Automation, Monitoring, and Standardization of Cell Product Manufacturing

Meletios-Nikolaos Doulgkeroglou; Alessia Di Nubila; Bastian Niessing; Niels König; Robert H. Schmitt; Jackie Damen; Stephen J. Szilvassy; Wing Chang; Lynn Csontos; Sharon Louis; Patrick Kugelmeier; Vincent Ronfard; Yves Bayon; Dimitrios I. Zeugolis

doi:10.13025/20906

Automation, Monitoring, and Standardization of Cell Product Manufacturing

Meletios-Nikolaos Doulgkeroglou
, Alessia Di Nubila
, Bastian Niessing
, Niels König
, Robert H. Schmitt
, Jackie Damen
, Stephen J. Szilvassy
, Wing Chang
, Lynn Csontos
, Sharon Louis
, Patrick Kugelmeier
, Vincent Ronfard
, Yves Bayon
, Dimitrios I. Zeugolis

Mechanical Engineering

Research output: Other contribution (Published) › Other contribution

Abstract

Although regenerative medicine products are at the forefront of scientific research, technological innovation, and clinical translation, their reproducibility and large-scale production are compromised by automation, monitoring, and standardization issues. To overcome these limitations, new technologies at software (e.g., algorithms and artificial intelligence models, combined with imaging software and machine learning techniques) and hardware (e.g., automated liquid handling, automated cell expansion bioreactor systems, automated colony-forming unit counting and characterization units, and scalable cell culture plates) level are under intense investigation. Automation, monitoring and standardization should be considered at the early stages of the developmental cycle of cell products to deliver more robust and effective therapies and treatment plans to the bedside, reducing healthcare expenditure and improving services and patient care.

Original language	English (Ireland)
Media of output	Reviews
Publisher	FRONTIERS MEDIA SA
Volume	8
ISBN (Print)	2296-4185
ISBN (Electronic)	2296-4185
DOIs	https://doi.org/10.13025/20906 https://doi.org/10.3389/fbioe.2020.00811
Publication status	Published - 1 Jul 2020

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

Access to Document

10.13025/20906Licence: CC BY-NC-ND
10.3389/fbioe.2020.00811

12-06-2020 DZ Edit - Frontiers - Cell Therapies - Manuscript - Rev 2Accepted author manuscript, 3.38 MBLicence: CC BY-NC-ND

Cite this

Doulgkeroglou, M.-N., Di Nubila, A., Niessing, B., König, N., Schmitt, R. H., Damen, J., Szilvassy, S. J., Chang, W., Csontos, L., Louis, S., Kugelmeier, P., Ronfard, V., Bayon, Y., & Zeugolis, D. I. (2020, Jul 1). Automation, Monitoring, and Standardization of Cell Product Manufacturing. FRONTIERS MEDIA SA. https://doi.org/10.13025/20906, https://doi.org/10.3389/fbioe.2020.00811

@misc{6b66893b05be4850a90b4a34478c0bea,

title = "Automation, Monitoring, and Standardization of Cell Product Manufacturing",

abstract = "Although regenerative medicine products are at the forefront of scientific research, technological innovation, and clinical translation, their reproducibility and large-scale production are compromised by automation, monitoring, and standardization issues. To overcome these limitations, new technologies at software (e.g., algorithms and artificial intelligence models, combined with imaging software and machine learning techniques) and hardware (e.g., automated liquid handling, automated cell expansion bioreactor systems, automated colony-forming unit counting and characterization units, and scalable cell culture plates) level are under intense investigation. Automation, monitoring and standardization should be considered at the early stages of the developmental cycle of cell products to deliver more robust and effective therapies and treatment plans to the bedside, reducing healthcare expenditure and improving services and patient care.",

author = "Meletios-Nikolaos Doulgkeroglou and \{Di Nubila\}, Alessia and Bastian Niessing and Niels K{\"o}nig and Schmitt, \{Robert H.\} and Jackie Damen and Szilvassy, \{Stephen J.\} and Wing Chang and Lynn Csontos and Sharon Louis and Patrick Kugelmeier and Vincent Ronfard and Yves Bayon and Zeugolis, \{Dimitrios I.\}",

year = "2020",

month = jul,

day = "1",

doi = "10.13025/20906",

language = "English (Ireland)",

isbn = "2296-4185",

volume = "8",

publisher = "FRONTIERS MEDIA SA",

type = "Other",

}

TY - GEN

T1 - Automation, Monitoring, and Standardization of Cell Product Manufacturing

AU - Doulgkeroglou, Meletios-Nikolaos

AU - Di Nubila, Alessia

AU - Niessing, Bastian

AU - König, Niels

AU - Schmitt, Robert H.

AU - Damen, Jackie

AU - Szilvassy, Stephen J.

AU - Chang, Wing

AU - Csontos, Lynn

AU - Louis, Sharon

AU - Kugelmeier, Patrick

AU - Ronfard, Vincent

AU - Bayon, Yves

AU - Zeugolis, Dimitrios I.

PY - 2020/7/1

Y1 - 2020/7/1

N2 - Although regenerative medicine products are at the forefront of scientific research, technological innovation, and clinical translation, their reproducibility and large-scale production are compromised by automation, monitoring, and standardization issues. To overcome these limitations, new technologies at software (e.g., algorithms and artificial intelligence models, combined with imaging software and machine learning techniques) and hardware (e.g., automated liquid handling, automated cell expansion bioreactor systems, automated colony-forming unit counting and characterization units, and scalable cell culture plates) level are under intense investigation. Automation, monitoring and standardization should be considered at the early stages of the developmental cycle of cell products to deliver more robust and effective therapies and treatment plans to the bedside, reducing healthcare expenditure and improving services and patient care.

AB - Although regenerative medicine products are at the forefront of scientific research, technological innovation, and clinical translation, their reproducibility and large-scale production are compromised by automation, monitoring, and standardization issues. To overcome these limitations, new technologies at software (e.g., algorithms and artificial intelligence models, combined with imaging software and machine learning techniques) and hardware (e.g., automated liquid handling, automated cell expansion bioreactor systems, automated colony-forming unit counting and characterization units, and scalable cell culture plates) level are under intense investigation. Automation, monitoring and standardization should be considered at the early stages of the developmental cycle of cell products to deliver more robust and effective therapies and treatment plans to the bedside, reducing healthcare expenditure and improving services and patient care.

UR - http://hdl.handle.net/10379/16515

U2 - 10.13025/20906

DO - 10.13025/20906

M3 - Other contribution

SN - 2296-4185

VL - 8

PB - FRONTIERS MEDIA SA

ER -

Automation, Monitoring, and Standardization of Cell Product Manufacturing

Abstract

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this