Julian M. Jimenez scite author profile

Julian M. Jimenez

4Publications

20Citation Statements Received

77Citation Statements Given

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219

Affiliations

Purdue University West Lafayette, University of Colorado Boulder

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High‐Throughput Magnetic Actuation Platform for Evaluating the Effect of Mechanical Force on 3D Tumor Microenvironment

Enríquez

Libring

Field

et al. 2020

Adv Funct Materials

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Accurately replicating and analyzing cellular responses to mechanical cues is vital for exploring metastatic disease progression. However, many of the existing in vitro platforms for applying mechanical stimulation seed cells on synthetic substrates. To better recapitulate physiological conditions, a novel actuating platform is developed with the ability to apply tensile strain on cells at various amplitudes and frequencies in a high‐throughput multi‐well culture plate using a physiologically relevant substrate. Suspending fibrillar fibronectin across the body of the magnetic actuator provides a matrix representative of early metastasis for 3D cell culture that is not reliant on a synthetic substrate. This platform enables the culturing and analysis of various cell types in an environment that mimics the dynamic stretching of lung tissue during normal respiration. Metabolic activity, YAP activation, and morphology of breast cancer cells are analyzed within one week of cyclic stretching or static culture. Further, matrix degradation is significantly reduced in breast cancer cell lines with metastatic potential after actuation. These new findings demonstrate a clear suppressive cellular response due to cyclic stretching that has implications for a mechanical role in the dormancy and reactivation of disseminated breast cancer cells to macrometastases.

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Design and validation of a modular micro-robotic system for the mechanical characterization of soft tissues

et al. 2021

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Hydration State and Hyaluronidase Treatment Significantly Affect Porcine Vocal Fold Biomechanics

et al. 2023

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Multiscale mechanical characterization and computational modeling of fibrin gels

et al. 2023

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Julian M. Jimenez

High‐Throughput Magnetic Actuation Platform for Evaluating the Effect of Mechanical Force on 3D Tumor Microenvironment

Design and validation of a modular micro-robotic system for the mechanical characterization of soft tissues

Hydration State and Hyaluronidase Treatment Significantly Affect Porcine Vocal Fold Biomechanics

Multiscale mechanical characterization and computational modeling of fibrin gels

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