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Collaborations and top research areas from the last five years
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2-Hydroxypropyl-β-cyclodextrin accesses acute and subacute infarcts in a mouse model of ischemic stroke
Becktel, D. A., Le, E. H., Frye, J. B., Whitman, S. A., Schnellmann, R. G. & Doyle, K. P., Dec 2026, In: Fluids and Barriers of the CNS. 23, 1, 32.Research output: Contribution to journal › Article › peer-review
Open Access -
Cognitive loss after brain trauma results from sex-specific activation of synaptic pruning processes
Arizanovska, D., Bush, G. F., Dallera, C. A., Folorunso, O. O., Frye, J. B., Doyle, K. P., Jagid, J. R., Wolosker, H., Monaco, B. A., Graciolli Cordeiro, J., Atkins, C. M., Griswold, A. J. & Liebl, D. J., Mar 1 2026, In: Brain. 149, 3, p. 918-933 16 p.Research output: Contribution to journal › Article › peer-review
Open Access2 Link opens in a new tab Scopus citations -
A novel composite biomarker score for the identification of cognitive impairment in patients with heart failure: a pilot study
Hoyer-Kimura, C., Palmer, J., Gopalan, R., Doyle, K., Frye, J., Juneman, E., Irwin, K., Galdamez-Avila, A., Carrillo, K., Lizzette Cruz, S., Schrag, C., Oskouie, S., Kalya, A., Bedoya, A., Konhilas, J. P., Ashton, N. J., Ryan, L., Sweitzer, N. K. & Hay, M., 2025, (Accepted/In press) In: Biomarkers.Research output: Contribution to journal › Article › peer-review
Open Access -
A Novel Mouse Model for Cerebral Inflammatory Demyelination in X-Linked Adrenoleukodystrophy: Insights into Pathogenesis and Potential Therapeutic Targets
Hashemi, E., Srivastava, I. N., Aguirre, A., Yoseph, E. T., Kaushal, E., Awani, A., Ryu, J. K., Akassoglou, K., Talebian, S., Chu, P., Pisani, L., Musolino, P., Steinman, L., Doyle, K., Robinson, W. H., Sharpe, O., Cayrol, R., Orchard, P. J., Lund, T. & Vogel, H. & 4 others, , Feb 2025, In: Annals of Neurology. 97, 2, p. 296-312 17 p.Research output: Contribution to journal › Article › peer-review
Open Access3 Link opens in a new tab Scopus citations -
Assessing post-stroke cognition in pre-clinical models: Lessons and recommendations from a multi-center study
Brezzo, G., Zera, K. A., Straus, D. E., Goertz, J. E., Loppi, S. H., Crumpacker, R. R., Frye, J. B., Becktel, D. A., Cuartero, M. I., García Culebras, A., Dames, C., Berchtold, D., Fowler, J. H., Meisel, A., Anrather, J., Moro, M. A., Allan, S. M., Doyle, K. P., Buckwalter, M. S. & McColl, B. W., 2025, (Accepted/In press) In: Journal of Cerebral Blood Flow and Metabolism.Research output: Contribution to journal › Article › peer-review
Open Access
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Cellular and molecular mechanisms of brain repair by glial scar formation following stroke
Doyle, K. (PI)
Project: Research project
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Cellular and molecular mechanisms of brain repair by glial scar formation following stroke
Doyle, K. (PI)
Project: Research project
Datasets
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sj-xlsx-3-jcb-10.1177_0271678X231157298 - Supplemental material for Increased fatty acid metabolism and decreased glycolysis are hallmarks of metabolic reprogramming within microglia in degenerating white matter during recovery from experimental stroke
Loppi, S. H. (Creator), Tavera-Garcia, M. A. (Creator), Becktel, D. A. (Creator), Maiyo, B. K. (Creator), Johnson, K. E. (Creator), Nguyen, T.-V. V. (Creator), Schnellmann, R. G. (Creator) & Doyle, K. P. (Creator), SAGE Journals, 2023
DOI: 10.25384/sage.22082600, https://sage.figshare.com/articles/dataset/sj-xlsx-3-jcb-10_1177_0271678X231157298_-_Supplemental_material_for_Increased_fatty_acid_metabolism_and_decreased_glycolysis_are_hallmarks_of_metabolic_reprogramming_within_microglia_in_degenerating_white_matter_during_recovery_from_experim/22082600
Dataset
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sj-xlsx-4-jcb-10.1177_0271678X231157298 - Supplemental material for Increased fatty acid metabolism and decreased glycolysis are hallmarks of metabolic reprogramming within microglia in degenerating white matter during recovery from experimental stroke
Loppi, S. H. (Creator), Tavera-Garcia, M. A. (Creator), Becktel, D. A. (Creator), Maiyo, B. K. (Creator), Johnson, K. E. (Creator), Nguyen, T.-V. V. (Creator), Schnellmann, R. G. (Creator) & Doyle, K. P. (Creator), SAGE Journals, 2023
DOI: 10.25384/sage.22082603.v1, https://sage.figshare.com/articles/dataset/sj-xlsx-4-jcb-10_1177_0271678X231157298_-_Supplemental_material_for_Increased_fatty_acid_metabolism_and_decreased_glycolysis_are_hallmarks_of_metabolic_reprogramming_within_microglia_in_degenerating_white_matter_during_recovery_from_experim/22082603/1
Dataset
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sj-xlsx-3-jcb-10.1177_0271678X231157298 - Supplemental material for Increased fatty acid metabolism and decreased glycolysis are hallmarks of metabolic reprogramming within microglia in degenerating white matter during recovery from experimental stroke
Loppi, S. H. (Creator), Tavera-Garcia, M. A. (Creator), Becktel, D. A. (Creator), Maiyo, B. K. (Creator), Johnson, K. E. (Creator), Nguyen, T.-V. V. (Creator), Schnellmann, R. G. (Creator) & Doyle, K. P. (Creator), SAGE Journals, 2023
DOI: 10.25384/sage.22082600.v1, https://sage.figshare.com/articles/dataset/sj-xlsx-3-jcb-10_1177_0271678X231157298_-_Supplemental_material_for_Increased_fatty_acid_metabolism_and_decreased_glycolysis_are_hallmarks_of_metabolic_reprogramming_within_microglia_in_degenerating_white_matter_during_recovery_from_experim/22082600/1
Dataset
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sj-xlsx-4-jcb-10.1177_0271678X231157298 - Supplemental material for Increased fatty acid metabolism and decreased glycolysis are hallmarks of metabolic reprogramming within microglia in degenerating white matter during recovery from experimental stroke
Loppi, S. H. (Creator), Tavera-Garcia, M. A. (Creator), Becktel, D. A. (Creator), Maiyo, B. K. (Creator), Johnson, K. E. (Creator), Nguyen, T.-V. V. (Creator), Schnellmann, R. G. (Creator) & Doyle, K. P. (Creator), SAGE Journals, 2023
DOI: 10.25384/sage.22082603, https://sage.figshare.com/articles/dataset/sj-xlsx-4-jcb-10_1177_0271678X231157298_-_Supplemental_material_for_Increased_fatty_acid_metabolism_and_decreased_glycolysis_are_hallmarks_of_metabolic_reprogramming_within_microglia_in_degenerating_white_matter_during_recovery_from_experim/22082603
Dataset
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sj-xlsx-3-jcb-10.1177_0271678X231157298 - Supplemental material for Increased fatty acid metabolism and decreased glycolysis are hallmarks of metabolic reprogramming within microglia in degenerating white matter during recovery from experimental stroke
Loppi, S. H. (Creator), Tavera-Garcia, M. A. (Creator), Becktel, D. A. (Creator), Maiyo, B. K. (Creator), Johnson, K. E. (Creator), Nguyen, T.-V. V. (Creator), Schnellmann, R. G. (Creator) & Doyle, K. P. (Creator), SAGE Journals, 2023
DOI: 10.25384/sage.22082600, https://sage.figshare.com/articles/dataset/sj-xlsx-3-jcb-10_1177_0271678X231157298_-_Supplemental_material_for_Increased_fatty_acid_metabolism_and_decreased_glycolysis_are_hallmarks_of_metabolic_reprogramming_within_microglia_in_degenerating_white_matter_during_recovery_from_experim/22082600
Dataset