From: Schizophrenia and epigenetics: a comprehensive bibliometric analysis
Author | Objective of the study | Data source, retrieval date, and year duration | TDE |
---|---|---|---|
Duan and Zhu [8] | To analyze the use of magnetic resonance imaging (MRI) in schizophrenia | Web of Science (February 9, 2022) (2004–2018) | 3596 |
Sun et al. [27] | To explore the field of inflammation-related research in schizophrenia | Web of Science (February 19, 2022) (1991–2022) | 3596 |
Uy and Tantengco [30] | To determine the characteristics and trends of published articles about schizophrenia in Southeast Asia | Scopus (December 12, 2021) (1973–2021) | 1068 |
Yang et al. [40] | To summarise the association between the gut microbiota and schizophrenia | Web of Science (2013–2022) | 162 |
Chen et al. [5] | To explore the field of schizophrenia and oxidative stress-related research | Web of Science (1990–2021) | 3510 |
Şevik and Alkan [23] | To investigate the relationship between schizophrenia and Toxoplasma gondii | Web of Science (May 31, 2022) (1991–2023) | 447 |
Shekhar [25] | To visualize the trends and themes related to schizophrenia research amidst COVID-19 | Scopus (2020–2022) | 566 |
W. N. A. Zakaria et al. [42] | To analyze genetic studies in schizophrenia in the pre-genome-wide association studies (GWAS) and post-GWAS era | Scopus (March 8, 2021) (1946–2020) | 5615 |