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high tidal volume mechanical ventilation and hyperoxia(passive) caused byventilator - induced lung injuryAbstractFulltextPDFLung injury
publisher Inappropriate mechanical ventilation ( MVcan resultin ventilator - induced lung injury ( VILI
unsuited patterns of mechanical ventilation ( MVcan triggera Ventilator - Induced Lung Injury ( VILI
ALI),2 mechanical ventilationcan causeventilator - associated lung injury
R1 - R1 Introduction Mechanical ventilation ( MVmay causeventilator - induced lung injury ( VILI
Mechanical ventilation can contribute to lung injuryresultingin ventilator - induced lung injury ( VILI
Mechanical ventilation with excessive airway pressuremay resultin ventilator - induced lung injury ( VILI
Mechanical ventilation is a life - saving therapycan ... causeventilator - induced lung injury ( VILI
mechanical ventilation with a large [ V.sub . Tleadsto ventilator - induced lung injury ( 13,14
21 June 2012 Mechanical ventilation with high tidal volumesmay causeventilator - induced lung injury ( VILI
the impact mechanical ventilation imposes on lung tissuepotentially leadingto ventilator induced lung injury
After ECMO initiation , protective mechanical ventilation was usedto preventfurther ventilator - induced lung injury
when high PEEP levels are used during mechanical ventilationleadingto ventilator - induced lung injury
licensee BioMed Central Ltd. 2009 Mechanical ventilation ( MVmay causeventilator - induced lung injury ( VILI
licensee BioMed Central Ltd. 2013 Mechanical ventilation ( MVmay causeventilator - induced lung injury ( VILI
orderto preventany ventilator induced lung injury
941 - 952 Mechanical ventilation using high tidal volume ( VT ) and transpulmonary pressure can damage the lungcausingventilator - induced lung injury
ArticleFigures & DataInfo PDF AbstractHigh - volume mechanical ventilationleadsto ventilator - induced lung injury
Mechanical ventilation , routinely required for the clinical treatment of respiratory failurecan causeventilator - induced lung injury ( VILI
727 - 742 | Cite as The potential for high stretch mechanical ventilationto causeventilator induced lung injury ( VILI
a role in the hospital setting ... overinflation of the lung via mechanical ventilationcausesventilator - induced lung injury
Other description about permissive hypercapnia in ARDS patient Mechanical ventilation using high tidal volume ( VT ) and transpulmonary pressure can damage the lungcausingventilator - induced lung injury
Procalcitonin Patients undergoing general anesthesia and mechanical ventilation during major abdominal surgery commonly develop pulmonary atelectasis and/or hyperinflation of the lungs leading to complications either intraoperatively or in the postoperative periodresultingin ventilator - induced lung injury ( VILI
Mechanical ventilation contributes to ALI mortality through excessive ventilatory stretch ( VScausingventilator - induced lung injury ( VILI
Mechanical ventilation using low tidal volumes has become universally acceptedto preventventilator - induced lung injury
Vds / Vt Patients undergoing general anesthesia and mechanical ventilation during major abdominal surgery commonly develop pulmonary atelectasis and/or hyperinflation of the lungs leading to complications either intraoperatively or in the postoperative periodresultingin ventilator - induced lung injury ( VILI
However , if mechanical ventilation is applied inappropriately further injury and malfunction of the lungs may occur , and thuscausinga ventilator induced lung injury ( VILI
Recent data demonst Moret , Rainer Dziewas and Joerg C. Mechanical ventilationcan leadto ventilator - induced lung injury VILI
Excessive increases in intra -and transpulmonary pressure via mechanical ventilation can still result in barotraumaleadingto ventilator induced lung injury
that MV can further injure the lungs ,causingventilator - induced lung injury ( VILI
The mechanical ventilation , especially the large tidal volume ( Vt ) one - lung ventilation ( OLVcan causeventilator - induced lung injury ( VILI
that mechanical ventilation with cycles of large volumes of air may accelerate the lung damage of ARDScausingventilator - induced lung injury
However , the … ( More ) Maria Theresa Kuipers , Hamid Aslami , +10 authors Catharina Wilhelmina Wieland BACKGROUND Mechanical ventilation ( MVcan causeventilator - induced lung injury ( VILI
Immunosorbent Assay Mechanical ventilation is an important support for patients with acute respiratory distress syndrome ( ARDScan causeventilator - induced lung injury ( VILI
After Lung Injury Mechanical ventilation is an important support for patients with acute respiratory distress syndrome ( ARDScan causeventilator - induced lung injury ( VILI
Thus , ventilation selected by IntelliVent - ASV ™ in patients with normal lungs at the onset of mechanical ventilation is in line with current recommendationsto preventventilator - induced lung injuries ( VILI
In the current study , low - dose inhaled hydrogen sulfide exerts antiinflammatory and antiapoptotic effects during mechanical ventilationthus preventingventilator - induced lung injury
Mechanical ventilation could enhance alteration of mechanical forces in the lungs of patients with asthma , emphysema or acute respiratory distress syndromethereby causingventilator - associated lung injury
Low tidal volume ventilation ... that seeksto preventventilator - associated lung injury
the main factorstriggeringventilator - induced lung injury
to loss of alveolar and systemic compartmentalization of TNF - αleadsto loss of alveolar and systemic compartmentalization of TNF - α
to an unacceptably high mortalityleadsto an unacceptably high mortality
to pulmonary cytokine release and acute respiratory distress syndrome ( ARDS ) alsocontributingto pulmonary cytokine release and acute respiratory distress syndrome ( ARDS ) also
to loss of alveolar and systemic compartmentalization of tumor necrosis factor - alpha Haitsma , Jack J. ; Uhlig , Stefan ; Göggel , Rolf ; Verbrugge , Serge J. ; Lachmann , Ulrike ; Lachmann , Burkhard ; Haitsma , J J ; Uhlig , S ; Göggel , R ; Verbrugge , S J ; Lachmann , U ; Lachmann , B Intensive Careleadsto loss of alveolar and systemic compartmentalization of tumor necrosis factor - alpha Haitsma , Jack J. ; Uhlig , Stefan ; Göggel , Rolf ; Verbrugge , Serge J. ; Lachmann , Ulrike ; Lachmann , Burkhard ; Haitsma , J J ; Uhlig , S ; Göggel , R ; Verbrugge , S J ; Lachmann , U ; Lachmann , B Intensive Care
to prolonged respiratory failure or death among patients with Acute Respiratory Distress Syndrome ( ARDSmay contributeto prolonged respiratory failure or death among patients with Acute Respiratory Distress Syndrome ( ARDS
to ARDS mortalitycan leadto ARDS mortality
to concomitant extrapulmonary organ dysfunctionpossibly contributingto concomitant extrapulmonary organ dysfunction
to high morbidity and mortality in these patientscan leadto high morbidity and mortality in these patients
to prolonged respiratory failure and even death among patients with acute respiratory distress syndrome ( ARDScan contributeto prolonged respiratory failure and even death among patients with acute respiratory distress syndrome ( ARDS
to the morbidity and mortality from ALI , interventions that reduce VILIcontributesto the morbidity and mortality from ALI , interventions that reduce VILI
to increased morbidity and mortality ... 1–3can leadto increased morbidity and mortality ... 1–3
to loss of alveolar and systemic compartmentalizatleadsto loss of alveolar and systemic compartmentalizat
in systemic effects with multi - system organ failuremay resultin systemic effects with multi - system organ failure
to the morbidity and mortality of patients with acute lung injurycan contributeto the morbidity and mortality of patients with acute lung injury
to mortality in patients with acute respiratory distress syndrome , the most severe form of acute lung injury ( ALIcontributesto mortality in patients with acute respiratory distress syndrome , the most severe form of acute lung injury ( ALI
Nadine Houédé Elevation of Serum Carcinoembryonic Antigen Concentration(passive) Caused byNadine Houédé Elevation of Serum Carcinoembryonic Antigen Concentration
to loss of alveolar and systemic compartmentalization of tumor necrosis factoralphaleadsto loss of alveolar and systemic compartmentalization of tumor necrosis factoralpha
in serious sequela , such as bronchopulmonary dysplasia ( BPDmay ... resultin serious sequela , such as bronchopulmonary dysplasia ( BPD
the development of bronchopulmonary dysplasia ( BPD ) in large portioncausesthe development of bronchopulmonary dysplasia ( BPD ) in large portion
the inflammatory cascade , which may progress to BPD.[7]–[13can triggerthe inflammatory cascade , which may progress to BPD.[7]–[13
to the progression of ALI / ARDS,1contributesto the progression of ALI / ARDS,1
to serious conditions like ARDS which are associated with a high mortality ( around 30 % , Stapleton et al . , Chest , 2005can leadto serious conditions like ARDS which are associated with a high mortality ( around 30 % , Stapleton et al . , Chest , 2005
to systemic ( 9–11 ) and brain ( 12 , 13 ) inflammation and injuryleadsto systemic ( 9–11 ) and brain ( 12 , 13 ) inflammation and injury
in mice by deletion of the calcium - permeable stretch - activated transient receptor potential vanilloid-4 ( TRPV4 ) ion channelwas preventedin mice by deletion of the calcium - permeable stretch - activated transient receptor potential vanilloid-4 ( TRPV4 ) ion channel
pulmonary edema , decreasing lung compliance and promoting lung inflammation due to increased cytokine production and lung neutrophil accumulation.30 Magnesium sulphatecausingpulmonary edema , decreasing lung compliance and promoting lung inflammation due to increased cytokine production and lung neutrophil accumulation.30 Magnesium sulphate
significant lung vascular leak detected by Evans blue dye accumulation in the lung parenchyma , which was evident in Asef+/+ and Asef−/− mice after 4 h of HTVcausedsignificant lung vascular leak detected by Evans blue dye accumulation in the lung parenchyma , which was evident in Asef+/+ and Asef−/− mice after 4 h of HTV
from mechanical disruption of blood - gas barrier and consequent edema and releases of inflammatory mediatorsresultsfrom mechanical disruption of blood - gas barrier and consequent edema and releases of inflammatory mediators
to accumulation of fluid in the lungs and increased susceptibility to infectioncan leadto accumulation of fluid in the lungs and increased susceptibility to infection
from relatively high tidal volumes ( VTresultsfrom relatively high tidal volumes ( VT
markedly to lung damage in immature lungs and that the deleterious effect of assisted ventilation is more related to the volumes than to the pressurescontributesmarkedly to lung damage in immature lungs and that the deleterious effect of assisted ventilation is more related to the volumes than to the pressures
a systemic inflammatory response and result in multi - organ failure.7can triggera systemic inflammatory response and result in multi - organ failure.7
from repetitive closing and opening of collapsed alveolar units , or from pulmonary overdistensionto resultfrom repetitive closing and opening of collapsed alveolar units , or from pulmonary overdistension
from alveolar over - distention ( volutraumaresultingfrom alveolar over - distention ( volutrauma
to the development of organ failure and death ( 1can contributeto the development of organ failure and death ( 1
significantlycontributessignificantly
from high lung volumes ( volutrauma ) , high airway pressures ( barotrauma ) , and repetitive opening and closing of collapsed lung units ( atelectraumaresultsfrom high lung volumes ( volutrauma ) , high airway pressures ( barotrauma ) , and repetitive opening and closing of collapsed lung units ( atelectrauma
to postoperative pulmonary complications through mechanisms including volutrauma , barotrauma , and atelectasisleadingto postoperative pulmonary complications through mechanisms including volutrauma , barotrauma , and atelectasis
from oxygen toxicity , biotrauma , atelectrauma , and volutraumamay resultfrom oxygen toxicity , biotrauma , atelectrauma , and volutrauma
to substantial aggravation of previously established severe pneumonia resulting in acute respiratory failure , which was accompanied by elevation of pulmonary cytokine levels independent from leukocyte recruitment or bacterial replication in the lungledto substantial aggravation of previously established severe pneumonia resulting in acute respiratory failure , which was accompanied by elevation of pulmonary cytokine levels independent from leukocyte recruitment or bacterial replication in the lung
to organ dysfunction and death ... 1can contributeto organ dysfunction and death ... 1