Marzieh Fatemian
Overview
Explore the profile of Marzieh Fatemian including associated specialties, affiliations and a list of published articles.
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11
Citations
121
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Recent Articles
1.
Fatemian M, Herigstad M, Croft Q, Formenti F, Cardenas R, Wheeler C, et al.
J Physiol
. 2015 Apr;
594(5):1197-213.
PMID: 25907672
Pulmonary ventilation and pulmonary arterial pressure both rise progressively during the first few hours of human acclimatization to hypoxia. These responses are highly variable between individuals, but the origin of...
2.
Holloway C, Cochlin L, Codreanu I, Bloch E, Fatemian M, Szmigielski C, et al.
FASEB J
. 2011 Jun;
25(9):3130-5.
PMID: 21646398
Hypoxia causes left ventricular dysfunction in the human heart, but the biochemical mechanism is poorly understood. Here, we tested whether short-term normobaric hypoxia leads to changes in cardiac energetics and...
3.
Herigstad M, Fatemian M, Robbins P
Respir Physiol Neurobiol
. 2008 Jul;
162(3):169-75.
PMID: 18602500
Hypoxic exposure lasting a few hours results in an elevation of ventilation and a lowering of end-tidal P(CO2) (P(ET(CO2))) that persists on return to breathing air. We sought to determine...
4.
Liu C, Balanos G, Fatemian M, Smith T, Dorrington K, Robbins P
Exp Physiol
. 2007 Oct;
93(1):104-14.
PMID: 17911356
This study sought: (1) to clarify the effects of hydralazine on both the pulmonary vasculature and respiratory control in euoxia and hypoxia in healthy humans; and (2) to determine whether...
5.
Wood H, Fatemian M, Robbins P
Exp Physiol
. 2006 Oct;
92(1):273-86.
PMID: 17012146
Both exercise and hypoxia increase pulmonary ventilation. However, the combined effects of the two stimuli are more than additive, such that exercise may be considered to potentiate the acute ventilatory...
6.
Donoghue S, Fatemian M, Balanos G, Crosby A, Liu C, OConnor D, et al.
J Appl Physiol (1985)
. 2004 Dec;
98(5):1587-91.
PMID: 15591290
Ventilatory acclimatization to hypoxia (VAH) consists of a progressive increase in ventilation and decrease in end-tidal Pco(2) (Pet(CO(2))). Underlying VAH, there are also increases in the acute ventilatory sensitivities to...
7.
Crosby A, Talbot N, Balanos G, Donoghue S, Fatemian M, Robbins P
J Appl Physiol (1985)
. 2003 Oct;
95(5):1947-54.
PMID: 14555667
The aims of this study were to determine 1) whether ventilatory adaptation occurred over a 5-day exposure to a constant elevation in end-tidal PCO2 and 2) whether such an exposure...
8.
Wood H, Fatemian M, Robbins P
J Physiol
. 2003 Sep;
553(Pt 3):967-74.
PMID: 14514870
The ventilatory response to mild-to-moderate exercise in humans is isocapnic, or 'error-free'. It has been suggested that this response is learned over many repetitions of exercise through the process of...
9.
Fatemian M, Nieuwenhuijs D, Teppema L, Meinesz S, van der Mey A, Dahan A, et al.
J Physiol
. 2003 Apr;
549(Pt 3):965-73.
PMID: 12717011
The acute hypercapnic ventilatory response (AHCVR) arises from both peripheral and central chemoreflexes. In humans, one technique for identifying the separate contributions of these chemoreflexes to AHCVR has been to...
10.
Fatemian M, Gamboa A, Leon-Velarde F, Rivera-Ch M, Palacios J, Robbins P
J Appl Physiol (1985)
. 2003 Feb;
94(3):1279-87; discussion 1253-4.
PMID: 12571150
The ventilatory responses to CO(2) of high-altitude (HA) natives and patients with chronic mountain sickness (CMS) were studied and compared with sea-level (SL) natives living at SL. A multifrequency binary...