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Items: 1 to 20 of 92

1.

Post-ischemic hyperglycemia exacerbates the development of cerebral ischemic neuronal damage through the cerebral sodium-glucose transporter.

Yamazaki Y, Harada S, Tokuyama S.

Brain Res. 2012 Dec 13;1489:113-20. doi: 10.1016/j.brainres.2012.10.020.

PMID:
23078759
2.

Neuroprotective effect through the cerebral sodium-glucose transporter on the development of ischemic damage in global ischemia.

Harada S, Yamazaki Y, Nishioka H, Tokuyama S.

Brain Res. 2013 Dec 6;1541:61-8. doi: 10.1016/j.brainres.2013.09.041.

PMID:
24134951
3.

Activation of cerebral sodium-glucose transporter type 1 function mediated by post-ischemic hyperglycemia exacerbates the development of cerebral ischemia.

Yamazaki Y, Ogihara S, Harada S, Tokuyama S.

Neuroscience. 2015 Dec 3;310:674-85. doi: 10.1016/j.neuroscience.2015.10.005.

PMID:
26454021
4.

Sodium-glucose transporter type 3-mediated neuroprotective effect of acetylcholine suppresses the development of cerebral ischemic neuronal damage.

Yamazaki Y, Harada S, Tokuyama S.

Neuroscience. 2014 Jun 6;269:134-42. doi: 10.1016/j.neuroscience.2014.03.046.

PMID:
24699226
5.

Relationship between cerebral sodium-glucose transporter and hyperglycemia in cerebral ischemia.

Yamazaki Y, Harada S, Tokuyama S.

Neurosci Lett. 2015 Sep 14;604:134-9. doi: 10.1016/j.neulet.2015.08.004.

PMID:
26254165
6.

Effect of orexin-A on post-ischemic glucose intolerance and neuronal damage.

Harada S, Fujita-Hamabe W, Tokuyama S.

J Pharmacol Sci. 2011;115(2):155-63.

7.

The development of glucose intolerance after focal cerebral ischemia participates in subsequent neuronal damage.

Harada S, Fujita WH, Shichi K, Tokuyama S.

Brain Res. 2009 Jul 7;1279:174-81. doi: 10.1016/j.brainres.2009.05.014.

PMID:
19445903
8.

The importance of regulation of blood glucose levels through activation of peripheral 5'-AMP-activated protein kinase on ischemic neuronal damage.

Harada S, Fujita-Hamabe W, Tokuyama S.

Brain Res. 2010 Sep 10;1351:254-63. doi: 10.1016/j.brainres.2010.06.052.

PMID:
20599814
9.

[Effectiveness of metformin in prevention of development of hyperglycemia and neuronal damage caused by ischemic stress].

Fujita-Hamabe W, Harada S, Tokuyama S.

Yakugaku Zasshi. 2011 Apr;131(4):533-8. Review. Japanese.

11.

Orexin-A suppresses postischemic glucose intolerance and neuronal damage through hypothalamic brain-derived neurotrophic factor.

Harada S, Yamazaki Y, Tokuyama S.

J Pharmacol Exp Ther. 2013 Jan;344(1):276-85. doi: 10.1124/jpet.112.199604.

12.

Honokiol suppresses the development of post-ischemic glucose intolerance and neuronal damage in mice.

Harada S, Kishimoto M, Kobayashi M, Nakamoto K, Fujita-Hamabe W, Chen HH, Chan MH, Tokuyama S.

J Nat Med. 2012 Oct;66(4):591-9. doi: 10.1007/s11418-011-0623-x.

PMID:
22261858
13.

Sodium transport through the cerebral sodium-glucose transporter exacerbates neuron damage during cerebral ischaemia.

Yamazaki Y, Harada S, Wada T, Yoshida S, Tokuyama S.

J Pharm Pharmacol. 2016 Jul;68(7):922-31. doi: 10.1111/jphp.12571.

PMID:
27139580
14.

Morinda citrifolia fruit juice prevents ischemic neuronal damage through suppression of the development of post-ischemic glucose intolerance.

Harada S, Fujita-Hamabe W, Kamiya K, Mizushina Y, Satake T, Tokuyama S.

J Nat Med. 2010 Oct;64(4):468-73. doi: 10.1007/s11418-010-0437-2.

PMID:
20574728
15.
17.

Involvement of matrix metalloproteinase-mediated proteolysis of neural cell adhesion molecule in the development of cerebral ischemic neuronal damage.

Shichi K, Fujita-Hamabe W, Harada S, Mizoguchi H, Yamada K, Nabeshima T, Tokuyama S.

J Pharmacol Exp Ther. 2011 Aug;338(2):701-10. doi: 10.1124/jpet.110.178079.

18.

The glucose paradox of cerebral ischemia: evidence for corticosterone involvement.

Payne RS, Tseng MT, Schurr A.

Brain Res. 2003 May 2;971(1):9-17.

PMID:
12691832
19.

Blood glucose and ischemic brain damage.

Islam N, Aftabuddin M, Moriwaki A, Koirala TR, Hori Y.

Indian J Pathol Microbiol. 1998 Jan;41(1):15-22.

PMID:
9581071
20.
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