Derese Getnet

5.7k total citations
36 papers, 2.5k citations indexed

About

Derese Getnet is a scholar working on Immunology, Oncology and Molecular Biology. According to data from OpenAlex, Derese Getnet has authored 36 papers receiving a total of 2.5k indexed citations (citations by other indexed papers that have themselves been cited), including 17 papers in Immunology, 12 papers in Oncology and 8 papers in Molecular Biology. Recurrent topics in Derese Getnet's work include Immunotherapy and Immune Responses (13 papers), Immune Cell Function and Interaction (8 papers) and T-cell and B-cell Immunology (8 papers). Derese Getnet is often cited by papers focused on Immunotherapy and Immune Responses (13 papers), Immune Cell Function and Interaction (8 papers) and T-cell and B-cell Immunology (8 papers). Derese Getnet collaborates with scholars based in United States, India and Taiwan. Derese Getnet's co-authors include Joseph F. Grosso, Charles G. Drake, Drew M. Pardoll, Monica V. Goldberg, Edward L. Hipkiss, Timothy Harris, Tullia C. Bruno, Hung‐Rong Yen, Charles H. Maris and Robert A. Anders and has published in prestigious journals such as Science, Journal of Clinical Investigation and Journal of Clinical Oncology.

In The Last Decade

Derese Getnet

34 papers receiving 2.5k citations

Peers

Derese Getnet
Kevin C. Conlon United States
Anna Wasiuk United States
Giuseppe Sconocchia Italy
Natalia Martín‐Orozco United States
Eszter Lázár‐Molnár United States
HyeonJoo Cheon United States
Melissa Inglese Australia
Haiyan S. Li United States
Catherine M. Owczarek Australia
Kevin C. Conlon United States
Derese Getnet
Citations per year, relative to Derese Getnet Derese Getnet (= 1×) peers Kevin C. Conlon

Countries citing papers authored by Derese Getnet

Since Specialization
Citations

This map shows the geographic impact of Derese Getnet's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Derese Getnet with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Derese Getnet more than expected).

Fields of papers citing papers by Derese Getnet

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Derese Getnet. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Derese Getnet. The network helps show where Derese Getnet may publish in the future.

Co-authorship network of co-authors of Derese Getnet

This figure shows the co-authorship network connecting the top 25 collaborators of Derese Getnet. A scholar is included among the top collaborators of Derese Getnet based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Derese Getnet. Derese Getnet is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Kevorkian, R.T., et al.. (2024). Hypothermia: Pathophysiology and the propensity for infection. The American Journal of Emergency Medicine. 88. 64–78. 1 indexed citations
2.
Alamneh, Yonas A., Radmila Pavlović, Rania Abu-Taleb, et al.. (2024). Optimization of a Lethal, Combat-Relevant Model of Sterile Inflammation in Mice for Drug Candidate Screening. Military Medicine. 189(Supplement_3). 694–701.
3.
He, Yunxiu, Andrey A. Filippov, Mikeljon P. Nikolich, et al.. (2022). Identification and Characterization of vB_PreP_EPr2, a Lytic Bacteriophage of Pan-Drug Resistant Providencia rettgeri. Viruses. 14(4). 708–708. 10 indexed citations
4.
Farlow, Jason, Yunxiu He, Damon W. Ellison, et al.. (2021). Genome Sequences of 17 Diverse Pseudomonas aeruginosa Phages. Microbiology Resource Announcements. 10(19). 3 indexed citations
5.
Bobrov, Alexander G., Derese Getnet, Jeffrey Livezey, et al.. (2021). Semimechanistic Modeling of the Effects of Blast Overpressure Exposure on Cefazolin Pharmacokinetics in Mice. Journal of Pharmacology and Experimental Therapeutics. 379(2). 175–181. 2 indexed citations
6.
Sharma, Jyoti, Lavanya Balakrishnan, Keshava K. Datta, et al.. (2015). A knowledgebase resource for interleukin-17 family mediated signaling. Journal of Cell Communication and Signaling. 9(3). 291–296. 28 indexed citations
7.
Wada, Satoshi, Timothy Harris, E. Tryggestad, et al.. (2013). Combined Treatment Effects of Radiation and Immunotherapy: Studies in an Autochthonous Prostate Cancer Model. International Journal of Radiation Oncology*Biology*Physics. 87(4). 769–776. 16 indexed citations
8.
Wada, Satoshi, Christopher M. Jackson, Kiyoshi Yoshimura, et al.. (2013). Sequencing CTLA-4 blockade with cell-based immunotherapy for prostate cancer. Journal of Translational Medicine. 11(1). 89–89. 63 indexed citations
9.
Huang, Tai‐Chung, Nandini A. Sahasrabuddhe, Min‐Sik Kim, et al.. (2012). Regulation of Lipid Metabolism by Dicer Revealed through SILAC Mice. Journal of Proteome Research. 11(4). 2193–2205. 25 indexed citations
10.
Raju, Rajesh, Lavanya Balakrishnan, Vishalakshi Nanjappa, et al.. (2011). A comprehensive manually curated reaction map of RANKL/RANK-signaling pathway. Database. 2011(0). bar021–bar021. 40 indexed citations
11.
Alger, Heather M., Nina Raben, Emidio E. Pistilli, et al.. (2011). The role of TRAIL in mediating autophagy in myositis skeletal muscle: A potential nonimmune mechanism of muscle damage. Arthritis & Rheumatism. 63(11). 3448–3457. 24 indexed citations
12.
Bruno, Tullia C., Joseph F. Grosso, Derese Getnet, et al.. (2011). Anti‐tumor effects of endogenous prostate cancer‐specific CD8 T cells in a murine TCR transgenic model. The Prostate. 72(5). 514–522. 9 indexed citations
13.
Getnet, Derese, Joseph F. Grosso, Monica V. Goldberg, et al.. (2010). A role for the transcription factor Helios in human CD4+CD25+ regulatory T cells. Molecular Immunology. 47(7-8). 1595–1600. 184 indexed citations
14.
Wada, Satoshi, Kiyoshi Yoshimura, Edward L. Hipkiss, et al.. (2009). Cyclophosphamide Augments Antitumor Immunity: Studies in an Autochthonous Prostate Cancer Model. Cancer Research. 69(10). 4309–4318. 122 indexed citations
15.
Pan, Fan, Hong Yu, Eric V. Dang, et al.. (2009). Eos Mediates Foxp3-Dependent Gene Silencing in CD4 + Regulatory T Cells. Science. 325(5944). 1142–1146. 245 indexed citations
16.
Yen, Hung‐Rong, Timothy Harris, Satoshi Wada, et al.. (2009). Tc17 CD8 T Cells: Functional Plasticity and Subset Diversity. The Journal of Immunology. 183(11). 7161–7168. 161 indexed citations
17.
Grosso, Joseph F., Monica V. Goldberg, Derese Getnet, et al.. (2009). Functionally Distinct LAG-3 and PD-1 Subsets on Activated and Chronically Stimulated CD8 T Cells. The Journal of Immunology. 182(11). 6659–6669. 211 indexed citations
18.
Harris, Timothy, Edward L. Hipkiss, Scott Borzillary, et al.. (2008). Radiotherapy augments the immune response to prostate cancer in a time‐dependent manner. The Prostate. 68(12). 1319–1329. 65 indexed citations
19.
Harris, Timothy, Joseph F. Grosso, Hung‐Rong Yen, et al.. (2007). Cutting Edge: An In Vivo Requirement for STAT3 Signaling in TH17 Development and TH17-Dependent Autoimmunity. The Journal of Immunology. 179(7). 4313–4317. 484 indexed citations
20.
Grosso, Joseph F., Timothy Harris, Charles H. Maris, et al.. (2007). LAG-3 regulates CD8+ T cell accumulation and effector function in murine self- and tumor-tolerance systems. Journal of Clinical Investigation. 117(11). 3383–3392. 433 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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