Design of well and groove microchannel bioreactors for cell culture

Korin, Netanel; Bransky, Avishay; Khoury, Maria; Dinnar, Uri; Levenberg, Shulamit

doi:10.1002/bit.22153

Cited by 37 publications

(34 citation statements)

References 25 publications

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“…Many reactions have been tested in microchannel reactors such as water gas shift [22], steam reforming [25], partial oxidation [26][27][28], Fischer Tropsch synthesis [29,30], synthesis of methanol [31], methane oxidative coupling [32], photocatalysis [33], catalytic combustion [34] and as a bioreactor [35]. These are just a few examples and the applications are spreading quickly.…”

Section: Microchannel Reactorsmentioning

confidence: 99%

Compact heat exchange reactor for synthesis of mixed alcohols

Sethi

2016

Catalysis Today

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a b s t r a c tStainless steel compact heat exchanger reactor with 66 mL catalyst loading was built and tested for synthesis of mixed alcohols. Compared to the fixed bed reactor, the compact heat exchanger reactor have much better heat and mass transfer due to the small particle sizes and miniaturized channels. Development of NiMo 2 C catalyst for synthesis of mixed alcohols is also reported. The compact reactor demonstrated two to four times process intensification.

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Section: Microchannel Reactorsmentioning

confidence: 99%

Compact heat exchange reactor for synthesis of mixed alcohols

Sethi

2016

Catalysis Today

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“…Tilles et al demonstrated that with internal membrane oxygenation in the bioreactor, flow conditions that resulted in low wall shear stresses generated higher albumin and urea synthetic rates compared with flow conditions that resulted in high wall shear stresses. Detailed parametric study of well and groove microchannel bioreactors was presented by Korin et al 28 Operation conditions and design parameters were theoretically examined via a numerical model. The complex flow pattern obtained at grooves of various depths was studied, and the shear protection factor compared with planar microchannels was evaluated.…”

Section: Dynamic (Perfusion) Cell Culturementioning

confidence: 99%

Microfluidic Platforms for Hepatocyte Cell Culture: New Technologies and Applications

Goral

Yuen

2011

Ann Biomed Eng

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In this article, we summarize the key elements of microfluidic platforms for mimicking in vivo hepatocyte cell culture and the major recent advances in this area. Specifically, we will give brief background and rationale for key design requirements for mimicking in vivo hepatocyte cell culture, and then summarize findings, applications, and limitations from microfluidic platforms that addressed these design requirements. Although no ideal microfluidic platform has so far been developed for fully mimicking in vivo hepatocyte cell culture, some approaches and designs have demonstrated great potential in this area.

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“…The oxygen consumption rate (OCR) for the EB bulk was set according to Michaelis-Mentin kinetics with respect to oxygen concentration (Cochran et al 2006;Korin et al 2009):…”

Section: Numerical Simulationsmentioning

confidence: 99%

A microfluidic traps system supporting prolonged culture of human embryonic stem cells aggregates

Khoury¹,

Bransky²,

Korin³

et al. 2010

Biomed Microdevices

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The unlimited proliferative and differentiative capacities of embryonic stem cells (ESCs) are tightly regulated by their microenvironment. Local concentrations of soluble factors, cell-cell interactions and extracellular matrix signaling are just a few variables that influence ESC fate. A common method employed to induce ESC differentiation involves the formation of cell aggregates called embryoid bodies (EBs), which recapitulate early stages of embryonic development. EBs are normally formed in suspension cultures, producing heterogeneously shaped and sized aggregates. The present study demonstrates the usage of a microfluidic traps system which supports prolonged EB culturing. The traps are uniquely designed to facilitate cell capture and aggregation while offering efficient gas/nutrients exchange. A finite element simulation is presented with emphasis on several aspects critical to appropriate design of such bioreactors for ESC culture. Finally, human ESC, mouse Nestin-GFP ESC and OCT4-EGFP ESCs were cultured using this technique and demonstrated extended viability for more than 5 days. In addition, EBs developed and maintained a polarized differentiation pattern, possibly as a result of the nutrient gradients imposed by the traps bioreactor. The novel microbioreactor presented here can enhance future embryogenesis research by offering tight control of culturing conditions.

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Design of well and groove microchannel bioreactors for cell culture

Cited by 37 publications

References 25 publications

Compact heat exchange reactor for synthesis of mixed alcohols

Compact heat exchange reactor for synthesis of mixed alcohols

Microfluidic Platforms for Hepatocyte Cell Culture: New Technologies and Applications

A microfluidic traps system supporting prolonged culture of human embryonic stem cells aggregates

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