SCIENTIFIC PUBLICATIONS

You are researching: Infection
Matching entries: 4 /4
All Groups
AUTHOR Aliyazdi, Samy and Frisch, Sarah and Hidalgo, Alberto and Frank, Nicolas and Krug, Daniel and Müller, Rolf and Schaefer, Ulrich F. and Vogt, Thomas and Loretz, Brigitta and Lehr, Claus-Michael
Title 3D bioprinting of E. coli MG1655 biofilms on human lung epithelial cells for building complex in vitro infection models [Abstract]
Year 2023
Journal/Proceedings Biofabrication
Reftype
DOI/URL DOI
Abstract
Biofilm-associated infections are causing over half a million deaths each year, raising the requirement for innovative therapeutic approaches. For developing novel therapeutics against bacterial biofilm infections, complex in vitro models that allow to study drug effects on both pathogens and host cells as well as their interaction under controlled, physiologically relevant conditions appear as highly desirable. Nonetheless, building such models is quite challenging because (1) rapid bacterial growth and release of virulence factors may lead to premature host cell death and (2) maintaining the biofilm status under suitable co-culture requires a highly controlled environment. To approach that problem, we chose 3D bioprinting. However, printing living bacterial biofilms in defined shapes on human cell models, requires bioinks with very specific properties. Hence, this work aims to develop a 3D bioprinting biofilm method to build robust in vitro infection models. Based on rheology, printability and bacterial growth, a bioink containing 3% gelatin and 1% alginate in Luria-Bertani-medium was found optimal for Escherichia coli MG1655 biofilms. Biofilm properties were maintained after printing, as shown visually via microscopy techniques as well as in antibiotic susceptibility assays. Metabolic profile analysis of bioprinted biofilms showed high similarity to native biofilms. After printing on human bronchial epithelial cells (Calu-3), the shape of printed biofilms was maintained even after dissolution of non-crosslinked bioink, while no cytotoxicity was observed over 24 h. Therefore, the approach presented here may provide a platform for building complex in vitro infection models comprising bacterial biofilms and human host cells.
AUTHOR Wesdorp, Marinus A. and Schwab, Andrea and Bektas, Ezgi Irem and Narcisi, Roberto and Eglin, David and Stoddart, Martin J. and Van Osch, Gerjo J. V. M. and D'Este, Matteo
Title A culture model to analyze the acute biomaterial-dependent reaction of human primary neutrophils in vitro [Abstract]
Year 2023
Journal/Proceedings Bioactive Materials
Reftype
DOI/URL URL DOI
Abstract
Neutrophils play a pivotal role in orchestrating the immune system response to biomaterials, the onset and resolution of chronic inflammation, and macrophage polarization. However, the neutrophil response to biomaterials and the consequent impact on tissue engineering approaches is still scarcely understood. Here, we report an in vitro culture model that comprehensively describes the most important neutrophil functions in the light of tissue repair. We isolated human primary neutrophils from peripheral blood and exposed them to a panel of hard, soft, naturally- and synthetically-derived materials. The overall trend showed increased neutrophil survival on naturally derived constructs, together with higher oxidative burst, decreased myeloperoxidase and neutrophil elastase and decreased cytokine secretion compared to neutrophils on synthetic materials. The culture model is a step to better understand the immune modulation elicited by biomaterials. Further studies are needed to correlate the neutrophil response to tissue healing and to elucidate the mechanism triggering the cell response and their consequences in determining inflammation onset and resolution.
AUTHOR Sarti, Mattia and Parlani, Maria and Diaz-Gomez, Luis and Mikos, Antonios G. and Cerveri, Pietro and Casarin, Stefano and Dondossola, Eleonora
Title Deep Learning for Automated Analysis of Cellular and Extracellular Components of the Foreign Body Response in Multiphoton Microscopy Images [Abstract]
Year 2022
Journal/Proceedings Frontiers in Bioengineering and Biotechnology
Reftype
DOI/URL DOI
Abstract
The Foreign body response (FBR) is a major unresolved challenge that compromises medical implant integration and function by inflammation and fibrotic encapsulation. Mice implanted with polymeric scaffolds coupled to intravital non-linear multiphoton microscopy acquisition enable multiparametric, longitudinal investigation of the FBR evolution and interference strategies. However, follow-up analyses based on visual localization and manual segmentation are extremely time-consuming, subject to human error, and do not allow for automated parameter extraction. We developed an integrated computational pipeline based on an innovative and versatile variant of the U-Net neural network to segment and quantify cellular and extracellular structures of interest, which is maintained across different objectives without impairing accuracy. This software for automatically detecting the elements of the FBR shows promise to unravel the complexity of this pathophysiological process.
AUTHOR Parlani, Maria and Bedell, Matthew L. and Mikos, Antonios G. and Friedl, Peter and Dondossola, Eleonora
Title Dissecting the recruitment and self-organization of αSMA-positive fibroblasts in the foreign body response [Abstract]
Year 2022
Journal/Proceedings Science Advances
Reftype
DOI/URL DOI
Abstract
The foreign body response (FBR) is a clinically relevant issue that can cause malfunction of implanted medical devices by fibrotic encapsulation. Whereas inflammatory aspects of the FBR have been established, underlying fibroblast-dependent mechanisms remain unclear. We here combine multiphoton microscopy with ad hoc reporter mice expressing α–smooth muscle actin (αSMA) protein to determine the locoregional fibroblast dynamics, activation, and fibrotic encapsulation of polymeric materials. Fibroblasts invaded as individual cells and established a multicellular network, which transited to a two-compartment fibrotic response displaying an αSMA cold external capsule and a long-lasting, inner αSMA hot environment. The recruitment of fibroblasts and extent of fibrosis were only incompletely inhibited after depletion of macrophages, implicating coexistence of macrophage-dependent and macrophage-independent mediators. Furthermore, neither altering material type or porosity modulated αSMA+ cell recruitment and distribution. This identifies fibroblast activation and network formation toward a two-compartment FBR as a conserved, self-organizing process partially independent of macrophages. Fibroblast recruitment in the foreign body response is a conserved, self-organizing process partially independent of macrophages.