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65 related items for PubMed ID: 22534339
41. Canine model of ischemic stroke with permanent middle cerebral artery occlusion: clinical and histopathological findings. Kang BT, Lee JH, Jung DI, Park C, Gu SH, Jeon HW, Jang DP, Lim CY, Quan FS, Kim YB, Cho ZH, Woo EJ, Park HM. J Vet Sci; 2007 Dec; 8(4):369-76. PubMed ID: 17993751 [Abstract] [Full Text] [Related]
42. Minimally invasive neuroradiologic model of preclinical transient middle cerebral artery occlusion in canines. Rink C, Christoforidis G, Abduljalil A, Kontzialis M, Bergdall V, Roy S, Khanna S, Slivka A, Knopp M, Sen CK. Proc Natl Acad Sci U S A; 2008 Sep 16; 105(37):14100-5. PubMed ID: 18779582 [Abstract] [Full Text] [Related]
43. Mathematical modelling of an ischemic stroke: an integrative approach. Dronne MA, Boissel JP, Grenier E, Gilquin H, Cucherat M, Hommel M, Barbier E, Bricca G. Acta Biotheor; 2004 Sep 16; 52(4):255-72. PubMed ID: 15520533 [Abstract] [Full Text] [Related]
44. Appearance of cerebral infarct fogging on CT perfusion. Braileanu M, Weinberg BD, Hu R, Hoch MJ. Radiol Case Rep; 2019 Jul 16; 14(7):889-893. PubMed ID: 31193262 [Abstract] [Full Text] [Related]
45. Presence of activated microglia in a high-signal lesion on T1-weighted MR images: a biopsy sample re-examined. Shan DE, Pan HC, Ho DM, Teng MM, Chang C. AJNR Am J Neuroradiol; 2007 Apr 16; 28(4):602. PubMed ID: 17416803 [No Abstract] [Full Text] [Related]
46. Plasminogen deficiency causes reduced angiogenesis and behavioral recovery after stroke in mice. Fang J, Chopp M, Xin H, Zhang L, Wang F, Golembieski W, Zhang ZG, He L, Liu Z. J Cereb Blood Flow Metab; 2021 Oct 16; 41(10):2583-2592. PubMed ID: 33853408 [Abstract] [Full Text] [Related]
47. Multimodal image registration and connectivity analysis for integration of connectomic data from microscopy to MRI. Goubran M, Leuze C, Hsueh B, Aswendt M, Ye L, Tian Q, Cheng MY, Crow A, Steinberg GK, McNab JA, Deisseroth K, Zeineh M. Nat Commun; 2019 Dec 03; 10(1):5504. PubMed ID: 31796741 [Abstract] [Full Text] [Related]
48. Altered regional brain T2 relaxation times in individuals with chronic orofacial neuropathic pain. Alshelh Z, Di Pietro F, Mills EP, Vickers ER, Peck CC, Murray GM, Henderson LA. Neuroimage Clin; 2018 Dec 03; 19():167-173. PubMed ID: 30035014 [Abstract] [Full Text] [Related]
49. In Vivo Molecular MRI of ICAM-1 Expression on Endothelium and Leukocytes from Subacute to Chronic Stages After Experimental Stroke. Deddens LH, van Tilborg GAF, van der Marel K, Hunt H, van der Toorn A, Viergever MA, de Vries HE, Dijkhuizen RM. Transl Stroke Res; 2017 May 16; 8(5):440-8. PubMed ID: 28509283 [Abstract] [Full Text] [Related]
50. Magnetic resonance imaging of local and remote vascular remodelling after experimental stroke. Yanev P, Seevinck PR, Rudrapatna US, Bouts MJ, van der Toorn A, Gertz K, Kronenberg G, Endres M, van Tilborg GA, Dijkhuizen RM. J Cereb Blood Flow Metab; 2017 Aug 16; 37(8):2768-2779. PubMed ID: 27798270 [Abstract] [Full Text] [Related]
51. A reproducible and translatable model of focal ischemia in the visual cortex of infant and adult marmoset monkeys. Teo L, Bourne JA. Brain Pathol; 2014 Sep 16; 24(5):459-74. PubMed ID: 25469561 [Abstract] [Full Text] [Related]
52. Temporal dynamics of glyoxalase 1 in secondary neuronal injury. Pieroh P, Koch M, Wagner DC, Boltze J, Ehrlich A, Ghadban C, Hobusch C, Birkenmeier G, Dehghani F. PLoS One; 2014 Sep 16; 9(2):e87364. PubMed ID: 24498315 [Abstract] [Full Text] [Related]
53. In vitro and in vivo models of cerebral ischemia show discrepancy in therapeutic effects of M2 macrophages. Desestret V, Riou A, Chauveau F, Cho TH, Devillard E, Marinescu M, Ferrera R, Rey C, Chanal M, Angoulvant D, Honnorat J, Nighoghossian N, Berthezène Y, Nataf S, Wiart M. PLoS One; 2013 Sep 16; 8(6):e67063. PubMed ID: 23825621 [Abstract] [Full Text] [Related]
54. Changes in T2 relaxation time after stroke reflect clearing processes. Wagner DC, Deten A, Härtig W, Boltze J, Kranz A. Neuroimage; 2012 Jul 16; 61(4):780-5. PubMed ID: 22534339 [Abstract] [Full Text] [Related]
55. Rodent stroke induced by photochemical occlusion of proximal middle cerebral artery: evolution monitored with MR imaging and histopathology. Chen F, Suzuki Y, Nagai N, Jin L, Yu J, Wang H, Marchal G, Ni Y. Eur J Radiol; 2007 Jul 16; 63(1):68-75. PubMed ID: 17337149 [Abstract] [Full Text] [Related]
56. Quantified T1 as an adjunct to apparent diffusion coefficient for early infarct detection: a high-field magnetic resonance study in a rat stroke model. Kaur J, Tuor UI, Zhao Z, Petersen J, Jin AY, Barber PA. Int J Stroke; 2009 Jun 16; 4(3):159-68. PubMed ID: 19659815 [Abstract] [Full Text] [Related]
57. Early T1- and T2-weighted MRI signatures of transient and permanent middle cerebral artery occlusion in a murine stroke model studied at 9.4T. Barber PA, Hoyte L, Kirk D, Foniok T, Buchan A, Tuor U. Neurosci Lett; 2005 Nov 04; 388(1):54-9. PubMed ID: 16055267 [Abstract] [Full Text] [Related]
58. Normalization of T2 relaxation time and apparent diffusion coefficient in relation to the inflammatory changes in the substantia nigra of rats with focal cerebral ischemia. Yang YM, Li CC, Yin le K, Feng X. Acta Radiol; 2015 Jul 04; 56(7):837-43. PubMed ID: 25260416 [Abstract] [Full Text] [Related]
59. Changes in T2 relaxation time after stroke reflect clearing processes. Wagner DC, Deten A, Härtig W, Boltze J, Kranz A. Neuroimage; 2012 Jul 16; 61(4):780-5. PubMed ID: 22534339 [Abstract] [Full Text] [Related]
60. Rodent stroke induced by photochemical occlusion of proximal middle cerebral artery: evolution monitored with MR imaging and histopathology. Chen F, Suzuki Y, Nagai N, Jin L, Yu J, Wang H, Marchal G, Ni Y. Eur J Radiol; 2007 Jul 16; 63(1):68-75. PubMed ID: 17337149 [Abstract] [Full Text] [Related] Page: [Previous] [Next] [New Search]