Heart-lung interactions measured by electrical impedance tomography.

Stefan Maisch; Stephan H Bohm; Josep Solà; Matthias Göpfert; Jens Kubitz; Hans Peter Richter; Jan Ridder; Alwin E. Goetz; Daniel Reuter

Heart-lung interactions measured by electrical impedance tomography.

Standard

Heart-lung interactions measured by electrical impedance tomography. / Maisch, Stefan; Bohm, Stephan H; Solà, Josep; Göpfert, Matthias; Kubitz, Jens; Richter, Hans Peter; Ridder, Jan; Goetz, Alwin E.; Reuter, Daniel.

In: CRIT CARE MED, Vol. 39, No. 9, 9, 2011, p. 2173-2176.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Maisch, S, Bohm, SH, Solà, J, Göpfert, M, Kubitz, J, Richter, HP, Ridder, J, Goetz, AE & Reuter, D 2011, 'Heart-lung interactions measured by electrical impedance tomography.', CRIT CARE MED, vol. 39, no. 9, 9, pp. 2173-2176. <http://www.ncbi.nlm.nih.gov/pubmed/21666450?dopt=Citation>

APA

Maisch, S., Bohm, S. H., Solà, J., Göpfert, M., Kubitz, J., Richter, H. P., Ridder, J., Goetz, A. E., & Reuter, D. (2011). Heart-lung interactions measured by electrical impedance tomography. CRIT CARE MED, 39(9), 2173-2176. [9]. http://www.ncbi.nlm.nih.gov/pubmed/21666450?dopt=Citation

Vancouver

Maisch S, Bohm SH, Solà J, Göpfert M, Kubitz J, Richter HP et al. Heart-lung interactions measured by electrical impedance tomography. CRIT CARE MED. 2011;39(9):2173-2176. 9.

Bibtex

@article{c0c5e6b77fae4e73b74043dde4a8045d,

title = "Heart-lung interactions measured by electrical impedance tomography.",

abstract = "The clinical value of stroke volume variations to assess intravascular fluid status in critically ill patients is well known. Electrical impedance tomography is a noninvasive monitoring technology that has been primarily used to assess ventilation. We investigated the potential of electrical impedance tomography to measure left ventricular stroke volume variation as an expression of heart-lung interactions. The objective of this study was thus to determine in a set of different hemodynamic conditions whether stroke volume variation measured by electrical impedance tomography correlates with those derived from an aortic ultrasonic flow probe and arterial pulse contour analysis.",

keywords = "Animals, Positive-Pressure Respiration, Respiration, Artificial, Hemodynamics/physiology, Electric Impedance/diagnostic use, Heart/*physiology, Lung/*physiology, Stroke Volume/physiology, Swine/physiology, *Tomography/methods, Animals, Positive-Pressure Respiration, Respiration, Artificial, Hemodynamics/physiology, Electric Impedance/diagnostic use, Heart/*physiology, Lung/*physiology, Stroke Volume/physiology, Swine/physiology, *Tomography/methods",

author = "Stefan Maisch and Bohm, {Stephan H} and Josep Sol{\`a} and Matthias G{\"o}pfert and Jens Kubitz and Richter, {Hans Peter} and Jan Ridder and Goetz, {Alwin E.} and Daniel Reuter",

year = "2011",

language = "English",

volume = "39",

pages = "2173--2176",

journal = "CRIT CARE MED",

issn = "0090-3493",

publisher = "Lippincott Williams and Wilkins",

number = "9",

}

RIS

TY - JOUR

T1 - Heart-lung interactions measured by electrical impedance tomography.

AU - Maisch, Stefan

AU - Bohm, Stephan H

AU - Solà, Josep

AU - Göpfert, Matthias

AU - Kubitz, Jens

AU - Richter, Hans Peter

AU - Ridder, Jan

AU - Goetz, Alwin E.

AU - Reuter, Daniel

PY - 2011

Y1 - 2011

N2 - The clinical value of stroke volume variations to assess intravascular fluid status in critically ill patients is well known. Electrical impedance tomography is a noninvasive monitoring technology that has been primarily used to assess ventilation. We investigated the potential of electrical impedance tomography to measure left ventricular stroke volume variation as an expression of heart-lung interactions. The objective of this study was thus to determine in a set of different hemodynamic conditions whether stroke volume variation measured by electrical impedance tomography correlates with those derived from an aortic ultrasonic flow probe and arterial pulse contour analysis.

AB - The clinical value of stroke volume variations to assess intravascular fluid status in critically ill patients is well known. Electrical impedance tomography is a noninvasive monitoring technology that has been primarily used to assess ventilation. We investigated the potential of electrical impedance tomography to measure left ventricular stroke volume variation as an expression of heart-lung interactions. The objective of this study was thus to determine in a set of different hemodynamic conditions whether stroke volume variation measured by electrical impedance tomography correlates with those derived from an aortic ultrasonic flow probe and arterial pulse contour analysis.

KW - Animals

KW - Positive-Pressure Respiration

KW - Respiration, Artificial

KW - Hemodynamics/physiology

KW - Electric Impedance/diagnostic use

KW - Heart/physiology

KW - Lung/physiology

KW - Stroke Volume/physiology

KW - Swine/physiology

KW - Tomography/methods

KW - Animals

KW - Positive-Pressure Respiration

KW - Respiration, Artificial

KW - Hemodynamics/physiology

KW - Electric Impedance/diagnostic use

KW - Heart/physiology

KW - Lung/physiology

KW - Stroke Volume/physiology

KW - Swine/physiology

KW - Tomography/methods

M3 - SCORING: Journal article

VL - 39

SP - 2173

EP - 2176

JO - CRIT CARE MED

JF - CRIT CARE MED

SN - 0090-3493

IS - 9

M1 - 9

ER -