Electrical impedance tomography: the holy grail of ventilation and perfusion monitoring?
about
Clinical review: Lung imaging in acute respiratory distress syndrome patients--an update.Remote monitoring of breathing dynamics using infrared thermography.Chest electrical impedance tomography examination, data analysis, terminology, clinical use and recommendations: consensus statement of the TRanslational EIT developmeNt stuDy group.Brazilian recommendations of mechanical ventilation 2013. Part I.Automatic protective ventilation using the ARDSNet protocol with the additional monitoring of electrical impedance tomography.Structural-functional lung imaging using a combined CT-EIT and a Discrete Cosine Transformation reconstruction method.Pressure- versus volume-limited sustained inflations at resuscitation of premature newborn lambs.Pressure-limited sustained inflation vs. gradual tidal inflations for resuscitation in preterm lambs.Detection and Classification of Measurement Errors in Bioimpedance SpectroscopyInfluence of different electrode belt positions on electrical impedance tomography imaging of regional ventilation: a prospective observational study.Year in review in Intensive Care Medicine 2012: III. Noninvasive ventilation, monitoring and patient-ventilator interactions, acute respiratory distress syndrome, sedation, paediatrics and miscellaneaSystem Description and First Application of an FPGA-Based Simultaneous Multi-Frequency Electrical Impedance TomographyRole of electrical impedance tomography in clinical practice in pediatric respiratory medicine.Absolute Reconstructions Using Rotational Electrical Impedance Tomography for Breast Cancer Imaging.Estimation of breathing rate in thermal imaging videos: a pilot study on healthy human subjects.Regional lung response to bronchodilator reversibility testing determined by electrical impedance tomography in chronic obstructive pulmonary disease.Effects of individualized electrical impedance tomography and image reconstruction settings upon the assessment of regional ventilation distribution: Comparison to 4-dimensional computed tomography in a porcine model.A Post-Processing Method for Three-Dimensional Electrical Impedance Tomography.Impact of four different recumbencies on the distribution of ventilation in conscious or anaesthetized spontaneously breathing beagle dogs: An electrical impedance tomography studyElectrical impedance tomography: so close to touching the holy grail.Optimal mean airway pressure during high-frequency oscillatory ventilation determined by measurement of respiratory system reactance.Surfactant before the first inflation at birth improves spatial distribution of ventilation and reduces lung injury in preterm lambs.Application of internal electrodes to the oesophageal and tracheal tube in an animal trial: evaluation of its clinical and technical potentiality in electrical impedance tomography.Effect of sustained inflation vs. stepwise PEEP strategy at birth on gas exchange and lung mechanics in preterm lambs.Lobe based image reconstruction in Electrical Impedance Tomography.An individualized approach to sustained inflation duration at birth improves outcomes in newborn preterm lambs.Electrical impedance tomography.Spatiotemporal Aeration and Lung Injury Patterns Are Influenced by the First Inflation Strategy at Birth.Computational fluid dynamic modelling of the effect of ventilation mode and tracheal tube position on air flow in the large airways.Global and regional lung function in cystic fibrosis measured by electrical impedance tomography.Intratracheal atomized surfactant provides similar outcomes as bolus surfactant in preterm lambs with respiratory distress syndrome.Electrical impedance tomography as possible guidance for individual positioning of patients with multiple lung injury.
P2860
Q27000471-55D77C59-AF54-40D0-B261-F466859302FFQ27336035-99146ACA-9238-4B29-B9E0-0DFAACCF8EBCQ31126807-63B23E77-AD93-4B7F-8DEE-F62EDC3EB781Q33921831-5F6C1AA3-B310-4747-A7FE-44398B7A21F6Q34505077-E9F4D3DF-D191-48C2-9B98-9C6F9A660072Q34526641-4DB3FC50-300E-4BAE-8EE0-861A3B7E6FD2Q35094703-90D9A7C5-55FE-4A3E-AF19-0569D447CB20Q35696058-516E20E4-7194-4506-9368-3DB834EA8005Q36065077-246EAA7E-6135-4864-AFFA-46817CB259B6Q36443221-F56C3820-01AB-4E7A-885A-088719C6212BQ36714984-1C34FC84-8080-4442-992F-1F38EC150B5BQ37244682-695434CF-5BC0-4538-9485-CD3BFCE0B64DQ38181129-5903FB91-4554-4FF9-9B05-808D866E3794Q39005222-0DC5739F-2178-405A-8857-FCA1062BD8CAQ39252113-BC581486-02B2-4C35-99BB-5C91D30361DBQ39758240-C6A41ED0-8DD9-49A3-9087-B695545FA349Q41200639-99C5713C-ADC4-44CC-B33F-1BC93CB3AE5EQ41242856-C5D2F546-6B86-4F5E-912D-0AC79CB49D7CQ41702395-AC2580C4-7492-4EC4-9E55-19922F3DE622Q41857819-67B81C32-5A7D-43DB-8507-6F4D8332198FQ44018642-ACE986CD-FEA8-4E84-BFB8-C1A634A8B649Q44815500-329A8D6E-FD6B-46D1-A49E-DA8664860B6FQ45851064-6CEEB023-EB9A-4315-A214-1EB9515B1DA9Q46846967-6C544236-213C-449A-955D-AAB74100738DQ47996310-024E7CCE-E731-4743-B402-87CAFC8B418EQ48128280-C8937652-2917-4754-8E09-4BD3BAFDBB8FQ49873200-255784B4-1F86-4766-9FDD-B7DE35D46642Q50953746-309EF431-0DC2-4E6C-BB58-BC7391DE3005Q50977943-9FA82995-5771-4DDA-91FD-22CD180799D8Q51441492-792D190B-3F8C-4744-881C-99489FD9044AQ51459948-84DB876F-CE2B-4A76-8871-40EB659C2EAFQ51534095-77BB1A97-AC4A-420C-AE34-AE4CBD992E98
P2860
Electrical impedance tomography: the holy grail of ventilation and perfusion monitoring?
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Electrical impedance tomography: the holy grail of ventilation and perfusion monitoring?
@en
type
label
Electrical impedance tomography: the holy grail of ventilation and perfusion monitoring?
@en
prefLabel
Electrical impedance tomography: the holy grail of ventilation and perfusion monitoring?
@en
P2860
P1476
Electrical impedance tomography: the holy grail of ventilation and perfusion monitoring?
@en
P2093
Burkhard Lachmann
P2860
P2888
P304
P356
10.1007/S00134-012-2684-Z
P577
2012-09-20T00:00:00Z