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Items: 1 to 20 of 170

1.

Subarachnoid hemorrhage induces enhanced expression of thromboxane A2 receptors in rat cerebral arteries.

Ansar S, Larsen C, Maddahi A, Edvinsson L.

Brain Res. 2010 Feb 26;1316:163-72. doi: 10.1016/j.brainres.2009.12.031. Epub 2009 Dec 22.

PMID:
20026315
2.

ERK1/2 inhibition attenuates cerebral blood flow reduction and abolishes ET(B) and 5-HT(1B) receptor upregulation after subarachnoid hemorrhage in rat.

Beg SA, Hansen-Schwartz JA, Vikman PJ, Xu CB, Edvinsson LI.

J Cereb Blood Flow Metab. 2006 Jun;26(6):846-56.

PMID:
16251886
3.

Cerebrovascular ETB, 5-HT1B, and AT1 receptor upregulation correlates with reduction in regional CBF after subarachnoid hemorrhage.

Ansar S, Vikman P, Nielsen M, Edvinsson L.

Am J Physiol Heart Circ Physiol. 2007 Dec;293(6):H3750-8. Epub 2007 Sep 14.

PMID:
17873013
4.

Subarachnoid hemorrhage enhances endothelin receptor expression and function in rat cerebral arteries.

Hansen-Schwartz J, Hoel NL, Zhou M, Xu CB, Svendgaard NA, Edvinsson L.

Neurosurgery. 2003 May;52(5):1188-94; 1194-5.

PMID:
12699564
5.

Transcriptional down-regulation of thromboxane A(2) receptor expression via activation of MAPK ERK1/2, p38/NF-kappaB pathways.

Zhang W, Zhang Y, Edvinsson L, Xu CB.

J Vasc Res. 2009;46(2):162-74. doi: 10.1159/000153247. Epub 2008 Sep 4.

7.

Experimental subarachnoid hemorrhage: cerebral blood flow and brain metabolism during the acute phase in three different models in the rat.

Prunell GF, Mathiesen T, Svendgaard NA.

Neurosurgery. 2004 Feb;54(2):426-36; discussion 436-7.

PMID:
14744290
9.

Protein kinase C inhibition prevents upregulation of vascular ET(B) and 5-HT(1B) receptors and reverses cerebral blood flow reduction after subarachnoid haemorrhage in rats.

Beg SS, Hansen-Schwartz JA, Vikman PJ, Xu CB, Edvinsson LI.

J Cereb Blood Flow Metab. 2007 Jan;27(1):21-32. Epub 2006 May 17.

PMID:
16736053
10.

Early events triggering delayed vasoconstrictor receptor upregulation and cerebral ischemia after subarachnoid hemorrhage.

Povlsen GK, Johansson SE, Larsen CC, Samraj AK, Edvinsson L.

BMC Neurosci. 2013 Mar 15;14:34. doi: 10.1186/1471-2202-14-34.

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13.

Thromboxane A2 (TP) receptor in the non-pregnant porcine myometrium and its role in regulation of spontaneous contractile activity.

Cao J, Wakatsuki A, Yoshida M, Kitazawa T, Taneike T.

Eur J Pharmacol. 2004 Feb 6;485(1-3):317-27.

PMID:
14757156
14.

Prostaglandin D(2) induces contraction via thromboxane A(2) receptor in rat liver myofibroblasts.

Maruyama T, Murata T, Ayabe S, Hori M, Ozaki H.

Eur J Pharmacol. 2008 Sep 4;591(1-3):237-42. doi: 10.1016/j.ejphar.2008.06.037. Epub 2008 Jun 14.

PMID:
18586024
15.

Enhanced airway smooth muscle cell thromboxane receptor signaling via activation of JNK MAPK and extracellular calcium influx.

Lei Y, Cao Y, Zhang Y, Edvinsson L, Xu CB.

Eur J Pharmacol. 2011 Jan 15;650(2-3):629-38. doi: 10.1016/j.ejphar.2010.10.038. Epub 2010 Oct 29.

PMID:
21036122
17.
18.

Subarachnoid hemorrhage impairs cerebral blood flow response to nitric oxide but not to cyclic GMP in large cerebral arteries.

Yamamoto S, Nishizawa S, Yokoyama T, Ryu H, Uemura K.

Brain Res. 1997 May 16;757(1):1-9.

PMID:
9200492
19.
20.

Up-regulation of G-protein-coupled receptors for endothelin and thromboxane by lipid-soluble smoke particles in renal artery of rat.

Xie YH, Wang SW, Zhang Y, Edvinsson L, Xu CB.

Basic Clin Pharmacol Toxicol. 2010 Oct;107(4):803-12. doi: 10.1111/j.1742-7843.2010.00585.x.

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