The effect of right vagus nerve stimulation on focal cerebral ischemia: an experimental study in the rat

References 

1. Beekwilder JP, Beems T. Overview of the clinical applications of vagus nerve stimulation. J Clin Neurophysiol. 2010;27:130–138
2. Ben-Menachem E. Vagus-nerve stimulation for the treatment of epilepsy. Lancet Neurol. 2002;1:477–482
   • Abstract
   • Full Text
   • Full-Text PDF (548 KB)
   • CrossRef
3. Ramani R. Vagus nerve stimulation therapy for seizures. J Neurosurg Anesthesiol. 2008;20:29–35
4. Boon P, Raedt R, de Herdt V, Wyckhuys T, Vonck K. Electrical stimulation for the treatment of epilepsy. Neurotherapeutics. 2009;6:218–227
   • CrossRef
5. Dedeurwaerdere S, Gilby K, Vonck K, et al. Vagus nerve stimulation does not affect spatial memory in fast rats, but has both anti-convulsive and pro-convulsive effects on amygdala-kindled seizures. Neuroscience. 2006;140:1443–1451
   • MEDLINE
   • CrossRef
6. Munana KR, Vitek SM, Tarver WB, et al. Use of vagal nerve stimulation as a treatment for refractory epilepsy in dogs. J Am Vet Med Assoc. 2002;221:977–983
7. Sahin D, Ilbay G, Imal M, Bozdogan O, Ates N. Vagus nerve stimulation suppresses generalized seizure activity and seizure-triggered postictal cardiac rhythm changes in rats. Physiol Res. 2009;58:345–350
8. Sjogren MJ, Hellstrom PT, Jonsson MA, et al. Cognition-enhancing effect of vagus nerve stimulation in patients with Alzheimer’s disease: a pilot study. J Clin Psychiatry. 2002;63:972–980
9. Mauskop A. Vagus nerve stimulation relieves chronic refractory migraine and cluster headaches. Cephalalgia. 2005;25:82–86
   • MEDLINE
   • CrossRef
10. Nahas Z, Teneback C, Chae JH, et al. Serial vagus nerve stimulation functional MRI in treatment-resistant depression. Neuropsychopharmacology. 2007;32:1649–1660
    • CrossRef
11. Marrosu F, Maleci A, Cocco E, et al. Vagal nerve stimulation improves cerebellar tremor and dysphagia in multiple sclerosis. Mult Scler. 2007;13:1200–1202
    • CrossRef
12. Faris PL, Hofbauer RD, Daughters R, et al. De-stabilization of the positive vago-vagal reflex in bulimia nervosa. Physiol Behav. 2008;94:136–153
    • CrossRef
13. Calabresi P, Cupini LM, Centonze D, Pisani F, Bernardi G. Antiepileptic drugs as a possible neuroprotective strategy in brain ischemia. Ann Neurol. 2003;53:693–702
    • MEDLINE
    • CrossRef
14. Meldrum BS. The role of glutamate in epilepsy and other CNS disorders. Neurology. 1994;44:S14–S23
    • MEDLINE
15. Bittigau P, Ikonomidou C. Glutamate in neurologic diseases. J Child Neurol. 1997;12:471–485
16. Hicks TP, Conti F. Amino acids as the source of considerable excitation in cerebral cortex. Can J Physiol Pharmacol. 1996;74:341–361
    • MEDLINE
    • CrossRef
17. Ginsberg MD. Neuroprotection for ischemic stroke: past, present and future. Neuropharmacology. 2008;55:363–389
    • CrossRef
18. Masada T, Itano T, Fujisawa M, et al. Protective effect of vagus nerve stimulation on forebrain ischaemia in gerbil hippocampus. Neuroreport. 1996;7:446–448
    • MEDLINE
    • CrossRef
19. Miyamoto O, Pang J, Sumitani K, et al. Mechanisms of the anti-ischemic effect of vagus nerve stimulation in the gerbil hippocampus. Neuroreport. 2003;14:1971–1974
    • MEDLINE
    • CrossRef
20. Ay I, Lu J, Ay H, Sorensen AG. Vagus nerve stimulation reduces infarct size in rat focal cerebral ischemia. Neurosci Lett. 2009;459:147–151
    • CrossRef
21. Merino JG, Latour LL, An L, et al. Reperfusion half-life: a novel pharmacodynamic measure of thrombolytic activity. Stroke. 2008;39:2148–2150
    • CrossRef
22. Jorgensen HS, Sperling B, Nakayama H, Raaschou HO, Olsen TS. Spontaneous reperfusion of cerebral infarcts in patients with acute stroke: incidence, time course, and clinical outcome in the Copenhagen Stroke Study. Arch Neurol. 1994;51:865–873
    • MEDLINE
23. Durduran T, Burnett MG, Yu G, et al. Spatiotemporal quantification of cerebral blood flow during functional activation in rat somatosensory cortex using laser-speckle flowmetry. J Cereb Blood Flow Metab. 2004;24:518–525
24. Shimazu T, Inoue I, Araki N, et al. A peroxisome proliferator-activated receptor-γ agonist reduces infarct size in transient but not in permanent ischemia. Stroke. 2005;36:353–359
    • CrossRef
25. Luckl J, Keating J, Greenberg JH. Alpha-chloralose is a suitable anesthetic for chronic focal cerebral ischemia studies in the rat: a comparative study. Brain Res. 2008;1191:157–167
    • CrossRef
26. Markgraf CG, Kraydieh S, Prado R, et al. Comparative histopathologic consequences of photothrombotic occlusion of the distal middle cerebral artery in Sprague-Dawley and Wistar rats. Stroke. 1993;24:286–292
    • MEDLINE
    • CrossRef
27. Smith DC, Modglin AA, Roosevelt RW, et al. Electrical stimulation of the vagus nerve enhances cognitive and motor recovery following moderate fluid percussion injury in the rat. J Neurotrauma. 2005;22:1485–1502
28. Briers JD. Laser Doppler, speckle and related techniques for blood perfusion mapping and imaging. Physiol Meas. 2001;22:R35–R66
    • MEDLINE
    • CrossRef
29. Dunn AK, Bolay H, Moskowitz MA, Boas DA. Dynamic imaging of cerebral blood flow using laser speckle. J Cereb Blood Flow Metab. 2001;21:195–201
30. Luckl J, Baker W, Sun ZH, et al. The biological effect of contralateral forepaw stimulation in rat focal cerebral ischemia: a multispectral optical imaging study. Front Neuroenergetics. 2010;2:
31. Zhou C, Shimazu T, Durduran T, et al. Acute functional recovery of cerebral blood flow after forebrain ischemia in rat. J Cereb Blood Flow Metab. 2008;28:1275–1284
32. Binnie CD. Vagus nerve stimulation for epilepsy: a review. Seizure. 2000;9:161–169
    • Abstract
    • Full-Text PDF (132 KB)
    • CrossRef
33. Sackeim HA, Rush AJ, George MS, et al. Vagus nerve stimulation (VNS) for treatment-resistant depression: efficacy, side effects, and predictors of outcome. Neuropsychopharmacology. 2001;25:713–728
    • CrossRef
34. De Ryck M, Van RJ, Borgers M, Wauquier A, Janssen PA. Photochemical stroke model: flunarizine prevents sensorimotor deficits after neocortical infarcts in rats. Stroke. 1989;20:1383–1390
    • MEDLINE
    • CrossRef
35. Luckl J, Keating J, Greenberg JH. Alpha-chloralose is a suitable anesthetic for chronic focal cerebral ischemia studies in the rat: A comparative study. Brain Res. 2007;1191:157–167
    • CrossRef
36. Abe T, Kunz A, Shimamura M, et al. The neuroprotective effect of prostaglandin E2 EP1 receptor inhibition has a wide therapeutic window, is sustained in time and is not sexually dimorphic. J Cereb Blood Flow Metab. 2009;29:66–72
37. Campbell CA, Barone FC, Benham CD, et al. Characterisation of SB-221420-A—a neuronal Ca(2+) and Na(+) channel antagonist in experimental models of stroke. Eur J Pharmacol. 2000;401:419–428
    • MEDLINE
    • CrossRef
38. Johnson MP, McCarty DR, Velayo NL, et al. MDL 101,002, a free radical spin trap, is efficacious in permanent and transient focal ischemia models. Life Sci. 1998;63:241–253
    • MEDLINE
    • CrossRef
39. Nagel S, Papadakis M, Chen R, et al. Neuroprotection by dimethyloxalylglycine following permanent and transient focal cerebral ischemia in rats. J Cereb Blood Flow Metab. 2011;31:132–143
40. Berger C, Stauder A, Xia F, Sommer C, Schwab S. Neuroprotection and glutamate attenuation by acetylsalicylic acid in temporary but not in permanent cerebral ischemia. Exp Neurol. 2008;210:543–548
    • CrossRef
41. Britton P, Lu XC, Laskosky MS, Tortella FC. Dextromethorphan protects against cerebral injury following transient, but not permanent, focal ischemia in rats. Life Sci. 1997;60:1729–1740
    • MEDLINE
    • CrossRef
42. Weng YC, Kriz J. Differential neuroprotective effects of a minocycline-based drug cocktail in transient and permanent focal cerebral ischemia. Exp Neurol. 2007;204:433–442
    • MEDLINE
    • CrossRef
43. Hossmann KA. Pathophysiological basis of translational stroke research. Folia Neuropathol. 2009;47:213–227
44. Aronowski J, Strong R, Grotta JC. Reperfusion injury: demonstration of brain damage produced by reperfusion after transient focal ischemia in rats. J Cereb Blood Flow Metab. 1997;17:1048–1056
45. Prado R, Watson BD, Zhao W, et al. L-arginine does not improve cortical perfusion or histopathological outcome in spontaneously hypertensive rats subjected to distal middle cerebral artery photothrombotic occlusion. J Cereb Blood Flow Metab. 1996;16:612–622
46. Yao H, Ginsberg MD, Watson BD, et al. Failure of MK-801 to reduce infarct volume in thrombotic middle cerebral artery occlusion in rats. Stroke. 1993;24:864–870
    • MEDLINE
    • CrossRef
47. Kitayama J, Kitazono T, Yao H, et al. Inhibition of Na+/H+ exchanger reduces infarct volume of focal cerebral ischemia in rats. Brain Res. 2001;922:223–228
    • MEDLINE
    • CrossRef
48. Takamatsu H, Tsukada H, Kakiuchi T, Tatsumi M, Umemura K. Changes in local cerebral blood flow in photochemically induced thrombotic occlusion model in rats. Eur J Pharmacol. 2000;398:375–379
    • MEDLINE
    • CrossRef
49. Henry TR, Votaw JR, Pennell PB, et al. Acute blood flow changes and efficacy of vagus nerve stimulation in partial epilepsy. Neurology. 1999;52:1166–1173
    • MEDLINE
    • CrossRef
50. Conway CR, Chibnall JT, Tait RC. Vagus nerve stimulation for depression: a case of a broken lead, depression relapse, revision surgery, and restoration of patient response. Brain Stimul. 2008;1:227–228
    • CrossRef
51. Ben-Menachem E, Hamberger A, Hedner T, et al. Effects of vagus nerve stimulation on amino acids and other metabolites in the CSF of patients with partial seizures. Epilepsy Res. 1995;20:221–227
    • Abstract
    • Full-Text PDF (473 KB)
    • CrossRef
52. Neese SL, Sherill LK, Tan AA, et al. Vagus nerve stimulation may protect GABAergic neurons following traumatic brain injury in rats: An immunocytochemical study. Brain Res. 2007;1128:157–163
    • MEDLINE
    • CrossRef
53. Borovikova LV, Ivanova S, Zhang M, et al. Vagus nerve stimulation attenuates the systemic inflammatory response to endotoxin. Nature. 2000;405:458–462
    • MEDLINE
    • CrossRef
54. Zagon A, Kemeny AA. Slow hyperpolarization in cortical neurons: a possible mechanism behind vagus nerve simulation therapy for refractory epilepsy?. Epilepsia. 2000;41:1382–1389
    • MEDLINE
    • CrossRef
55. Schiene K, Bruehl C, Zilles K, et al. Neuronal hyperexcitability and reduction of GABAA-receptor expression in the surround of cerebral photothrombosis. J Cereb Blood Flow Metab. 1996;16:906–914
56. Follesa P, Biggio F, Gorini G, et al. Vagus nerve stimulation increases norepinephrine concentration and the gene expression of BDNF and bFGF in the rat brain. Brain Res. 2007;1179:28–34
    • CrossRef
57. Schabitz WR, Schwab S, Spranger M, Hacke W. Intraventricular brain-derived neurotrophic factor reduces infarct size after focal cerebral ischemia in rats. J Cereb Blood Flow Metab. 1997;17:500–506
58. Endres M, Fan G, Hirt L, et al. Ischemic brain damage in mice after selectively modifying BDNF or NT4 gene expression. J Cereb Blood Flow Metab. 2000;20:139–144
59. Fiumelli H, Jabaudon D, Magistretti PJ, Martin JL. BDNF stimulates expression, activity and release of tissue-type plasminogen activator in mouse cortical neurons. Eur J Neurosci. 1999;11:1639–1646
    • CrossRef
60. Anonymous . Stroke—1989: recommendations on stroke prevention, diagnosis, and therapy. Report of the WHO Task Force on Stroke and other Cerebrovascular Disorders. Stroke. 1989;20:1407–1431
    • MEDLINE
    • CrossRef
61. Valtysson J, Hillered L, Andine P, Hagberg H, Persson L. Neuropathological endpoints in experimental stroke pharmacotherapy: the importance of both early and late evaluation. Acta Neurochir (Wien ). 1994;129:58–63
    • MEDLINE
    • CrossRef
62. Kraus T, Hosl K, Kiess O, et al. BOLD fMRI deactivation of limbic and temporal brain structures and mood enhancing effect by transcutaneous vagus nerve stimulation. J Neural Transm. 2007;114:1485–1493