novasign · 141 papers with claims · 118 for outreach · 14 old · 9 reviews
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Towards in situ continuous feeding via controlled release of complete nutrients for fed-batch culture of animal cells
A Multi Clone Kinetic Model for characterizing Chinese hamster ovary cell line variability
Optimal design of dynamic experiments for scalar-on-function linear models with application to a biopharmaceutical study
Comparing Kinetic versus Stoichiometric Priorities in Hybrid Models of CHO Metabolism
Development of Raman Calibration Model Without Culture Data for In-Line Analysis of Metabolites in Cell Culture Media
FACTORS AFFECTING CHINESE HAMSTER OVARY CELL PROLIFERATION AND VIABILITY
Using MVDA with Stoichiometric Balances to Optimize Amino Acid Concentrations in Chemically Defined CHO Cell Culture Med
Estimating Extrinsic Dyes for Fluorometric Online Monitoring of Antibody Aggregation in CHO Fed-Batch Cultivations
Deciphering Metabolic Pathways in High Seeding Density Fed-Batch Processes for Monoclonal Antibody Production: A Computa
Continuous Feeding Reduces the Generation of Metabolic Byproducts and Increases Antibodies Expression in Chinese Hamster
A Metabolomics Approach to Increasing Chinese Hamster Ovary (CHO) Cell Productivity
Scaling Fed-Batch and Perfusion Antibody Production Processes in Geometrically Dissimilar Stirred Bioreactors
3D Printed, Single-Use Bioreactor with Integrated Inline Sensors for Microbial and Mammalian Cell Cultivation—A Case Stu
Towards Autonomous Process Control—Digital Twin for CHO Cell-Based Antibody Manufacturing Using a Dynamic Metabolic Mode
Accelerating Biologics Manufacturing by Upstream Process Modelling
Accelerating Biomanufacturing by Modeling of Continuous Bioprocessing—Piloting Case Study of Monoclonal Antibody Manufac
Automated Data Generation for Raman Spectroscopy Calibrations in Multi-Parallel Mini Bioreactors
Dielectric Spectroscopy and Optical Density Measurement for the Online Monitoring and Control of Recombinant Protein Pro
Intensified Influenza Virus Production in Suspension HEK293SF Cell Cultures Operated in Fed-Batch or Perfusion with Cont
NOISE AWARE BAYESIAN PARAMETER ESTIMATION IN BIOPROCESSES
Equal mixing time enables scale-down and optimization of a CHO cell culture process using a shaken microbioreactor syste
Debottlenecking and reformulating feed media for improved CHO cell growth and titer by data‐driven and model‐guided anal
On‐Line Control of Glucose Concentration in High‐Yielding Mammalian Cell Cultures Enabled Through Oxygen Transfer Rate M
Continuous optical in‐line glucose monitoring and control in CHO cultures contributes to enhanced metabolic efficiency w
Noise aware parameter estimation in bioprocesses: Using neural network surrogate models with nonuniform data sampling
Process intensification to produce a difficult‐to‐express therapeutic enzyme by high cell density perfusion or enhanced
Segmented linear modeling of CHO fed‐batch culture and its application to large scale production
Raman‐controlled pyruvate feeding to control metabolic activity and product quality in continuous biomanufacturing
“Organized stress” for robust scale‐up of intensified production process with fed‐batch seed bioreactor
Application of metabolic modeling for targeted optimization of high seeding density processes
Real‐time amino acid and glucose monitoring system for the automatic control of nutrient feeding in CHO cell culture usi
Biomass specific perfusion rate as a control lever for the continuous manufacturing of biosimilar monoclonal antibodies
Comparison of mechanistic and hybrid modeling approaches for characterization of a CHO cultivation process: Requirements
Novel Data‐Driven Mechanistic Modeling of Untargeted Metabolome Data Reveals Feed Component Effects in CHO Cell Bioproce
Process‐induced cell cycle oscillations in CHO cultures: Online monitoring and model‐based investigation
Media on‐demand: Continuous reconstitution of a chemically defined media directly from solids
Optimization of medium with perfusion microbioreactors for high density CHO cell cultures at very low renewal rate aided
A compendium of stable hotspots in the CHO genome
Cell culture product quality attribute prediction using convolutional neural networks and Raman spectroscopy
Soft‐sensors application for automated feeding control in high‐throughput mammalian cell cultures
Temporal Galactose‐Manganese Feeding in Fed‐Batch and Perfusion Bioreactors Modulates UDP‐Galactose Pools for Enhanced m
Machine learning‐based model predictive controller design for cell culture processes
Mimicking CHO large‐scale effects in the single multicompartment bioreactor: A new approach to access scale‐up behavior
A system identification approach for developing model predictive controllers of antibody quality attributes in cell cult
Developing an ultra‐intensified fed‐batch cell culture process with greatly improved performance and productivity
Tuning monoclonal antibody galactosylation using Raman spectroscopy‐controlled lactic acid feeding
Quick generation of Raman spectroscopy based in-process glucose control to influence biopharmaceutical protein product q
Physics‐informed neural networks for biopharmaceutical cultivation processes: Consideration of varying process parameter
CHO stable pool fed-batch process development of SARS-CoV-2 spike protein production: Impact of aeration conditions and
Neural ordinary differential equation‐based model predictive controller for regulating glucose concentration in a fed‐ba
Process development for an inducible rituximab‐expressing Chinese hamster ovary cell line
Real‐time quantification and supplementation of bioreactor amino acids to prolong culture time and maintain antibody pro
A recurrent neural network for soft sensor development using CHO stable pools in fed‐batch process for SARS ‐ CoV ‐2 spi
Raman-based dynamic feeding strategies using real-time glucose concentration monitoring system during adalimumab produci
A protocol to transfer a fed‐batch platform process into semi‐perfusion mode: The benefit of automated small‐scale biore
An assessment of the impact of Raman based glucose feedback control on CHO cell bioreactor process development
A statistical approach to improve compound screening in cell culture media
Elevated pCO 2 affects the lactate metabolic shift in CHO cell culture processes
N‐1 semi‐continuous transient perfusion in shake flask for ultra‐high density seeding of CHO cell cultures in benchtop b
Rapid total sialic acid monitoring during cell culture process using a machine learning model based soft sensor
Automized inline monitoring in perfused mammalian cell culture by MIR spectroscopy without calibration model building
Dynamic pH profiles drive higher cell‐specific and volumetric productivity
Stress‐induced increase of monoclonal antibody production in CHO cells
Performance benchmark of different cell clones in discontinuous and continuous bioprocesses reveals critical impact of c
Maduramycin, a novel glycosylation modulator for mammalian fed-batch and steady-state perfusion processes
Towards the Development of Automated Fed-Batch Cell Culture Processes at Microscale
Process transfer and optimization of Chinese hamster ovary cell cultivation for monoclonal antibody production
The Biological Impact of High Throughput Continuous Bioprocessing
Multi-omics analysis of Chinese hamster ovary cell-based biopharmaceutical production processes
Amélioration de la production et de la qualité des protéines thérapeutiques recombinantes produites en culture en mode c
Real-time characterization of mammalian cell culture bioprocesses by magnetic sector MS
Systematic data-driven genome-scale metabolic model reduction for dynamic bioprocess modeling: CHO cell culture case stu
Overcoming the Limits of Traditional Rate Calculations from Sparse Concentration Data: A Probabilistic Framework for Bio
An Integrated Process Analytical Platform for Automated Monitoring of Monoclonal Antibody N-linked Glycosylation
Debottlenecking and reformulating feed media for improved CHO cell growth and titer by data‐driven and model‐guided anal
Multi-omic characterization of antibody-producing CHO cell lines elucidates metabolic reprogramming and nutrient uptake
Implementation of Design of Experiments (DOE) for Optimization of Feeding Strategy and Glyco-Engineering of Trastuzumab
Integrating real-time OUR monitoring with adaptive feeding for enhanced antibody production
Process Mapping and Optimization Study of CHO Cell Cultures for mAb Production using Ambr® 250 High-throughput Parallel
Engineering protein glycosylation in CHO cells to be highly similar to murine host cells
Model Transferability and Reduced Experimental Burden in Cell Culture Process Development Facilitated by Hybrid Modeling
Modulating antibody N-glycosylation through feed additives using a multi-tiered approach
Navigating industry 4.0 and 5.0: the role of hybrid modelling in (bio)chemical engineering’s digital transition
Hybrid modeling for biopharmaceutical processes: advantages, opportunities, and implementation
Boost dynamic protocols for producing mammalian biopharmaceuticals with intensified DoE—a practical guide to analyses wi
Strategies Used in Manufacturing Processes to Drive and Control Mammalian Cells to Undergo a Lactate Metabolic Shift
Applications of off-gas mass spectrometry in fed-batch mammalian cell culture
Pre-stage perfusion and ultra-high seeding cell density in CHO fed-batch culture: a case study for process intensificati
Hyperosmolality in CHO cell culture: effects on the proteome
Exploring metabolic effects of dipeptide feed media on CHO cell cultures by in silico model-guided flux analysis
Exploring the limits of conventional small-scale CHO fed-batch for accelerated on demand monoclonal antibody production
Genome-scale modeling of Chinese hamster ovary cells by hybrid semi-parametric flux balance analysis
Effects of process intensification on homogeneity of an IgG1:κ monoclonal antibody during perfusion culture
David N.; Chundawat, Shishir P. S.
shishir.chundawat@rutgers.edu
Richelle, Anne; Corbett
anne.richelle@sartorius.com
Reger, Lucas Nik; Saballus
Lucas.Reger@sartorius.com
Boosting Productivity for Advanced Biomanufacturing by Re-Using Viable Cells
Viewthomas.zahel@exputec.com
Hybrid Modelling and Multi- Parametric Control of Bioprocesses
cecile.toussaint@umontreal.ca
Impact de la modification du métabolisme primaire des cellules CHO sur leur productivité
michael.handlogten@astrazeneca.com
Perfusion reduces bispecific antibody aggregation via mitigating mitochondrial dysfunction-induced glutathione oxidation
amanda.lewis@bms.com
Understanding and Controlling Sialylation in a CHO Fc-Fusion Process
carolin.bokelmann@ibvt.uni
Deciphering Metabolic Pathways in High Seeding Density Fed-Batch Processes for Monoclonal Antibody Production: A Computa
mariano.n.cruzbournazou@tu-berlin.de
Self-Driving Development of Perfusion Processes for Monoclonal Antibody Production
tobias.habicher@boehringer-ingelheim.com
Cell specific perfusion rates drive growth dynamics and metabolism in CHO N-1 perfusion processes independent of perfusi
pierantonio.facco@unipd.it
Bioprocess feeding optimization through in silico dynamic experiments and hybrid digital models—a proof of concept
jan.peter.axelsson@vascaia.se
Design ideas behind Bioprocess Library for Modelica
m.micheletti@ucl.ac.uk
Cell clone selection-impact of operation modes and medium exchange strategies on clone ranking.
christoph.herwig@tuwien.ac.at
A control strategy to investigate the relationship between specific productivity and high-mannose glycoforms in CHO cell
m.e.klijn@tudelft.nl
Single compound data supplementation to enhance transferability of fermentation specific Raman spectroscopy models
Jochen.Scholz@sartorius.com
Monitoring online biomass with a capacitance sensor during scale-up of industrially relevant CHO cell culture fed-batch
f.baganz@ucl.ac.uk
A simple method to determine evaporation and compensate for liquid losses in small-scale cell culture systems
brian.hadley@lonza.com
Impact of fed-batch process intensification on the productivity and product quality of two CHO cell lines expressing uni