Christine A. Webber

2.1k total citations
35 papers, 1.3k citations indexed

About

Christine A. Webber is a scholar working on Cellular and Molecular Neuroscience, Molecular Biology and Surgery. According to data from OpenAlex, Christine A. Webber has authored 35 papers receiving a total of 1.3k indexed citations (citations by other indexed papers that have themselves been cited), including 31 papers in Cellular and Molecular Neuroscience, 16 papers in Molecular Biology and 9 papers in Surgery. Recurrent topics in Christine A. Webber's work include Nerve injury and regeneration (27 papers), Axon Guidance and Neuronal Signaling (12 papers) and Nerve Injury and Rehabilitation (7 papers). Christine A. Webber is often cited by papers focused on Nerve injury and regeneration (27 papers), Axon Guidance and Neuronal Signaling (12 papers) and Nerve Injury and Rehabilitation (7 papers). Christine A. Webber collaborates with scholars based in Canada, United States and Iran. Christine A. Webber's co-authors include Douglas W. Zochodne, Jose A. Martinez, Kimberly J. Christie, Bhagirath Singh, Sarah McFarlane, K. Ming Chan, Jenna‐Lynn Senger, Valerie M. K. Verge, Carrie L. Hehr and Jennifer C. Hocking and has published in prestigious journals such as Journal of Neuroscience, SHILAP Revista de lepidopterología and The Journal of Cell Biology.

In The Last Decade

Christine A. Webber

34 papers receiving 1.3k citations

Peers

Christine A. Webber
Laura H. Rosenberg United States
Xin‐Peng Dun United Kingdom
Anne-Laure Cattin United Kingdom
Grzegorz Wicher Sweden
William T. Hendriks Netherlands
Ruth M. Stassart Germany
Susanne Quintes Germany
Peter Arthur‐Farraj United Kingdom
Mariann Sondell Sweden
Päivi Liesi Finland
Laura H. Rosenberg United States
Christine A. Webber
Citations per year, relative to Christine A. Webber Christine A. Webber (= 1×) peers Laura H. Rosenberg

Countries citing papers authored by Christine A. Webber

Since Specialization
Citations

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

Fields of papers citing papers by Christine A. Webber

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Christine A. Webber. 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 Christine A. Webber. The network helps show where Christine A. Webber may publish in the future.

Co-authorship network of co-authors of Christine A. Webber

This figure shows the co-authorship network connecting the top 25 collaborators of Christine A. Webber. A scholar is included among the top collaborators of Christine A. Webber 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 Christine A. Webber. Christine A. Webber 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.
2.
Najafi, Hossein, et al.. (2024). Advances in Exosome-Based Therapies for the Repair of Peripheral Nerve Injuries. Neurochemical Research. 49(8). 1905–1925. 12 indexed citations
3.
Chan, K. Ming, et al.. (2024). The use of electrical stimulation to enhance recovery following peripheral nerve injury. Muscle & Nerve. 70(6). 1151–1162. 9 indexed citations
4.
Parsons, Brendon, Andrew P. Makrigiannis, Nicolas Pichaud, et al.. (2022). Modulation of the cell membrane lipid milieu by peroxisomal β-oxidation induces Rho1 signaling to trigger inflammatory responses. Cell Reports. 38(9). 110433–110433. 15 indexed citations
5.
Senger, Jenna‐Lynn, K. Ming Chan, & Christine A. Webber. (2019). Conditioning electrical stimulation is superior to postoperative electrical stimulation, resulting in enhanced nerve regeneration and functional recovery. Experimental Neurology. 325. 113147–113147. 20 indexed citations
6.
Senger, Jenna‐Lynn, et al.. (2019). Conditioning electrical stimulation promotes functional nerve regeneration. Experimental Neurology. 315. 60–71. 41 indexed citations
7.
Hocking, Jennifer C., et al.. (2017). Rare Enterorectal Pelvic Floor Hernia—A Cadaveric Study. Female Pelvic Medicine & Reconstructive Surgery. 24(5). e35–e37. 2 indexed citations
8.
Webber, Christine A. & Douglas W. Zochodne. (2017). Preparation of Adult Rat Sensory Neuron Cultures and Their Application to Growth Cone Turning Assays. Methods in molecular biology. 1727. 81–92. 2 indexed citations
9.
Verge, Valerie M. K., et al.. (2017). Electrical stimulation as a conditioning strategy for promoting and accelerating peripheral nerve regeneration. Experimental Neurology. 302. 75–84. 49 indexed citations
10.
Webber, Christine A., et al.. (2015). Facial hypersensitivity and trigeminal pathology in mice with experimental autoimmune encephalomyelitis. Pain. 157(3). 627–642. 26 indexed citations
11.
Martinez, Jose A., Masaki Kobayashi, Anand Krishnan, et al.. (2015). Intrinsic facilitation of adult peripheral nerve regeneration by the Sonic hedgehog morphogen. Experimental Neurology. 271. 493–505. 46 indexed citations
12.
Webber, Christine A., George Luu, Shaona Acharjee, et al.. (2013). Nerve growth factor acts through the TrkA receptor to protect sensory neurons from the damaging effects of the HIV-1 viral protein, Vpr. Neuroscience. 252. 512–525. 21 indexed citations
13.
Atkinson‐Leadbeater, Karen, et al.. (2010). Dynamic Expression of Axon Guidance Cues Required for Optic Tract Development Is Controlled by Fibroblast Growth Factor Signaling. Journal of Neuroscience. 30(2). 685–693. 44 indexed citations
14.
Christie, Kimberly J., Christine A. Webber, Jose A. Martinez, Bhagirath Singh, & Douglas W. Zochodne. (2010). PTEN Inhibition to Facilitate Intrinsic Regenerative Outgrowth of Adult Peripheral Axons. Journal of Neuroscience. 30(27). 9306–9315. 268 indexed citations
15.
Webber, Christine A. & Douglas W. Zochodne. (2009). The nerve regenerative microenvironment: Early behavior and partnership of axons and Schwann cells. Experimental Neurology. 223(1). 51–59. 147 indexed citations
16.
Webber, Christine A., et al.. (2008). Guiding Adult Mammalian Sensory Axons During Regeneration. Journal of Neuropathology & Experimental Neurology. 67(3). 212–222. 29 indexed citations
17.
Cheng, Christopher C., Christine A. Webber, J. Wang, et al.. (2008). Activated RHOA and peripheral axon regeneration. Experimental Neurology. 212(2). 358–369. 70 indexed citations
18.
Webber, Christine A., et al.. (2005). Multiple signaling pathways regulate FGF-2-induced retinal ganglion cell neurite extension and growth cone guidance. Molecular and Cellular Neuroscience. 30(1). 37–47. 37 indexed citations
19.
Webber, Christine A., et al.. (2003). Fibroblast growth factors redirect retinal axons in vitro and in vivo. Developmental Biology. 263(1). 24–34. 35 indexed citations
20.
Andersen, Parker L., Christine A. Webber, Karen Kimura, & David J. Schreyer. (2000). Cyclic AMP Prevents an Increase in GAP-43 but Promotes Neurite Growth in Cultured Adult Rat Dorsal Root Ganglion Neurons. Experimental Neurology. 166(1). 153–165. 34 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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