosol properties, and especially their toxicity. This unit combined aerosol samplers, two scanning lidars (Doppler and elastic), two aerosol particle sizers and an air-liquid interface (ALI, Vitrocell) in vitro cell exposure device. This study is one of the first to bring cell cultures into the field to evaluate the harmfulness of a real environmental compartment. Atmospheric toxicity in the presence or absence of sea breeze was demonstrated in human bronchial cells exposed in the field using an ALI exposure system. The study showed the sensitivity of the developed device to discriminate the mechanisms of toxic action activated when exposed to different atmospheres.

 

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29. Jan. 2021

A Bioinspired in vitro Lung Model to Study Particokinetics of Nano-/Microparticles Under Cyclic Stretch and Air-Liquid Interface Conditions

DOI: 10.3389/fbioe.2021.616830 


Ali Doryab 1,2, Mehmet Berat Taskin 3, Philipp Stahlhut 3, Andreas Schröppel 1,2, Sezer Orak 1,2, Carola Voss 1,2, Arti Ahluwalia 4,5, Markus Rehberg 1,2, Anne Hilgendorff 1,2,6, Tobias Stöger 1,2, Jürgen Groll 3 and Otmar Schmid 1,2

1 Comprehensive Pneumology Center Munich, Member of the German Center for Lung Research, Munich, Germany,
2 Helmholtz Zentrum München—German Research Center for Environmental Health, Institute of Lung Biology and Disease, Munich, Germany, 
3 Department of Functional Materials in Medicine and Dentistry, Bavarian Polymer Institute, University of Würzburg, Würzburg, Germany, 
4 Research Center “E. Piaggio”, University of Pisa, Pisa, Italy, 
5 Department of Information Engineering, University of Pisa, Pisa, Italy, 
6 Center for Comprehensive Developmental Care (CDeCLMU), Dr. von Haunersches Children’s Hospital University, Hospital of the Ludwig-Maximilians University, Munich, Germany
 

We have recently introduced a novel porous and elastic membrane for in vitro cell-stretch models of the lung cultured under ALI conditions (Doryab et al., 2020). This innovative hybrid biphasic membrane, henceforth referred to as Biphasic Elastic Thin for Air-liquid culture conditions (BETA) membrane, was developed to optimize membrane characteristics for  the two phases of cell-stretch experiments under ALI conditions, namely the initial cell seeding, attachment and growth phase under submerged cell culture conditions  (phase  I)  followed  by an ALI acclimatization and cell-stretch phase at the ALI (phase II). This patented aerosol-cell exposure unit has recently been made  commercially  available  as  VITROCELL® Cloud  MAX.

 

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22. Jan. 2021

Product News 01/2021

The New VITROCELL® Cloud Alpha MAX

Smallest nebulization volumes and high deposition efficiency

The VITROCELL® Cloud Alpha MAX is designed for small nebulization volumes and very high deposition efficiency. This is important when only small quantities of material are available or when expensive test substances need to be tested.

VITROCELL® Cloud Alpha MAX – Ideal for small quantities of test substance

 

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15. Jan. 2021

New Video: VITROCELL Cloud Alpha – Product Family Overview

For virus research, testing of inhaled drugs, chemicals and nanoparticles at the Air/Liquid Interface (ALI). The systems are suitable for nebulized solutions and suspensions.

The VITROCELL® Cloud Alpha series is our newest innovation and presents a great leap forward in automated exposure of cell cultures. It combines reliable exposure of cell cultures from the respiratory tract with ease of use. The series comprises the Cloud Alpha 6, Cloud Alpha 12, Cloud Alpha 96 and Cloud Alpha MAX – they represent an optimal solution for everyday experiments at the Air/Liquid Interface using 6-well, 12-well, 24-well or 96-sized inserts.

This video showcases available product configurations.

 

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14. Jan. 2021

Toxic effects of gunshot fumes from different ammunitions for small arms on lung cells exposed at the air liquid interface

https://doi.org/10.1016/j.tiv.2021.105095


Espen Mariussen a,b, Lise Fjellsbø a,c, Tomas Roll Frømyr b, Ida Vaa Johnsen b, Tove Engen Karsrud b, Øyvind Albert Voie b
a Norwegian Institute for Air Research (NILU), PO Box 100, NO-2027 Kjeller, Norway
b Norwegian Defence Research Establishment (FFI), PO Box 25, NO-2027 Kjeller, Norway
c Norwegian University of Life Sciences (NMBU), PO Box 5003, NO-1432 Ås, Norway

 

Highlights
•Gunshot fumes are cytotoxic and induce DNA-damage in lung cells exposed at the air liquid interface.
•Shooting from small arms generate fumes with substantial amounts of nanosized materials.
•Toxicity of the gunshot fumes differed between different types of ammunition.

 

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