K.B. Goh scite author profile

Diseases of the knee joint such as osteoarthritis (OA) affect all joint elements. An in vitro human cell-derived microphysiological system capable of simulating intraarticular tissue crosstalk is desirable for studying etiologies/pathogenesis of joint diseases and testing potential therapeutics. Herein, a human mesenchymal stem cell-derived miniature joint system (miniJoint) is generated, in which engineered osteochondral complex, synovial-like fibrous tissue, and adipose tissue are integrated into a microfluidics-enabled bioreactor. This novel design facilitates different tissues communicating while still maintaining their respective phenotypes. The miniJoint exhibits physiologically relevant changes when exposed to interleukin-1𝜷 mediated inflammation, which are similar to observations in joint diseases in humans. The potential of the miniJoint in predicting in vivo efficacy of drug treatment is confirmed by testing the "therapeutic effect" of the nonsteroidal anti-inflammatory drug, naproxen, as well as four other potential disease-modifying OA drugs. The data demonstrate that the miniJoint recapitulates complex tissue interactions, thus providing a robust organ chip model for the study of joint pathology and the development of novel therapeutic interventions.

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Development of a multiphysics model to characterize the responsive behavior of urea-sensitive hydrogel as biosensor

Goh

Lam

2017

Biosensors and Bioelectronics

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Modeling the urea-actuated osmotic pressure response of urease-loaded hydrogel for osmotic urea biosensor

Goh

Lam

2018

Sensors and Actuators B: Chemical

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Modeling the dual oxygen- and pH-stimulated response of hemoglobin-loaded polyampholyte hydrogel for oxygen-pH coupled biosensor platform

Goh

Lam

2019

Sensors and Actuators B: Chemical

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K.B. Goh

Human Mesenchymal Stem Cell‐Derived Miniature Joint System for Disease Modeling and Drug Testing

Development of a multiphysics model to characterize the responsive behavior of urea-sensitive hydrogel as biosensor

Modeling the urea-actuated osmotic pressure response of urease-loaded hydrogel for osmotic urea biosensor

Modeling the dual oxygen- and pH-stimulated response of hemoglobin-loaded polyampholyte hydrogel for oxygen-pH coupled biosensor platform

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