Detailed assessment of the hemodynamic response to psychosocial stress using real‐time MRI

To demonstrate that combining the Montreal Imaging Stress Task (MIST) with real‐time cardiac magnetic resonance imaging (MRI) allows detailed assessment of the cardiovascular mental stress response.

[1]  Vivek Muthurangu,et al.  Assessing vascular response to exercise using a combination of real‐time spiral phase contrast MR and noninvasive blood pressure measurements , 2010, Journal of magnetic resonance imaging : JMRI.

[2]  A. Steptoe,et al.  Greater Cardiovascular Responses to Laboratory Mental Stress Are Associated With Poor Subsequent Cardiovascular Risk Status: A Meta-Analysis of Prospective Evidence , 2010, Hypertension.

[3]  Vivek Muthurangu,et al.  Feasibility and reproducibility of biventricular volumetric assessment of cardiac function during exercise using real‐time radial k‐t SENSE magnetic resonance imaging , 2009, Journal of magnetic resonance imaging : JMRI.

[4]  Vivek Muthurangu,et al.  Real-time assessment of right and left ventricular volumes and function in patients with congenital heart disease by using high spatiotemporal resolution radial k-t SENSE. , 2008, Radiology.

[5]  N. Stergiopulos,et al.  Simple and accurate way for estimating total and segmental arterial compliance: The pulse pressure method , 1994, Annals of Biomedical Engineering.

[6]  K. Dedovic,et al.  The Montreal Imaging Stress Task: using functional imaging to investigate the effects of perceiving and processing psychosocial stress in the human brain. , 2005, Journal of psychiatry & neuroscience : JPN.

[7]  Andrew Steptoe,et al.  Effort–Reward Imbalance, Overcommitment, and Measures of Cortisol and Blood Pressure Over the Working Day , 2004, Psychosomatic medicine.

[8]  S. Dickerson,et al.  Acute stressors and cortisol responses: a theoretical integration and synthesis of laboratory research. , 2004, Psychological bulletin.

[9]  M. Marmot,et al.  When reciprocity fails: effort–reward imbalance in relation to coronary heart disease and health functioning within the Whitehall II study , 2002, Occupational and environmental medicine.

[10]  P Boesiger,et al.  Quantitative abdominal aortic flow measurements at controlled levels of ergometer exercise. , 1999, Magnetic resonance imaging.

[11]  J Siegrist,et al.  Two alternative job stress models and the risk of coronary heart disease. , 1998, American journal of public health.

[12]  D. Ely,et al.  Physiological and neuroendocrine correlates of social position in normotensive and hypertensive rat colonies. , 1997, Acta physiologica Scandinavica. Supplementum.

[13]  P. Mormède Genetic influences on the responses to psychosocial challenges in rats. , 1997, Acta physiologica Scandinavica. Supplementum.

[14]  R. Mccoll,et al.  Assessment of coronary arterial flow and flow reserve in humans with magnetic resonance imaging. , 1996, Circulation.

[15]  J. Lawler,et al.  The borderline hypertensive rat (BHR) as a model for environmentally-induced hypertension: A review and update , 1992, Neuroscience & Biobehavioral Reviews.

[16]  W. Kearns,et al.  Potassium infusion attenuates avoidance-saline hypertension in dogs. , 1983, Hypertension.

[17]  J. Lawler,et al.  Effects of Stress on Blood Pressure and Cardiac Pathology in Rats with Borderline Hypertension , 1981, Hypertension.