Automation, Monitoring, and Standardization of Cell Product Manufacturing

Doulgkeroglou, Meletios-Nikolaos; Nubila, Alessia Di; Nießing, Bastian; König, Niels; Schmitt, Robert; Damen, Jacqueline E.; Szilvassy, Stephen J.; Chang, Wing Y.; Csontos, Lynn; Louis, Sharon A.; Kugelmeier, Patrick; Ronfard, Vincent; Bayon, Yves; Zeugolis, Dimitrios I.

doi:10.3389/fbioe.2020.00811

Cited by 60 publications

(34 citation statements)

References 110 publications

(113 reference statements)

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“…Such therapies will ultimately require the expansion of stem cells on a scale that is uneconomical for manual based laboratories, with large numbers also needed for research and clinical trials phases. The need for reliable methods of high-volume, quality-assured cells has led to the development of automated systems such as the StemCellFactory (Doulgkeroglou et al, 2020), StemCellDiscovery (Jung et al, 2018) and AUTOSTEM (Ochs et al, 2017). The objective of these systems is to automate the normally manual stages of stem cell seeding, growth, colony selection, passaging, quality assessment, harvesting and potentially in later applications differentiation.…”

Section: Examples Of Automation Benefitsmentioning

confidence: 99%

Automation in the Life Science Research Laboratory

Holland

Davies

2020

Front. Bioeng. Biotechnol.

116

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Section: Examples Of Automation Benefitsmentioning

confidence: 99%

Automation in the Life Science Research Laboratory

Holland

Davies

2020

Front. Bioeng. Biotechnol.

116

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“…In addition, making a glassy amorphous phase for enzyme vitrification by drying procedure seems to be highly dependent upon the efficacy or speed of dehydration as observed in our experience and other reports [39,40], thus higher volume of the reagents may simply delayed the speed of dehydration and may form crystalline trehalose which deteriorate the enzyme activity. The accuracies of inkjet printer and automatic pipette are considered to be more accurate because the procedures are independent of user experience [41,42]. Indeed, three independent batches of CZC-LAMPs were tested for their sensitivities, resulting in similar performances in terms of reaction speed and sensitivity (S1 Fig).…”

Section: Discussionmentioning

confidence: 99%

Development of a bio-inkjet printed LAMP test kit for detecting human African trypanosomiasis

et al. 2020

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Human African trypanosomiasis (HAT) is one of the neglected tropical diseases in sub-Saharan Africa. Early diagnosis and treatment prior to disease progression are crucial for the survival of HAT patients. We had previously established a loop-mediated isothermal amplification (LAMP) method for HAT diagnosis in which the reagents were dried for fielduse purposes. In this study, we used a semi-automated process to produce the test tubes using a bio-inkjet printer to achieve an accurate production. The performance of the inkjet printer-produced dried LAMP test (CZC-LAMP) was found to be stable after storage for up to 180 days at 30˚C. The diagnostic accuracy of CZC-LAMP HAT was evaluated using DNA samples that were extracted from 116 Trypanosoma brucei gambiense patients and 66 T. b. rhodesiense patients. The sensitivity was 72% for T. b. gambiense (95%CI: 63%-80%) and 80% for T. b. rhodesiense (95%CI: 69%-89%). The specificity determined using DNA from 116 endemic control DNA samples was 95% (95%CI: 89%-98%). The performance of the CZC-LAMP HAT and CZC-LAMP rHAT were also evaluated using 14 crude blood lysate samples obtained from T. b. rhodesiense patients and endemic control samples collected from Rumphi District in Malawi. The sensitivity and specificity were both 100% (95%CI: 77%-100%). As the developed CZC-LAMP test does not require a cold chain or a sophisticated laboratory, it holds promise for use as a routine simple molecular tool for point-of-care HAT diagnosis in endemic areas.

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“…In order to overcome these limitations, automated platforms could significantly reduce the cost of goods up to 30% (ref. 180 ), ensuring reliability and reproducibility across the life cycle of the product, from cell isolation and expansion to in‐line product quality assurance 181 , 182 . To further standardise the manufacturing process, the development of xeno-free, chemically defined media has been advocated to reduce the risk of pathogen sources and simplify the regulatory approval 183 , 184 .…”

Section: Roadmap To Commercialisationmentioning

confidence: 99%

Scaffold-free cell-based tissue engineering therapies: advances, shortfalls and forecast

2021

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Cell-based scaffold-free therapies seek to develop in vitro organotypic three-dimensional (3D) tissue-like surrogates, capitalising upon the inherent capacity of cells to create tissues with efficiency and sophistication that is still unparalleled by human-made devices. Although automation systems have been realised and (some) success stories have been witnessed over the years in clinical and commercial arenas, in vitro organogenesis is far from becoming a standard way of care. This limited technology transfer is largely attributed to scalability-associated costs, considering that the development of a borderline 3D implantable device requires very high number of functional cells and prolonged ex vivo culture periods. Herein, we critically discuss advancements and shortfalls of scaffold-free cell-based tissue engineering strategies, along with pioneering concepts that have the potential to transform regenerative and reparative medicine.

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Automation, Monitoring, and Standardization of Cell Product Manufacturing

Cited by 60 publications

References 110 publications

Automation in the Life Science Research Laboratory

Automation in the Life Science Research Laboratory

Development of a bio-inkjet printed LAMP test kit for detecting human African trypanosomiasis

Scaffold-free cell-based tissue engineering therapies: advances, shortfalls and forecast

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