Retraction
An Immunohistochemical Study of the Increase in Antioxidant Capacity of Corneal Epithelial Cells by Molecular Hydrogen, Leading to the Suppression of Alkali-Induced Oxidative Stress
Paper Information
Record ID:
37387
Author(s):
Journal:
Publication Date:
June 22, 2020
Retraction Date:
May 09, 2022
(3.5 years years ago)
Subjects:
Institutions:
Countries:
Article Type:
Publisher:
Hindawi
Open Access:
Yes
DOI:
PubMed ID:
Retraction PubMed ID:
Retraction Details
Citations (12)
12
Total Citations5
Post-Retraction(41.7%)
5
Pre-Retraction2
Same DayPost-Retraction Citation Analysis
0
Within 30 days
3
Within 1 year
2
After 2+ years
968
Days since retraction (latest)
Exclusive: Issues with dozens of papers prompt inquiry into prolific stroke researcher
Calli McMurray
The Transmitter
Published: Jan 2025
968 days after retraction
Phytic acid-loaded polyvinyl alcohol hydrogels promotes wound healing of injured corneal epithelium through inhibiting ferroptosis
Danni Gong, Nianxuan Wu, Huan Chen et al. (8 authors)
Redox Biology
Open Access
Published: Sep 2024
9 citations
9 citations
846 days after retraction
<scp>Liposome–trimethyl</scp> chitosan nanoparticles codeliver insulin and <scp>siVEGF</scp> to treat corneal alkali burns by inhibiting ferroptosis
Xiaojing Xiong, Huiting Jiang, Yukun Liao et al. (8 authors)
Bioengineering & Translational Medicine
Open Access
Published: Feb 2023
15 citations
15 citations
276 days after retraction
An electrospun scaffold functionalized with a ROS-scavenging hydrogel stimulates ocular wound healing
Xin Shi, Tong Zhou, Shenyu Huang et al. (10 authors)
Acta Biomaterialia
Published: Jan 2023
45 citations
45 citations
247 days after retraction
Understanding Hydrogen: Lessons to Be Learned from Physical Interactions between the Inert Gases and the Globin Superfamily
John T. Hancock, G. Russell, Tim J. Craig et al. (6 authors)
Oxygen
Open Access
Published: Nov 2022
15 citations
15 citations
183 days after retraction
Retracted: Molecular Hydrogen Effectively Heals Alkali-Injured Cornea via Suppression of Oxidative Stress
Oxidative Medicine And Cellular Longevity
Oxidative Medicine and Cellular Longevity
Open Access
Published: May 2022
1 citation
1 citation
Same day as retraction
Retracted: An Immunohistochemical Study of the Increase in Antioxidant Capacity of Corneal Epithelial Cells by Molecular Hydrogen, Leading to the Suppression of Alkali-Induced Oxidative Stress
Oxidative Medicine And Cellular Longevity
Oxidative Medicine and Cellular Longevity
Open Access
Published: May 2022
1 citation
1 citation
Same day as retraction
Molecular hydrogen is a promising therapeutic agent for pulmonary disease
Zhiling Fu, Jin Zhang
Journal of Zhejiang University SCIENCE B
Open Access
Published: Feb 2022
27 citations
27 citations
97 days before retraction
Ferrostatin‐1‐loaded liposome for treatment of corneal alkali burn via targeting ferroptosis
Kai Wang, Li Jiang, Yueyang Zhong et al. (9 authors)
Bioengineering & Translational Medicine
Open Access
Published: Dec 2021
68 citations
68 citations
158 days before retraction
MOLEKÜLER HİDROJENİN SAĞLIK ALANINDA KULLANIMI
Duried Alwazeer, Sümeyra Çi̇çek
Karya Journal of Health Science
Open Access
Published: Jun 2021
2 citations
2 citations
319 days before retraction
Synthesis and in vitro PDT evaluation of red emission polymer dots (R-CPDs) and pyropheophorbide-α conjugates
Faiza Sajjad, Yi‐Jia Yan, Davor Margetić et al. (4 authors)
Scientific Reports
Open Access
Published: May 2021
7 citations
7 citations
363 days before retraction
Retraction Note: Therapeutic effect of molecular hydrogen in corneal UVB-induced oxidative stress and corneal photodamage
Čestmír Čejka, Jan Kössl, Barbora Heřmánková et al. (7 authors)
Scientific Reports
Open Access
Published: Apr 2021
1 citation
1 citation
381 days before retraction
Quick Stats
Total Citations:
12
Years Since Retraction:
3.5 years
Open Access:
Yes
Last Checked:
Jul 24, 2025