Sandrine Benhamron

864 total citations
17 papers, 659 citations indexed

About

Sandrine Benhamron is a scholar working on Molecular Biology, Cell Biology and Physiology. According to data from OpenAlex, Sandrine Benhamron has authored 17 papers receiving a total of 659 indexed citations (citations by other indexed papers that have themselves been cited), including 13 papers in Molecular Biology, 5 papers in Cell Biology and 5 papers in Physiology. Recurrent topics in Sandrine Benhamron's work include Endoplasmic Reticulum Stress and Disease (3 papers), Glycosylation and Glycoproteins Research (2 papers) and Tuberous Sclerosis Complex Research (2 papers). Sandrine Benhamron is often cited by papers focused on Endoplasmic Reticulum Stress and Disease (3 papers), Glycosylation and Glycoproteins Research (2 papers) and Tuberous Sclerosis Complex Research (2 papers). Sandrine Benhamron collaborates with scholars based in Israel, United States and Japan. Sandrine Benhamron's co-authors include Boaz Tirosh, Shakti Prasad Pattanayak, Michael Berger, Hanna Rosenmann, Jae‐Seon So, Pascal Gantet, Martine Thiersault, Ann–Hwee Lee, Rivka Hadar and Pierre Doireau and has published in prestigious journals such as The Journal of Immunology, PLoS ONE and Molecular and Cellular Biology.

In The Last Decade

Sandrine Benhamron

17 papers receiving 651 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Sandrine Benhamron Israel 13 379 180 164 81 73 17 659
Lili Gong China 18 619 1.6× 110 0.6× 99 0.6× 69 0.9× 70 1.0× 40 806
Hiroyuki Kanoh Japan 17 572 1.5× 161 0.9× 232 1.4× 90 1.1× 101 1.4× 45 979
Robert A. Saxton United States 7 487 1.3× 155 0.9× 94 0.6× 87 1.1× 55 0.8× 8 831
Yitang Li United States 11 322 0.8× 309 1.7× 148 0.9× 37 0.5× 97 1.3× 12 762
Shuyu Wang China 7 624 1.6× 120 0.7× 188 1.1× 149 1.8× 68 0.9× 12 976
Mary Q. Stewart United States 7 567 1.5× 223 1.2× 276 1.7× 34 0.4× 84 1.2× 7 901
Gyuyoup Kim United States 11 639 1.7× 85 0.5× 177 1.1× 99 1.2× 124 1.7× 16 899
Maria Buxadé Spain 11 500 1.3× 209 1.2× 116 0.7× 56 0.7× 50 0.7× 14 805
Kyoung Wan Yoon South Korea 14 350 0.9× 190 1.1× 105 0.6× 88 1.1× 42 0.6× 20 690
Lisa Heiserich Germany 6 508 1.3× 75 0.4× 72 0.4× 122 1.5× 58 0.8× 8 730

Countries citing papers authored by Sandrine Benhamron

Since Specialization
Citations

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

Fields of papers citing papers by Sandrine Benhamron

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Sandrine Benhamron

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

All Works

17 of 17 papers shown
1.
Sweetat, Sahar, Michal Lichtenstein, Sandrine Benhamron, et al.. (2023). The Beneficial Effect of Mitochondrial Transfer Therapy in 5XFAD Mice via Liver–Serum–Brain Response. Cells. 12(7). 1006–1006. 13 indexed citations
2.
3.
Frušić‐Zlotkin, Marina, et al.. (2019). Topical nano-encapsulated cyclosporine formulation for atopic dermatitis treatment. Nanomedicine Nanotechnology Biology and Medicine. 24. 102140–102140. 26 indexed citations
4.
Benhamron, Sandrine, Dimitrios Karussis, Ezra Ella, et al.. (2019). Cerebrospinal Fluid (CSF) Exchange with Artificial CSF Enriched with Mesenchymal Stem Cell Secretions Ameliorates Experimental Autoimmune Encephalomyelitis. International Journal of Molecular Sciences. 20(7). 1793–1793. 9 indexed citations
5.
Benhamron, Sandrine, Michal Lichtenstein, Ayal Ben‐Zvi, et al.. (2019). Mitochondrial Transfer Ameliorates Cognitive Deficits, Neuronal Loss, and Gliosis in Alzheimer’s Disease Mice. Journal of Alzheimer s Disease. 72(2). 587–604. 100 indexed citations
6.
Benhamron, Sandrine, et al.. (2018). Phos-tau peptide immunization of amyloid-tg-mice reduced non-mutant phos-tau pathology, improved cognition and reduced amyloid plaques. Experimental Neurology. 303. 48–58. 9 indexed citations
7.
Meena, Naresh Kumar, Shakti Prasad Pattanayak, Yael Ben‐Nun, et al.. (2018). mTORC1 activation in B cells confers impairment of marginal zone microarchitecture by exaggerating cathepsin activity. Immunology. 155(4). 505–518. 2 indexed citations
8.
Nassar, Taher, et al.. (2016). Solid nano-in-nanoparticles for potential delivery of siRNA. Journal of Controlled Release. 257. 144–155. 27 indexed citations
9.
Benhamron, Sandrine, Shakti Prasad Pattanayak, Michael Berger, & Boaz Tirosh. (2014). mTOR Activation Promotes Plasma Cell Differentiation and Bypasses XBP-1 for Immunoglobulin Secretion. Molecular and Cellular Biology. 35(1). 153–166. 65 indexed citations
10.
Benhamron, Sandrine, et al.. (2013). Regulated IRE1‐dependent decay participates in curtailing immunoglobulin secretion from plasma cells. European Journal of Immunology. 44(3). 867–876. 79 indexed citations
11.
Benhamron, Sandrine, et al.. (2012). Dissociation between Mature Phenotype and Impaired Transmigration in Dendritic Cells from Heparanase-Deficient Mice. PLoS ONE. 7(5). e35602–e35602. 21 indexed citations
12.
Krispin, Alon, et al.. (2012). Constitutive Neutrophil Apoptosis: Regulation by Cell Concentration via S100 A8/9 and the MEK – ERK Pathway. PLoS ONE. 7(2). e29333–e29333. 33 indexed citations
13.
Shmuel, Miriam, et al.. (2011). Multiple Triphenylphosphonium Cations as a Platform for the Delivery of a Pro-Apoptotic Peptide. Pharmaceutical Research. 28(11). 2780–2789. 17 indexed citations
14.
Benhamron, Sandrine & Boaz Tirosh. (2011). Direct activation of mTOR in B lymphocytes confers impairment in B‐cell maturation andloss of marginal zone B cells. European Journal of Immunology. 41(8). 2390–2396. 56 indexed citations
15.
Shmuel, Miri, et al.. (2010). Protein synthesis in plasma cells is regulated by crosstalk between endoplasmic reticulum stress and mTOR signaling. European Journal of Immunology. 41(2). 491–502. 41 indexed citations
16.
Benhamron, Sandrine, Hovav Nechushtan, Inna Verbovetski, et al.. (2006). Translocation of Active Heparanase to Cell Surface Regulates Degradation of Extracellular Matrix Heparan Sulfate upon Transmigration of Mature Monocyte-Derived Dendritic Cells. The Journal of Immunology. 176(11). 6417–6424. 47 indexed citations
17.
Benhamron, Sandrine, Johan Memelink, Nathalie Giglioli‐Guivarc’h, et al.. (2001). Catharanthus roseus G-box binding factors 1 and 2 act as repressors of strictosidine synthase gene expression in cell cultures. Plant Molecular Biology. 45(4). 477–488. 102 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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