On-chip analysis of glycolysis and mitochondrial respiration in human induced pluripotent stem cells

Fuchs, Stefanie; Helden, Ruben W.J. van; Wiendels, Maury; Graaf, Mees N. S. de; Orlova, Valeria V.; Mummery, Christine L.; Meer, Berend J. van; Mayr, Torsten

doi:10.1016/j.mtbio.2022.100475

Cited by 5 publications

(6 citation statements)

References 33 publications

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“…Recent research efforts are aiming to either modifying complex models to suit the Seahorse XF analyzer (eg, re-plating of organoids 55 ) or transferring the principle of measuring OCR and ECAR to customized OoC platforms. 56 …”

Section: Neurometabolic Pathways: Mitochondria and Beyondmentioning

confidence: 99%

Human In Vitro Models of Neuroenergetics and Neurometabolic Disturbances: Current Advances and Clinical Perspectives

Rogal,

Zamproni,

Nikolakopoulou

et al. 2024

Stem Cells Translational Medicine

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Neurological conditions conquer the world; they are the leading cause of disability and the second leading cause of death worldwide, and they appear all around the world in every age group, gender, nationality, and socioeconomic class. Despite the growing evidence of an immense impact of perturbations in neuroenergetics on overall brain function, only little is known about the underlying mechanisms. Especially human insights are sparse, owing to a shortage of physiologically relevant model systems. With this perspective, we aim to explore the key steps and considerations involved in developing an advanced human in vitro model for studying neuroenergetics. We discuss biological and technological strategies to meet the requirements of a predictive model, aiming at providing a guide and inspiration for future in vitro models of neuroenergetics.

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Section: Neurometabolic Pathways: Mitochondria and Beyondmentioning

confidence: 99%

Human In Vitro Models of Neuroenergetics and Neurometabolic Disturbances: Current Advances and Clinical Perspectives

Rogal,

Zamproni,

Nikolakopoulou

et al. 2024

Stem Cells Translational Medicine

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“…[35][36][37] Recent studies demonstrated that oxygen sensors integrated in microfluidic systems can be a promising read-out tool to assess cell functionality. 8,[38][39][40][41] Here, we introduce a novel pancreas-on-chip platform based on a tailored thermoplastic-based microfluidic system that addresses the key requirements on an in vitro model of the endocrine pancreas. The developed platform leverages a new and robust strategy based on hydrodynamic trapping for self-guided loading of spheroids, e.g.…”

Section: Introductionmentioning

confidence: 99%

“…35–37 Recent studies demonstrated that oxygen sensors integrated in microfluidic systems can be a promising read-out tool to assess cell functionality. 8,38–41…”

Section: Introductionmentioning

confidence: 99%

Microphysiological pancreas-on-chip platform with integrated sensors to model endocrine function and metabolism

Schlünder,

Cipriano,

Zbinden

et al. 2024

Lab Chip

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“…Several clinical trials have incorporated differentiated cells from hPSCs (human pluripotent stem cells), hiPSCs (human induced pluripotent stem cells) or hESCs (human embryonic stem cells) because any types of tissue cells in the human body can be derived from hPSCs with appropriate differentiation protocols [ [1] , [2] , [3] , [4] , [5] , [6] , [7] ]. For the maintenance and expansion of clinical-grade hPSCs, the cells should be cultured under xeno-free conditions.…”

Section: Introductionmentioning

confidence: 99%

Design of dual peptide-conjugated hydrogels for proliferation and differentiation of human pluripotent stem cells

Sung,

Chen,

Wang

et al. 2024

Materials Today Bio

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On-chip analysis of glycolysis and mitochondrial respiration in human induced pluripotent stem cells

Cited by 5 publications

References 33 publications

Human In Vitro Models of Neuroenergetics and Neurometabolic Disturbances: Current Advances and Clinical Perspectives

Human In Vitro Models of Neuroenergetics and Neurometabolic Disturbances: Current Advances and Clinical Perspectives

Microphysiological pancreas-on-chip platform with integrated sensors to model endocrine function and metabolism

Design of dual peptide-conjugated hydrogels for proliferation and differentiation of human pluripotent stem cells

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