Retraction
Poly-pathway model, a novel approach to simulate multiple metabolic states by reaction network-based model – Application to amino acid depletion in CHO cell culture
Paper Information
Record ID:
16372
Author(s):
Journal:
Publication Date:
April 06, 2016
Retraction Date:
July 05, 2017
(8.4 years years ago)
Subjects:
Institutions:
- Cell Technology Group, Department of Industrial Biotechnology/Bioprocess Design, School of Biotechnology, KTH Royal Institute of Technology, Stockholm, Sweden
- Department of Mathematics, Division of Optimization and Systems Theory, KTH Royal Institute of Technology, Stockholm, Sweden
- Department of Automatic Control, School of Electrical Engineering, KTH Royal Institute of Technology, Stockholm, Sweden
Country:
🇸🇪 SwedenArticle Type:
Publisher:
Elsevier
Open Access:
Yes
PubMed ID:
Retraction PubMed ID:
Retraction Details
Retraction Reasons:
Nature of Retraction:
Retraction
Retraction Notice:
10.1016/j.jbiotec.2017.11.013Citations (20)
20
Total Citations17
Post-Retraction(85.0%)
1
Pre-Retraction0
Same DayPost-Retraction Citation Analysis
0
Within 30 days
1
Within 1 year
15
After 2+ years
2796
Days since retraction (latest)
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Unknown
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Unknown
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Mar 2025
2796 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Sep 2024
2638 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: May 2024
2492 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Apr 2023
2096 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Mar 2023
2065 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Oct 2022
1927 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Jan 2022
1641 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: May 2021
1396 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Apr 2021
1392 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Mar 2021
1335 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Jul 2020
1100 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Apr 2020
1015 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Feb 2020
941 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Jan 2020
910 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Sep 2019
807 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Jun 2019
696 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Nov 2017
133 days after retraction
Paper citing Poly-pathway model, a novel approach to simulate m...
Unknown Authors
Unknown Journal
Published: Mar 2017
125 days before retraction
Quick Stats
Total Citations:
20
Years Since Retraction:
8.4 years
Open Access:
Yes
Last Checked:
Never