Justyna Okarmus

575 total citations · 1 hit paper
14 papers, 362 citations indexed

About

Justyna Okarmus is a scholar working on Neurology, Cellular and Molecular Neuroscience and Epidemiology. According to data from OpenAlex, Justyna Okarmus has authored 14 papers receiving a total of 362 indexed citations (citations by other indexed papers that have themselves been cited), including 9 papers in Neurology, 6 papers in Cellular and Molecular Neuroscience and 5 papers in Epidemiology. Recurrent topics in Justyna Okarmus's work include Parkinson's Disease Mechanisms and Treatments (8 papers), Autophagy in Disease and Therapy (5 papers) and Neuroinflammation and Neurodegeneration Mechanisms (4 papers). Justyna Okarmus is often cited by papers focused on Parkinson's Disease Mechanisms and Treatments (8 papers), Autophagy in Disease and Therapy (5 papers) and Neuroinflammation and Neurodegeneration Mechanisms (4 papers). Justyna Okarmus collaborates with scholars based in Denmark, United Kingdom and Spain. Justyna Okarmus's co-authors include Morten Meyer, Matias Ryding, Helle Bogetofte, Sissel Ida Schmidt, Brent J. Ryan, Agnieszka Włodarczyk, Martin R. Larsen, Trevor Owens, Alberto Martínez‐Serrano and Richard Wade‐Martins and has published in prestigious journals such as PLoS ONE, Scientific Reports and Cellular and Molecular Life Sciences.

In The Last Decade

Justyna Okarmus

14 papers receiving 362 citations

Hit Papers

Pathogenesis of DJ-1/PARK7-Mediated Parkinson’s Disease 2024 2026 2025 2024 10 20 30 40
What are hit papers?

Hit papers significantly outperform the citation benchmark for their cohort. A paper qualifies if it has ≥500 total citations, achieves ≥1.5× the top-1% citation threshold for papers in the same subfield and year (this is the minimum needed to enter the top 1%, not the average within it), or reaches the top citation threshold in at least one of its specific research topics.

  1. Pathogenesis of DJ-1/PARK7-Mediated Parkinson’s Disease
    2024 40 citations Justyna Okarmus, Morten Meyer et al. Cells profile →

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Justyna Okarmus Denmark 12 187 134 82 67 52 14 362
Jiabing Shen China 13 192 1.0× 141 1.1× 74 0.9× 69 1.0× 41 0.8× 42 377
Udhaya Kumari Singapore 6 191 1.0× 95 0.7× 57 0.7× 51 0.8× 30 0.6× 8 350
Nicola Lax United Kingdom 5 268 1.4× 115 0.9× 78 1.0× 132 2.0× 33 0.6× 5 505
Lucas Caldi Gomes Germany 9 187 1.0× 112 0.8× 66 0.8× 46 0.7× 31 0.6× 16 337
Luan Cen China 10 156 0.8× 126 0.9× 85 1.0× 95 1.4× 19 0.4× 16 368
Ina Woods Ireland 14 325 1.7× 145 1.1× 145 1.8× 39 0.6× 79 1.5× 19 547
Antonia De Maio United States 7 331 1.8× 96 0.7× 133 1.6× 45 0.7× 21 0.4× 8 486
Sissel Ida Schmidt Denmark 8 146 0.8× 129 1.0× 109 1.3× 66 1.0× 46 0.9× 12 317
Márcia Cristina Teixeira dos Santos Brazil 9 210 1.1× 132 1.0× 51 0.6× 30 0.4× 23 0.4× 11 350
Qi Wan China 11 114 0.6× 43 0.3× 75 0.9× 59 0.9× 26 0.5× 14 313

Countries citing papers authored by Justyna Okarmus

Since Specialization
Citations

This map shows the geographic impact of Justyna Okarmus'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 Justyna Okarmus with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Justyna Okarmus more than expected).

Fields of papers citing papers by Justyna Okarmus

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Justyna Okarmus. 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 Justyna Okarmus. The network helps show where Justyna Okarmus may publish in the future.

Co-authorship network of co-authors of Justyna Okarmus

This figure shows the co-authorship network connecting the top 25 collaborators of Justyna Okarmus. A scholar is included among the top collaborators of Justyna Okarmus 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 Justyna Okarmus. Justyna Okarmus is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

14 of 14 papers shown
1.
Okarmus, Justyna, et al.. (2024). Pathogenesis of DJ-1/PARK7-Mediated Parkinson’s Disease. Cells. 13(4). 296–296. 40 indexed citations breakdown →
2.
Clausen, Lene, et al.. (2024). PRKN-linked familial Parkinson’s disease: cellular and molecular mechanisms of disease-linked variants. Cellular and Molecular Life Sciences. 81(1). 223–223. 11 indexed citations
3.
Okarmus, Justyna, Tina C. Stummann, Henriette Haukedal, et al.. (2024). USP30 inhibition induces mitophagy and reduces oxidative stress in parkin-deficient human neurons. Cell Death and Disease. 15(1). 52–52. 19 indexed citations
4.
Okarmus, Justyna, et al.. (2023). Role of Deubiquitinases in Parkinson’s Disease—Therapeutic Perspectives. Cells. 12(4). 651–651. 9 indexed citations
5.
Okarmus, Justyna, Jesper F. Havelund, Matias Ryding, et al.. (2021). Identification of bioactive metabolites in human iPSC-derived dopaminergic neurons with PARK2 mutation: Altered mitochondrial and energy metabolism. Stem Cell Reports. 16(6). 1510–1526. 29 indexed citations
6.
Schmidt, Sissel Ida, Helle Bogetofte, Agnieszka Włodarczyk, et al.. (2021). Microglia-Secreted Factors Enhance Dopaminergic Differentiation of Tissue- and iPSC-Derived Human Neural Stem Cells. Stem Cell Reports. 16(2). 281–294. 35 indexed citations
7.
Ryding, Matias, et al.. (2021). Neurodegeneration Induced by Anti-IgLON5 Antibodies Studied in Induced Pluripotent Stem Cell-Derived Human Neurons. Cells. 10(4). 837–837. 32 indexed citations
8.
Martin, Nellie Anne, Maria L. Elkjaer, Agnieszka Włodarczyk, et al.. (2020). Absence of miRNA-146a Differentially Alters Microglia Function and Proteome. Frontiers in Immunology. 11. 1110–1110. 26 indexed citations
9.
Okarmus, Justyna, Helle Bogetofte, Sissel Ida Schmidt, et al.. (2020). Lysosomal perturbations in human dopaminergic neurons derived from induced pluripotent stem cells with PARK2 mutation. Scientific Reports. 10(1). 10278–10278. 27 indexed citations
10.
Bogetofte, Helle, Pia Jensen, Matias Ryding, et al.. (2019). PARK2 Mutation Causes Metabolic Disturbances and Impaired Survival of Human iPSC-Derived Neurons. Frontiers in Cellular Neuroscience. 13. 297–297. 46 indexed citations
11.
Bogetofte, Helle, Pia Jensen, Justyna Okarmus, et al.. (2019). Perturbations in RhoA signalling cause altered migration and impaired neuritogenesis in human iPSC-derived neural cells with PARK2 mutation. Neurobiology of Disease. 132. 104581–104581. 26 indexed citations
12.
Martin, Neil A., Maria L. Elkjaer, Agnieszka Włodarczyk, et al.. (2019). Absence of miR-146a alters the function and proteome of microglia. University of Southern Denmark Research Portal (University of Southern Denmark). 25. 651–652. 1 indexed citations
13.
Almeida, Ana S., Justyna Okarmus, Tine Rosenberg, et al.. (2018). Intermittent, low dose carbon monoxide exposure enhances survival and dopaminergic differentiation of human neural stem cells. PLoS ONE. 13(1). e0191207–e0191207. 21 indexed citations
14.
Martin, Nellie Anne, Viktor Molnár, Maria L. Elkjaer, et al.. (2018). Experimental Demyelination and Axonal Loss Are Reduced in MicroRNA-146a Deficient Mice. Frontiers in Immunology. 9. 490–490. 40 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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