2020
DOI: 10.1088/1758-5090/ab78ee
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The preparation of cell-containing microbubble scaffolds to mimic alveoli structure as a 3D drug-screening system for lung cancer

Abstract: Cancer is the leading cause of mortality worldwide, and lung cancer is the most malignant. However, the high failure rate in oncology drug development from in vitro studies to in vivo preclinical models indicates that the modern methods of evaluating drug efficacies in vitro are not reliable. Traditional 2D cell culture has proved inadequate to mimic real physiological conditions. Current 3D cell culture methods do not represent the delicate structure of lung alveoli. To mimic lung alveoli structure, a cell-co… Show more

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Cited by 15 publications
(9 citation statements)
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“…This highlights the significance of computational models in understanding cellular activity [122]. In addition, the cell responses to gemcitabine therapy were equivalent to those reported in clinical trials for lung carcinoma, showing that they may help design anticancer treatments by offering more accurate preclinical predictions [123]. PLGA is often used to create porous substrates for complex cell cultures.…”
Section: Application Procedures Of the Polymer Scaffolds And Polymer Nanoparticlesmentioning
confidence: 69%
“…This highlights the significance of computational models in understanding cellular activity [122]. In addition, the cell responses to gemcitabine therapy were equivalent to those reported in clinical trials for lung carcinoma, showing that they may help design anticancer treatments by offering more accurate preclinical predictions [123]. PLGA is often used to create porous substrates for complex cell cultures.…”
Section: Application Procedures Of the Polymer Scaffolds And Polymer Nanoparticlesmentioning
confidence: 69%
“…However, the predominant cell-ECM interactions in the native tissue microenvironment are missing in this model. Alternatively, hydrogel- or porous scaffold-based tumor models have been developed to culture A549 cells for tumor modeling and drug screening, which recapitulate the ECM microenvironment in vitro . , However, they are usually associated with low batch stability, poor reproducibility, and a high production cost because of the intrinsic instability of naturally derived biopolymers. Our EHD-printed scaffolds with fiber nanotopography is a promising platform to develop 3D tumor models for cancer research and drug screening applications.…”
Section: Results and Discussionmentioning
confidence: 99%
“…Scaffolds with geometrically specified micro-patterns have enormous potential for studying fundamental cell biology. Multi-level manipulations for specialized and nano/micro-structured 3D substrates are feasible at single-cell resolution when these scaffolds are shaped as per required geometry [93][94][95][96][97][98][99]. For instance, using micro-nano manufacture, micropillar-microwell matrix arrays could be used for modeling intestinal tissues with lumen and crypt structures [93].…”
Section: Micro-pattern Scaffold Modelsmentioning
confidence: 99%