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Exp Neurol

April 2026

KIM J, Lee J, Kwon J, Kwon M, et al
Imbalance of nociceptive homeostasis drives spinal cord injury pain.
Exp Neurol. 2026 Apr 16:115786. doi: 10.1016/j.expneurol.2026.115786.

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IWASAWA E, Brown FN, Shula C, Emmert AS, et al
Suppression of microglial activation with anti-inflammatory drug bindarit enhances neural development in the shunt-treated neonatal hydrocephalus model rat.
Exp Neurol. 2026;398:115608.

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BREZINSKI AN, Konkel KS, Hodges MR, Kurpad S, et al
Selective spinal interneuron activation enhances the hypercapnic ventilatory response in chronic spinal cord injury.
Exp Neurol. 2026;402:115753.

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March 2026
SEFIANI A, Horvat D, Pewklang T, Thompson T, et al
Novel Neurotrophin-3 peptidomimetic synthetic neurotrophin promotes neurological recovery after spinal cord injury.
Exp Neurol. 2026;401:115746.

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LIU F, Chen Y, Hu Q, Li B, et al
Retraction notice to "MFGE8/Integrin beta3 pathway alleviates apoptosis and inflammation in early brain injury after subarachnoid hemorrhage in rats" [Experimental Neurology 272 (2015) 120-127].
Exp Neurol. 2026 Mar 14:115723. doi: 10.1016/j.expneurol.2026.115723.

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ZHANG T, Huang L, Peng J, Zhang JH, et al
Retraction Notice to "LJ529 attenuates mast cell-related inflammation via A3R-PKCepsilon-ALDH2 pathway after subarachnoid hemorrhage in rats" [Experimental Neurology 340 (2021) 113686].
Exp Neurol. 2026 Mar 9:115712. doi: 10.1016/j.expneurol.2026.115712.

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YAN F, Tan X, Wan W, Dixon BJ, et al
Retraction Notice to "ErbB4 protects against neuronal apoptosis via activation of YAP/PIK3CB signaling pathway in a rat model of subarachnoid hemorrhage" [Experimental Neurology 297 (2017) 92-100].
Exp Neurol. 2026 Mar 7:115713. doi: 10.1016/j.expneurol.2026.115713.

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February 2026
CAPES DE, Slone VK, Winchester DK, Salazar J, et al
Depleting non-resolving neuroinflammation in chronic spinal cord injury attenuates thermal hypersensitivity.
Exp Neurol. 2026;400:115690.

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JIAJIA D, Wen Y, Enyan J, Xiaojian Z, et al
Corrigendum to 'PGAM5 promotes RIPK1-PANoptosome activity by phosphorylating and activating RIPK1 to mediate PANoptosis after subarachnoid hemorrhage in rats' [Experimental Neurology 384 (2025) 115072].
Exp Neurol. 2026 Feb 13:115672. doi: 10.1016/j.expneurol.2026.115672.

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ALDRICH JC, Alman SM, Lee SE, Scheinfeld AR, et al
DLK inhibition has sex-specific effects on neuroprotection and locomotor recovery after spinal cord injury.
Exp Neurol. 2026;399:115681.

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KAUER SD, Effraim PR, Bangalore L, Waxman SG, et al
Dendritic spine dysgenesis in spinal cord injury: A structural contributor to pain and spasticity.
Exp Neurol. 2026;399:115679.

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TAO Z, Zhou X, Jin L, Xu N, et al
Neuropathic pain after spinal cord injury: Mechanisms, animal models and pain assessments.
Exp Neurol. 2026 Feb 4:115678. doi: 10.1016/j.expneurol.2026.115678.

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HINTERMAYER MA, Hua EM, Noor M, Rambaldi I, et al
A synthetic circular RNA targeting miR-340-5p promotes optic nerve regeneration and retinal ganglion cell survival following axotomy.
Exp Neurol. 2026;396:115527.

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January 2026
ZHANG Z, Liang F, Wen D, Chen H, et al
Exosomes-mediated delivery of miR-27a-3p antagomir alleviates white matter injury by regulating PPARgamma/PRDX1/JNK pathway after subarachnoid hemorrhage in rats.
Exp Neurol. 2026 Jan 23:115667. doi: 10.1016/j.expneurol.2026.115667.

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CHEN W, Adam L, Pauline MF, Mansart A, et al
Unveiling distinct neuroimmune responses in mouse models of cervical spinal cord injury: Hemisection versus hemicontusion.
Exp Neurol. 2026 Jan 21:115661. doi: 10.1016/j.expneurol.2026.115661.

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FLOREA R, Jeong KS, Saab CY
Machine learning for discovery of clinical pain biomarkers following spinal cord injury.
Exp Neurol. 2026 Jan 13:115649. doi: 10.1016/j.expneurol.2026.115649.

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December 2025
PARVIN S, Jang K, Garraway SM
Role of A-delta low threshold mechanoreceptors and tropomyosin receptor kinase B plasticity in at-level aversive pain after spinal cord injury.
Exp Neurol. 2025 Dec 31:115628. doi: 10.1016/j.expneurol.2025.115628.

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JIA S, Liu M, Nan D, Yang L, et al
Mechanistic study on Lnc-Gstm5 regulation of the SUV39H1/H3K9me3 axis in hyperbaric oxygen-mediated suppression of inflammatory response following spinal cord injury.
Exp Neurol. 2025 Dec 17:115599. doi: 10.1016/j.expneurol.2025.115599.

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November 2025
GERAGHTY JR, Rangasamy SB, Xu H, Loeb JA, et al
Fingolimod reduces blood-brain barrier damage, inflammation, and neuronal death in experimental subarachnoid hemorrhage.
Exp Neurol. 2025;396:115554.

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October 2025
TU TH, Chen CJ, Fay LY, Lin ZH, et al
Ganoderma microsporum-derived fungal immunomodulatory protein (GMI) promotes functional recovery after spinal cord injury by modulating anti-inflammation and enhancing regeneration.
Exp Neurol. 2025 Oct 29:115536. doi: 10.1016/j.expneurol.2025.115536.

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AKHMETZYANOVA ER, Rizvanov AA, Mukhamedshina YO
The main signaling pathways determining the microglia responses in spinal cord injury: Potential effectors among known pharmaceuticals.
Exp Neurol. 2025;396:115523.

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SILVERSTEIN AL, Calulot CM, McLouth CJ, Gensel JC, et al
Liposome-encapsulated clodronate and COX-2 inhibitor treatment impair ventilatory recovery but improve compensatory locomotor function following cervical spinal cord injury in rats.
Exp Neurol. 2025 Oct 21:115522. doi: 10.1016/j.expneurol.2025.115522.

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SACHDEVA R, Dwivedi A, Law M, Lam C, et al
Regeneration and remyelination promoting effects of spinal cord stimulation following spinal cord injury: A scoping review.
Exp Neurol. 2025 Oct 21:115519. doi: 10.1016/j.expneurol.2025.115519.

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XU Y, Wang S, Li Z, Wang J, et al
Bone marrow mesenchymal stem cell-derived exosomes alleviate neuropathic pain after spinal cord injury by inhibiting the TLR4/MyD88/NF-kappaB pathway.
Exp Neurol. 2025;395:115507.

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SEO JW, Balog BM, Pinkevitch M, Niemi JP, et al
Somatosensory neurons respond heterogeneously to a conditioning lesion.
Exp Neurol. 2025;392:115342.

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PAN W, Wang S, Liu Y, Qin S, et al
Electroacupuncture ameliorates sleep deprivation-induced insomnia in mice by regulating the dopaminergic projections from VTA to NAc.
Exp Neurol. 2025;392:115351.

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September 2025
BROCK JH, Shevinsky CA, Graham L, Staufenberg E, et al
Dosing parameters for grafting human neural stem cells into sites of spinal cord injury.
Exp Neurol. 2025;395:115480.

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Expression of concern: "MFGE8/Integrin beta3 pathway alleviates apoptosis and inflammation in early brain injury after subarachnoid hemorrhage in rats" [EXP NEUROL, Volume 272 (2015) Pages 120-127].
Exp Neurol. 2025;391:115297.

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Expression of concern: "Mitoquinone attenuates blood-brain barrier disruption through Nrf2/PHB2/OPA1 pathway after subarachnoid hemorrhage in rats" [EXP NEUROL, Volume 317 (2019) Pages 1-9].
Exp Neurol. 2025;391:115295.

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Expression of concern: "ErbB4 protects against neuronal apoptosis via activation of YAP/PIK3CB signaling pathway in a rat model of subarachnoid hemorrhage" [EXP NEUROL, Volume 297 (2017) Pages 92-100].
Exp Neurol. 2025;391:115294.

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Expression of concern: "LJ529 attenuates mast cell-related inflammation via A(3)R-PKCepsilon-ALDH2 pathway after subarachnoid hemorrhage in rats" [EXP NEUROL, Volume 340 (2021) 113686].
Exp Neurol. 2025;391:115292.

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August 2025
CHEN Y, Ren L, Xia J, Li B, et al
Farrerol confers neuroprotection in spinal cord injury by regulating macrophages/microglia polarization through the JAK2/STAT3 pathway.
Exp Neurol. 2025;394:115448.

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LIU X, Liu X, Lin J, Chen K, et al
Ketogenic diet and quercetin promote the recovery of motor function in rats with spinal cord injury.
Exp Neurol. 2025 Aug 7:115415. doi: 10.1016/j.expneurol.2025.115415.

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SWARTS EA, Munro AI, Bannerman CA, Zielonka JR, et al
Integrating sensitive motor tasks with histopathology detects sex differences in recovery after spinal cord injury.
Exp Neurol. 2025 Aug 7:115417. doi: 10.1016/j.expneurol.2025.115417.

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REID SK, Tran AV, Leal-Garcia ME, Devaraj S, et al
Sex-dependent effects of peptidylarginine deiminases on neutrophil function and long-term outcomes after spinal cord injury.
Exp Neurol. 2025 Aug 4:115414. doi: 10.1016/j.expneurol.2025.115414.

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July 2025
WEISE L, Joseph R, Sirianni QEA, Bryan JA, et al
Full manuscript title: Ultrasound-guided intraparenchymal injection of slow release Chondroitinase ABC-37 in the chronic phase of spinal cord injury improves long-term recovery.
Exp Neurol. 2025;393:115402.

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FORSTON MJ, Ohkubo A, Forston MD, DeHoff ME, et al
CGRP(+) fibers sprout within gastrocnemius muscle following complete spinal cord injury in rodents.
Exp Neurol. 2025 Jul 26:115400. doi: 10.1016/j.expneurol.2025.115400.

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TANG Q, Zhou X, Zhang B, Ma C, et al
Integrative multi-omics and machine learning identify CALR as a diagnostic and therapeutic target in aneurysmal subarachnoid hemorrhage.
Exp Neurol. 2025;393:115396.

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LIU Y, Wang R, Sun F, Wang N, et al
Stereotactic infusion of rotenone into the SN induced a late-stage model of Parkinson's disease.
Exp Neurol. 2025 Jul 20:115382. doi: 10.1016/j.expneurol.2025.115382.

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HEMATI-GOURABI M, Cao T, Mills AE, Rice EP, et al
Morphological regulation of wound repair astrocytes by leucine zipper-bearing kinase-AKT signaling after spinal cord injury.
Exp Neurol. 2025;393:115379.

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June 2025
LIN FX, Gu HY, He W
Corrigendum to "MAPK signaling pathway in spinal cord injury: Mechanisms and therapeutic potential" [Experimental Neurology 383 (2025) 115043].
Exp Neurol. 2025 Jun 26:115353. doi: 10.1016/j.expneurol.2025.115353.

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MATTHIAS J, Lukas LP, Bruningk SC, Bourguignon L, et al
Response to the Editor - Exploring the Potential of routine serological markers in predicting neurological outcomes in spinal cord injury.
Exp Neurol. 2025 Jun 16:115346. doi: 10.1016/j.expneurol.2025.115346.

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CHAURASIA S, Kumar V
Letter to the editor: "Exploring the potential of routine serological markers in predicting neurological outcomes in spinal cord injury" by Jan Matthias et al.
Exp Neurol. 2025;392:115345.

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May 2025
BESSEN MA, Marian OC, O'Hare Doig RL, Sorby-Adams A, et al
Intraoperative ultrasound monitoring of spinal cord swelling and parenchymal changes in a porcine model of thoracic spinal cord injury.
Exp Neurol. 2025;392:115320.

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ZHU Z, Xu Y, Wang K, Xu X, et al
The role of astrocyte-derived extracellular vesicles in cellular microenvironment remodeling after spinal cord injury: A study based on quantitative proteomics analysis.
Exp Neurol. 2025 May 27:115321. doi: 10.1016/j.expneurol.2025.115321.

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April 2025
BLANKE EN, Holmes GM
Dysfunction of pancreatic exocrine secretion after experimental spinal cord injury.
Exp Neurol. 2025;389:115257.

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March 2025
FRANCOS-QUIJORNA I, Lopez-Gonzalez N, Caro-Canton M, Sanchez-Fernandez A, et al
Lack of effects of Resolvin D1 after spinal cord injury in mice.
Exp Neurol. 2025;388:115226.

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FRANCA FS, Gensel JC
Redefining macrophage phenotypes after spinal cord injury: An open data approach.
Exp Neurol. 2025 Mar 18:115222. doi: 10.1016/j.expneurol.2025.115222.

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GUO J, Zhang Q, Li B, Liu S, et al
Sex-related disparities in mobility, sensory function, and psychological outcomes in Wistar and Sprague-Dawley rats following spinal cord injury.
Exp Neurol. 2025 Mar 5:115204. doi: 10.1016/j.expneurol.2025.115204.

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February 2025
HELLENBRAND DJ, Lee JS, Mickelson EJ, Baer MC, et al
Mineral coated microparticles delivering Interleukin-4, Interleukin-10, and Interleukin-13 reduce inflammation and improve function after spinal cord injury in a rat.
Exp Neurol. 2025;386:115179.

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WU Z, Sun J, Liao Z, Sun T, et al
Activation of PAR1 contributes to ferroptosis of Schwann cells and inhibits regeneration of myelin sheath after sciatic nerve crush injury in rats via Hippo-YAP/ACSL4 pathway.
Exp Neurol. 2025;384:115053.

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January 2025
JONES LAT, Field-Fote EC, Magnuson D, Tom V, et al
Outcome measures in rodent models for spinal cord injury and their human correlates.
Exp Neurol. 2025 Jan 28:115169. doi: 10.1016/j.expneurol.2025.115169.

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GOLTASH S, Khodr R, Bui TV, Laliberte AM, et al
An optogenetic mouse model of hindlimb spasticity after spinal cord injury.
Exp Neurol. 2025 Jan 23:115157. doi: 10.1016/j.expneurol.2025.115157.

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YU Z, Zhang H, Li L, Li Z, et al
Corrigendum to "Microglia-mediated pericytes migration and fibroblast transition via S1P/S1P3/YAP signaling pathway after spinal cord injury" [Vol. 379 of Experimental Neurology (September 2024)].
Exp Neurol. 2025 Jan 21:115148. doi: 10.1016/j.expneurol.2025.115148.

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GOTOH S, Kawabori M, Yamaguchi S, Nakahara Y, et al
Intranasal administration of stem cell-derived exosome alleviates cognitive impairment against subarachnoid hemorrhage.
Exp Neurol. 2025;386:115143.

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YANG Y, Shao Y, Dai Q, Zhang Y, et al
Transcription factor AP-2 Beta, a potential target of repetitive Transspinal magnetic stimulation in spinal cord injury treatment, reduced inflammation and alleviated spinal cord injury.
Exp Neurol. 2025;386:115144.

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December 2024
GUO XJ, He LW, Chang JQ, Su WN, et al
Epidural electrical stimulation combined with photobiomodulation restores hindlimb motor function in rats with thoracic spinal cord injury.
Exp Neurol. 2024;385:115112.

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SHEORAN A, Fond KA, Davis LM, Huie JR, et al
Data reporting quality and semantic interoperability increase with community-based data elements (CoDEs). Analysis of the open data commons for spinal cord injury (ODC-SCI).
Exp Neurol. 2024;385:115100.

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HOFFMAN DB, Raymond-Pope CJ, Pritchard EE, Bruzina AS, et al
Differential evaluation of neuromuscular injuries to understand re-innervation at the neuromuscular junction.
Exp Neurol. 2024;382:114996.

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November 2024
REVILLA-GONZALEZ G, Del Carmen Gonzalez-Montelongo M, Vasconcelos EJR, Urena J, et al
Delayed changes in the transcriptomic profile of cerebral arteries in a rat model of subarachnoid hemorrhage.
Exp Neurol. 2024 Nov 26:115074. doi: 10.1016/j.expneurol.2024.115074.

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JIAJIA D, Wen Y, Enyan J, Xiaojian Z, et al
PGAM5 promotes RIPK1-PANoptosome activity by phosphorylating and activating RIPK1 to mediate PANoptosis after subarachnoid hemorrhage in rats.
Exp Neurol. 2024 Nov 25:115072. doi: 10.1016/j.expneurol.2024.115072.

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HAJIMIRZAEI P, Tabatabaei FSA, Nasibi-Sis H, Razavian RS, et al
Schwann cell transplantation for remyelination, regeneration, tissue sparing, and functional recovery in spinal cord injury: A systematic review and meta-analysis of animal studies.
Exp Neurol. 2024 Nov 21:115062. doi: 10.1016/j.expneurol.2024.115062.

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GU HY, Liu N
Mechanism of effect and therapeutic potential of NLRP3 inflammasome in spinal cord injury.
Exp Neurol. 2024 Nov 19:115059. doi: 10.1016/j.expneurol.2024.115059.

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AHMADIAN M, Erskine E, Wainman L, Wearing OH, et al
Acute intermittent hypoxia elicits sympathetic neuroplasticity independent of peripheral chemoreflex activation and spinal cord tissue hypoxia in a rodent model of high-thoracic spinal cord injury.
Exp Neurol. 2024;384:115054.

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LIN FX, Gu HY, He W
MAPK signaling pathway in spinal cord injury: Mechanisms and therapeutic potential.
Exp Neurol. 2024;383:115043.

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NOONAN VK, Humphreys S, Biering-Sorensen F, Charlifue S, et al
Enhancing data standards to advance translation in spinal cord injury.
Exp Neurol. 2024 Nov 8:115048. doi: 10.1016/j.expneurol.2024.115048.

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October 2024
QIAN Y, Wang J, Chen J, Lin W, et al
Multifaceted role of thrombin in subarachnoid hemorrhage: Focusing on cerebrospinal fluid circulation disorder.
Exp Neurol. 2024 Oct 30:115036. doi: 10.1016/j.expneurol.2024.115036.

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XU Y, Wang X, Zhou X, Zeng W, et al
Multiple strategies enhance the efficacy of MSC-Exos transplantation for spinal cord injury.
Exp Neurol. 2024 Oct 29:115038. doi: 10.1016/j.expneurol.2024.115038.

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CUCARIAN J, Raposo P, Vavrek R, Nguyen A, et al
No impact of anti-inflammatory medication on inflammation-driven recovery following cervical spinal cord injury in rats.
Exp Neurol. 2024 Oct 29:115039. doi: 10.1016/j.expneurol.2024.115039.

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KONG J, Zhang Q, Zheng H, Tang D, et al
Corrigendum to "TGN-020 ameliorates motor dysfunction post-spinal cord injury via enhancing astrocyte autophagy and mitigating inflammation by activating AQP4/PPAR-gamma/mTOR pathway" [Experimental Neurology volume 382 (2024) 114975].
Exp Neurol. 2024 Oct 19:114998. doi: 10.1016/j.expneurol.2024.114998.

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RONG Y, Kang Y, Wen J, Gong Q, et al
Time-dependent arachidonic acid metabolism and functional changes in rats bladder tissue after suprasacral spinal cord injury.
Exp Neurol. 2024 Oct 16:114989. doi: 10.1016/j.expneurol.2024.114989.

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HUIE JR, Torres-Espin A, Sacramento J, Keller AV, et al
An infrastructure for qualified data sharing and team science in late-stage translational spinal cord injury research.
Exp Neurol. 2024 Oct 9:114995. doi: 10.1016/j.expneurol.2024.114995.

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KALIMULLINA T, Sachdeva R, Pawar K, Cao S, et al
Neuroprotective agents ineffective in mitigating autonomic dysreflexia following experimental spinal cord injury.
Exp Neurol. 2024 Oct 9:114993. doi: 10.1016/j.expneurol.2024.114993.

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September 2024
DING SQ, Yan HZ, Gao JX, Chen YQ, et al
Genetic deletion of the apoptosis associated speck like protein containing a card in LysM(+) macrophages attenuates spinal cord injury by regulating M1/M2 polarization through ASC-dependent inflammasome signaling axis.
Exp Neurol. 2024;382:114982.

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WILLIAMS PTJA, Schelbaum E, Ahmanna C, Alexander H, et al
Combined biomaterial scaffold and neuromodulation strategy to promote tissue repair and corticospinal connectivity after spinal cord injury in a rodent model.
Exp Neurol. 2024 Sep 25:114965. doi: 10.1016/j.expneurol.2024.114965.

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LV Y, Ji L, Dai H, Qiu S, et al
Identification of key regulatory genes involved in myelination after spinal cord injury by GSEA analysis.
Exp Neurol. 2024;382:114966.

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KONG J, Zhang Q, Zheng H, Tang D, et al
TGN-020 ameliorates motor dysfunction post-spinal cord injury via enhancing astrocyte autophagy and mitigating inflammation by activating AQP4/PPAR-gamma/mTOR pathway.
Exp Neurol. 2024 Sep 24:114975. doi: 10.1016/j.expneurol.2024.114975.

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HUANG Y, Bai J
Ferroptosis in the neurovascular unit after spinal cord injury.
Exp Neurol. 2024;381:114943.

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LUKOMSKA A, Rheaume BA, Frost MP, Theune WC, et al
Augmenting fibronectin levels in injured adult CNS promotes axon regeneration in vivo.
Exp Neurol. 2024;379:114877.

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August 2024
MATTHIAS J, Lukas LP, Bruningk SC, Maier D, et al
Exploring the potential of routine serological markers in predicting neurological outcomes in spinal cord injury.
Exp Neurol. 2024 Aug 12:114918. doi: 10.1016/j.expneurol.2024.114918.

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LIU L, Liang Z, Zhang L, Feng Z, et al
Corticothalamic input derived from corticospinal neurons contributes to chronic neuropathic pain after spinal cord injury.
Exp Neurol. 2024 Aug 12:114923. doi: 10.1016/j.expneurol.2024.114923.

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WANG X, Zhu Z, Zhang Z, Liang Z, et al
Astrocyte-derived lipocalin 2 promotes inflammation and scarring after spinal cord injury by activating SMAD in mice.
Exp Neurol. 2024;380:114915.

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ZHANG Z, Li Z, Peng Y, Li Z, et al
TRIM21-mediated ubiquitination of PLIN2 regulates neuronal lipid droplet accumulation after acute spinal cord injury.
Exp Neurol. 2024 Aug 7:114916. doi: 10.1016/j.expneurol.2024.114916.

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BRUNINGK SC, Bourguignon L, Lukas LP, Maier D, et al
Prediction of segmental motor outcomes in traumatic spinal cord injury: Advances beyond sum scores.
Exp Neurol. 2024;380:114905.

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YAO XQ, Chen JY, Garcia-Segura ME, Wen ZH, et al
Integrated multi-omics analysis reveals molecular changes associated with chronic lipid accumulation following contusive spinal cord injury.
Exp Neurol. 2024 Aug 1:114909. doi: 10.1016/j.expneurol.2024.114909.

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HAKANSSON S, Tuci M, Bolliger M, Curt A, et al
Data-driven prediction of spinal cord injury recovery: An exploration of current status and future perspectives.
Exp Neurol. 2024 Aug 1:114913. doi: 10.1016/j.expneurol.2024.114913.

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July 2024
DING PF, Liu XZ, Peng Z, Cui Y, et al
miR-93-5p impairs autophagy-lysosomal pathway via TET3 after subarachnoid hemorrhage.
Exp Neurol. 2024 Jul 31:114904. doi: 10.1016/j.expneurol.2024.114904.

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LU P, Graham L, Tran AN, Villarta A, et al
A facilitatory role of astrocytes in axonal regeneration after acute and chronic spinal cord injury.
Exp Neurol. 2024;379:114889.

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HU Z, Tan H, Zhang Y, Qi T, et al
Irisflorentin improves functional recovery after spinal cord injury by protecting the blood-spinal cord barrier and promoting axonal growth.
Exp Neurol. 2024;379:114886.

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June 2024
ZUO Y, Wang J, Enkhjargal B, Doycheva D, et al
Corrigendum to "Neurogenesis changes and the fate of progenitor cells after subarachnoid hemorrhage in rats" [Experimental Neurology 311 (2019) 274-284].
Exp Neurol. 2024 Jun 26:114872. doi: 10.1016/j.expneurol.2024.114872.

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ZHU L, Wang F, Xing J, Hu X, et al
Modulatory effects of gut microbiota on innate and adaptive immune responses following spinal cord injury.
Exp Neurol. 2024 Jun 12:114866. doi: 10.1016/j.expneurol.2024.114866.

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YANG L, Wu J, Zhang F, Zhang L, et al
Microglia aggravate white matter injury via C3/C3aR pathway after experimental subarachnoid hemorrhage.
Exp Neurol. 2024 Jun 10:114853. doi: 10.1016/j.expneurol.2024.114853.

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YU Z, Zhang H, Li L, Li Z, et al
Microglia-mediated pericytes migration and fibroblast transition via S1P/S1P3/YAP signaling pathway after spinal cord injury.
Exp Neurol. 2024 Jun 10:114864. doi: 10.1016/j.expneurol.2024.114864.

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GOODUS MT, Alfredo A, Carson KE, Dey P, et al
Spinal cord injury-induced metabolic impairment and steatohepatitis develops in non-obese rats and is exacerbated by premorbid obesity.
Exp Neurol. 2024 Jun 7:114847. doi: 10.1016/j.expneurol.2024.114847.

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ZHAI C, Wang Z, Cai J, Fang L, et al
Repeated trans-spinal magnetic stimulation promotes microglial phagocytosis of myelin debris after spinal cord injury through LRP-1.
Exp Neurol. 2024 Jun 1:114844. doi: 10.1016/j.expneurol.2024.114844.

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May 2024
CHEN P, Lin MH, Li YX, Huang ZJ, et al
Corrigendum to "Bexarotene enhances astrocyte phagocytosis via ABCA1-mediated pathways in a mouse model of subarachnoid hemorrhage" [Experimental Neurology 358 (2022) 114228].
Exp Neurol. 2024 May 31:114839. doi: 10.1016/j.expneurol.2024.114839.

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MICHEL-FLUTOT P, Cheng L, Thomas SJ, Lisi B, et al
PTEN inhibition promotes robust growth of bulbospinal respiratory axons and partial recovery of diaphragm function in a chronic model of cervical contusion spinal cord injury.
Exp Neurol. 2024 May 22:114816. doi: 10.1016/j.expneurol.2024.114816.

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TAN X, Li X, Li R, Meng W, et al
beta-hydroxybutyrate alleviates neurological deficits by restoring glymphatic and inflammation after subarachnoid hemorrhage in mice.
Exp Neurol. 2024;378:114819.

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GONZALEZ-ROTHI EJ, Allen LL, Seven YB, Ciesla MC, et al
Prolonged intermittent hypoxia differentially regulates phrenic motor neuron serotonin receptor expression in rats following chronic cervical spinal cord injury.
Exp Neurol. 2024 May 13:114808. doi: 10.1016/j.expneurol.2024.114808.

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April 2024
PRINS CA, de Oliveira FL, de Mello Coelho V, Dos Santos Ribeiro EB, et al
Galectin-3 absence alters lymphocytes populations dynamics behavior and promotes functional recovery after spinal cord injury in mice.
Exp Neurol. 2024 Apr 24:114785. doi: 10.1016/j.expneurol.2024.114785.

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ZHOU K, Shi L, ZhenWang, Zhou J, et al
Corrigendum to "RIP1-RIP3-DRP1 pathway regulates NLRP3 inflammasome activation following subarachnoid hemorrhage". Experimental Neurology. 2017 Sep: 295:116-124.
Exp Neurol. 2024 Apr 23:114787. doi: 10.1016/j.expneurol.2024.114787.

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SHEN Y, Zhang W, Chang H, Li Z, et al
Galectin-3 modulates microglial activation and neuroinflammation in early brain injury after subarachnoid hemorrhage.
Exp Neurol. 2024 Apr 16:114777. doi: 10.1016/j.expneurol.2024.114777.

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WU Q, Yuan K, Yao Y, Yao J, et al
LAMC1 attenuates neuronal apoptosis via FAK/PI3K/AKT signaling pathway after subarachnoid hemorrhage.
Exp Neurol. 2024;376:114776.

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CHENG W, Wei B, Liu W, Jin L, et al
p97 inhibits integrated stress response-induced neuronal apoptosis after subarachnoid hemorrhage in mice by enhancing proteasome function.
Exp Neurol. 2024 Apr 10:114778. doi: 10.1016/j.expneurol.2024.114778.

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March 2024
MALLOY DC, Cote MP
Multi-session transcutaneous spinal cord stimulation prevents chloride homeostasis imbalance and the development of hyperreflexia after spinal cord injury in rat.
Exp Neurol. 2024 Mar 15:114754. doi: 10.1016/j.expneurol.2024.114754.

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SUN C, Rahman MSU, Enkhjargal B, Peng J, et al
Corrigendum to 'Osteopontin modulates microglial activation states and attenuates inflammatory responses after subarachnoid hemorrhage in rats' [Experimental Neurology 371 (2024) 114585].
Exp Neurol. 2024 Mar 6:114747. doi: 10.1016/j.expneurol.2024.114747.

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DEMYANENKO SV, Kalyuzhnaya YN, Bachurin SS, Khaitin AM, et al
Exogenous Hsp70 exerts neuroprotective effects in peripheral nerve rupture model.
Exp Neurol. 2024;373:114670.

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February 2024
MIAO X, Lin J, Li A, Gao T, et al
AAV-mediated VEGFA overexpression promotes angiogenesis and recovery of locomotor function following spinal cord injury via PI3K/Akt signaling.
Exp Neurol. 2024;375:114739.

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ALDRICH JC, Scheinfeld AR, Lee SE, Dusenbery KJ, et al
Effects of dim light at night in C57BL/6 J mice on recovery after spinal cord injury.
Exp Neurol. 2024;375:114725.

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January 2024
WU Y, Xu Y, Sun J, Dai K, et al
Inhibiting RIPK1-driven neuroinflammation and neuronal apoptosis mitigates brain injury following experimental subarachnoid hemorrhage.
Exp Neurol. 2024;374:114705.

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LIU J, Qi L, Bao S, Yan F, et al
The acute spinal cord injury microenvironment and its impact on the homing of mesenchymal stem cells.
Exp Neurol. 2024 Jan 8:114682. doi: 10.1016/j.expneurol.2024.114682.

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December 2023
MAH KM, Wu W, Al-Ali H, Sun Y, et al
Corrigendum to "Compounds co-targeting kinases in axon regulatory pathways promote regeneration and behavioral recovery after spinal cord injury in mice" [Exp. Neurol. 355 (2022) 114117].
Exp Neurol. 2023 Dec 26:114669. doi: 10.1016/j.expneurol.2023.114669.

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BROWN BL, Anil N, States G, Whittemore SR, et al
Long ascending propriospinal neurons are heterogenous and subject to spinal cord injury induced anatomic plasticity.
Exp Neurol. 2023 Dec 7:114631. doi: 10.1016/j.expneurol.2023.114631.

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November 2023
SEBLANI M, Ertlen C, Coyle T, Decherchi P, et al
Combined effect of trifluoperazine and sodium cromoglycate on reducing acute edema and limiting lasting functional impairments after spinal cord injury in rats.
Exp Neurol. 2023 Nov 20:114612. doi: 10.1016/j.expneurol.2023.114612.

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October 2023
SUN C, Rahman MSU, Enkhjargal B, Peng J, et al
Osteopontin modulates microglial activation states and attenuates inflammatory responses after subarachnoid hemorrhage in rats.
Exp Neurol. 2023 Oct 24:114585. doi: 10.1016/j.expneurol.2023.114585.

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LEE JY, Park CS, Seo KJ, Kim IY, et al
IL-6/JAK2/STAT3 axis mediates neuropathic pain by regulating astrocyte and microglia activation after spinal cord injury.
Exp Neurol. 2023;370:114576.

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HUO J, Dong W, Xu J, Ma L, et al
Role of glyceraldehyde-3-phosphate dehydrogenase (GAPDH) in autophagy activation following subarachnoid hemorrhage.
Exp Neurol. 2023 Oct 18:114577. doi: 10.1016/j.expneurol.2023.114577.

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YANG L, Gao X, Tian D, Yang W, et al
Resolvin D2 activates anti-inflammatory microglia via restoring autophagy flux and alleviate neuropathic pain following spinal cord injury in rats.
Exp Neurol. 2023 Oct 17:114573. doi: 10.1016/j.expneurol.2023.114573.

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SUN C, Deng J, Ma Y, Meng F, et al
The dual role of microglia in neuropathic pain after spinal cord injury: Detrimental and protective effects.
Exp Neurol. 2023 Oct 16:114570. doi: 10.1016/j.expneurol.2023.114570.

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September 2023
METCALFE M, Steward O
PTEN deletion in spinal pathways via retrograde transduction with AAV-RG enhances forelimb motor recovery after cervical spinal cord injury; Sex differences and late-onset pathophysiologies.
Exp Neurol. 2023 Sep 29:114551. doi: 10.1016/j.expneurol.2023.114551.

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LIN X, Wang X, Zhang Y, Chu G, et al
Synergistic effect of chemogenetic activation of corticospinal motoneurons and physical exercise in promoting functional recovery after spinal cord injury.
Exp Neurol. 2023;370:114549.

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August 2023
JIANG W, Zhang X, Yu S, Yan F, et al
Decellularized extracellular matrix in the treatment of spinal cord injury.
Exp Neurol. 2023 Aug 17:114506. doi: 10.1016/j.expneurol.2023.114506.

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ALONSO-CALVINO E, Fernandez-Lopez E, Zaforas M, Rosa JM, et al
Increased excitability and reduced GABAergic levels in somatosensory cortex under chronic spinal cord injury.
Exp Neurol. 2023 Aug 15:114504. doi: 10.1016/j.expneurol.2023.114504.

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STEWART AN, Kumari R, Bailey WM, Glaser EP, et al
PTEN knockout using retrogradely transported AAVs transiently restores locomotor abilities in both acute and chronic spinal cord injury.
Exp Neurol. 2023 Aug 7:114502. doi: 10.1016/j.expneurol.2023.114502.

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July 2023
DANNER SM, Shepard CT, Hainline C, Shevtsova NA, et al
Spinal control of locomotion before and after spinal cord injury.
Exp Neurol. 2023 Jul 25:114496. doi: 10.1016/j.expneurol.2023.114496.

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LU E, Tang Y, Chen J, Al Mamun A, et al
Stub1 ameliorates ER stress-induced neural cell apoptosis and promotes locomotor recovery through restoring autophagy flux after spinal cord injury.
Exp Neurol. 2023 Jul 24:114495. doi: 10.1016/j.expneurol.2023.114495.

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SCHOLPA NE
Role of DNA methylation during recovery from spinal cord injury with and without beta(2)-adrenergic receptor agonism.
Exp Neurol. 2023 Jul 22:114494. doi: 10.1016/j.expneurol.2023.114494.

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June 2023
AFSHARIPOUR B, Pearcey GEP, Rymer WZ, Sandhu MS, et al
Acute intermittent hypoxia enhances strength, and modulates spatial distribution of muscle activation in persons with chronic incomplete spinal cord injury.
Exp Neurol. 2023 Jun 2:114452. doi: 10.1016/j.expneurol.2023.114452.

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April 2023
HE X, Guo X, Deng B, Kang J, et al
Corrigendum to "HSPA1A ameliorated spinal cord injury in rats by inhibiting apoptosis to exert neuroprotective effects" [Experimental Neurology,Volume 361, March 2023, 114301].
Exp Neurol. 2023 Apr 29:114419. doi: 10.1016/j.expneurol.2023.114419.

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HUANG XX, Zhang QQ, Pang XX, Lin HB, et al
Role of galectin-3 in cardiac dysfunction induced by subarachnoid hemorrhage.
Exp Neurol. 2023 Apr 19:114418. doi: 10.1016/j.expneurol.2023.114418.

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March 2023
LEE SE, Greenough EK, Fonken LK, Gaudet AD, et al
Spinal cord injury in mice amplifies anxiety: A novel light-heat conflict test exposes increased salience of anxiety over heat.
Exp Neurol. 2023 Mar 14:114382. doi: 10.1016/j.expneurol.2023.114382.

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THEO M, Aurelie B, Etienne G, Bertrand Sandrine S, et al
Muscarinic cholinergic modulation of cardiovascular variables in spinal cord injured rats.
Exp Neurol. 2023 Mar 4:114369. doi: 10.1016/j.expneurol.2023.114369.

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February 2023
QUAN X, Yu C, Fan Z, Wu T, et al
Hydralazine plays an immunomodulation role of pro-regeneration in a mouse model of spinal cord injury.
Exp Neurol. 2023 Feb 27:114367. doi: 10.1016/j.expneurol.2023.114367.

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SZYMONIUK M, Mazurek M, Dryla A, Kamieniak P, et al
The application of 3D-bioprinted scaffolds for neuronal regeneration after traumatic spinal cord injury - A systematic review of preclinical in vivo studies.
Exp Neurol. 2023 Feb 27:114366. doi: 10.1016/j.expneurol.2023.114366.

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