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Items: 1 to 20 of 107

1.

Regulation of Regional Cerebral Blood Flow During Graded Reflex-Mediated Sympathetic Activation via Lower Body Negative Pressure.

Kaur J, Vranish JR, Barbosa TC, Washio T, Young BE, Stephens BY, Brothers RM, Ogoh S, Fadel PJ.

J Appl Physiol (1985). 2018 Sep 6. doi: 10.1152/japplphysiol.00623.2018. [Epub ahead of print]

PMID:
30188801
2.

Blood flow in internal carotid and vertebral arteries during graded lower body negative pressure in humans.

Ogoh S, Sato K, Okazaki K, Miyamoto T, Hirasawa A, Sadamoto T, Shibasaki M.

Exp Physiol. 2015 Mar;100(3):259-66. doi: 10.1113/expphysiol.2014.083964. Epub 2015 Feb 9.

3.

Impact of transient hypotension on regional cerebral blood flow in humans.

Lewis NC, Smith KJ, Bain AR, Wildfong KW, Numan T, Ainslie PN.

Clin Sci (Lond). 2015 Jul;129(2):169-78. doi: 10.1042/CS20140751.

PMID:
25697830
4.
5.

Cerebral versus systemic hemodynamics during graded orthostatic stress in humans.

Levine BD, Giller CA, Lane LD, Buckey JC, Blomqvist CG.

Circulation. 1994 Jul;90(1):298-306.

PMID:
8026012
6.

Blunted shear-mediated dilation of the internal but not common carotid artery in response to lower body negative pressure.

Iwamoto E, Bock JM, Casey DP.

J Appl Physiol (1985). 2018 May 1;124(5):1326-1332. doi: 10.1152/japplphysiol.01011.2017. Epub 2018 Feb 15.

7.

Cerebrovascular response to the cold pressor test - the critical role of carbon dioxide.

Tymko MM, Kerstens TP, Wildfong KW, Ainslie PN.

Exp Physiol. 2017 Dec 1;102(12):1647-1660. doi: 10.1113/EP086585. Epub 2017 Oct 15.

PMID:
28925529
8.

Differential blood flow responses to CO₂ in human internal and external carotid and vertebral arteries.

Sato K, Sadamoto T, Hirasawa A, Oue A, Subudhi AW, Miyazawa T, Ogoh S.

J Physiol. 2012 Jul 15;590(14):3277-90. doi: 10.1113/jphysiol.2012.230425. Epub 2012 Apr 23.

9.

Regional brain blood flow in man during acute changes in arterial blood gases.

Willie CK, Macleod DB, Shaw AD, Smith KJ, Tzeng YC, Eves ND, Ikeda K, Graham J, Lewis NC, Day TA, Ainslie PN.

J Physiol. 2012 Jul 15;590(14):3261-75. doi: 10.1113/jphysiol.2012.228551. Epub 2012 Apr 10.

10.

The effects of superimposed tilt and lower body negative pressure on anterior and posterior cerebral circulations.

Tymko MM, Rickards CA, Skow RJ, Ingram-Cotton NC, Howatt MK, Day TA.

Physiol Rep. 2016 Sep;4(17). pii: e12957. doi: 10.14814/phy2.12957.

11.

Associations between changes in precerebral blood flow and cerebral oximetry in the lower body negative pressure model of hypovolemia in healthy volunteers.

Hisdal J, Landsverk SA, Hoff IE, Hagen OA, Kirkebøen KA, Høiseth LØ.

PLoS One. 2019 Jun 28;14(6):e0219154. doi: 10.1371/journal.pone.0219154. eCollection 2019.

12.

Acute reduction in posterior cerebral blood flow following isometric handgrip exercise is augmented by lower body negative pressure.

Washio T, Vranish JR, Kaur J, Young BE, Katayama K, Fadel PJ, Ogoh S.

Physiol Rep. 2018 Oct;6(20):e13886. doi: 10.14814/phy2.13886.

13.

MRI measures of middle cerebral artery diameter in conscious humans during simulated orthostasis.

Serrador JM, Picot PA, Rutt BK, Shoemaker JK, Bondar RL.

Stroke. 2000 Jul;31(7):1672-8.

PMID:
10884472
14.

Effect of acute hypoxia on blood flow in vertebral and internal carotid arteries.

Ogoh S, Sato K, Nakahara H, Okazaki K, Subudhi AW, Miyamoto T.

Exp Physiol. 2013 Mar;98(3):692-8. doi: 10.1113/expphysiol.2012.068015. Epub 2012 Nov 9.

15.

Internal carotid, external carotid and vertebral artery blood flow responses to 3 days of head-out dry immersion.

Ogoh S, Hirasawa A, de Abreu S, Denise P, Normand H.

Exp Physiol. 2017 Oct 1;102(10):1278-1287. doi: 10.1113/EP086507. Epub 2017 Aug 24.

PMID:
28744943
16.

Cerebral blood flow changes during tilt table testing in healthy volunteers, as assessed by Doppler imaging of the carotid and vertebral arteries.

van Campen CLMC, Verheugt FWA, Visser FC.

Clin Neurophysiol Pract. 2018 Mar 23;3:91-95. doi: 10.1016/j.cnp.2018.02.004. eCollection 2018.

17.

The distribution of blood flow in the carotid and vertebral arteries during dynamic exercise in humans.

Sato K, Ogoh S, Hirasawa A, Oue A, Sadamoto T.

J Physiol. 2011 Jun 1;589(Pt 11):2847-56. doi: 10.1113/jphysiol.2010.204461. Epub 2011 Mar 28.

18.

Hyperthermia modulates regional differences in cerebral blood flow to changes in CO2.

Ogoh S, Sato K, Okazaki K, Miyamoto T, Hirasawa A, Shibasaki M.

J Appl Physiol (1985). 2014 Jul 1;117(1):46-52. doi: 10.1152/japplphysiol.01078.2013. Epub 2014 May 1.

19.

Brain Perfusion and Arterial Blood Flow Velocity During Prolonged Body Tilting.

Montero D, Rauber S.

Aerosp Med Hum Perform. 2016 Aug;87(8):682-7. doi: 10.3357/AMHP.4546.2016.

PMID:
27634602
20.

The role of cerebral oxygenation and regional cerebral blood flow on tolerance to central hypovolemia.

Kay VL, Rickards CA.

Am J Physiol Regul Integr Comp Physiol. 2016 Feb 15;310(4):R375-83. doi: 10.1152/ajpregu.00367.2015. Epub 2015 Dec 16.

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