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most likelyresultedfrom barotrauma with positive - pressure mechanical ventilation
resultsSettingMechanical ventilation in ARDS patients
A method of setting inspiratory time insetspressure controlled mechanical ventilation
at 100 %(passive) shall be setMechanical ventilation systems
the lung hemorrhage and lung permeability alterationsresultingfrom an adverse pattern of mechanical ventilation
by respiratory failure(passive) caused byMechanical ventilation for hypoxia
factors ... andcontributingin prognosis of mechanical ventilation
the prolonged drug eliminationmay causeapnoea , necessitating mechanical ventilation
Conventional weaning techniquesleadingto extended endotracheal mechanical ventilation
by pneumonia(passive) are ... caused byprolonged mechanical ventilation
by pneumonia(passive) are ... causedprolonged mechanical ventilation
the distressresultingfrom prolonged mechanical ventilation
Diaphragm may leadcontrolled mechanical ventilation
by pulmonary infection(passive) caused byinvasive mechanical ventilation
the pulmonary functionleadingto postoperative mechanical ventilation
when done while the nebulizer is activemay resultin the discontinuance of mechanical ventilation
The use of positive pressurecan causemechanical ventilation
the respiratory muscle fatigueleadsto mechanical ventilation
In the ICUcan causemechanical ventilation
to maintain an adequate exchange of gases , even through diminished breathing rates and reduced myocardial use(passive) is designedMechanical ventilation
patients ... harmcan resultfrom mechanical ventilation
to ensure the survival of these patients(passive) is designedMechanical ventilation
Acute respiratory distress syndrome ( ARDS ) andcan leadmechanical ventilation
to maintain an adequate exchange of gases , even through diminished breathing rates and reduced myocardial(passive) is designedMechanical ventilation
The application of positive pressurecan resultmechanical ventilation
ParametersResultingfrom Mechanical Ventilation
s ParametersResultingfrom Mechanical Ventilation
pressure gradientsresultingfrom mechanical ventilation
to maintain an adequate exchange of gases(passive) is designedMechanical ventilation
THERAPYcausesMECHANICAL VENTILATION
the painoriginatingfrom mechanical ventilation
agitationresultingfrom mechanical ventilation
A variety of complicationscan resultfrom mechanical ventilation
any drugcausingMECHANICAL VENTILATION
curveto setmechanical ventilation
other drugscauseMECHANICAL VENTILATION
strainoriginatingfrom mechanical ventilation
that they could be used as better indicator for possible ventilator - induced lung injurywhen settingmechanical ventilation
a mental changepromptedmechanical ventilation
Severe hypoxia may ensueleadingto mechanical ventilation
to a tension Ptx with reduced cardiac outputcan rapidly leadto a tension Ptx with reduced cardiac output
intrathoracic pressure(passive) caused byintrathoracic pressure
in persistentresultedin persistent
During GA(passive) are influenced byDuring GA
formation of dustcausesformation of dust
to barotrauma of the lungscan leadto barotrauma of the lungs
complicationsmay causecomplications
the development of tension pneumothoraxcausedthe development of tension pneumothorax
possiblymay ... resultpossibly
in gradual decreasewill resultin gradual decrease
in gradual decrease in dependence on the ventilatorwill resultin gradual decrease in dependence on the ventilator
to increased risk of death , poor long - term functional outcomes , and markedly higher healthcare costscontributesto increased risk of death , poor long - term functional outcomes , and markedly higher healthcare costs
to more and serious complicationswould leadto more and serious complications
the damage(passive) caused bythe damage
dysfunction of the diaphragmcan causedysfunction of the diaphragm
to the development of ARDS ... i.e. , through ventilation - induced lung injury ( VILIcontributedto the development of ARDS ... i.e. , through ventilation - induced lung injury ( VILI
to an increase in RV afterloadcontributesto an increase in RV afterload
to diaphragmatic muscle fibers atrophymay leadto diaphragmatic muscle fibers atrophy
to a very rapid type of disuse atrophy involving the diaphragmatic muscle fiberscan leadto a very rapid type of disuse atrophy involving the diaphragmatic muscle fibers
acute parenchymal lung injury ( ventilator - induced lung injury , or VILIcan causeacute parenchymal lung injury ( ventilator - induced lung injury , or VILI
oxygen toxicity or acute lung injury(passive) caused byoxygen toxicity or acute lung injury
to a rapid type of disuse atrophy involving the diaphragmatic muscle fibers , which can develop within the first day of mechanical ventilationmay leadto a rapid type of disuse atrophy involving the diaphragmatic muscle fibers , which can develop within the first day of mechanical ventilation
to a rapid type of disuse atrophy involving the diaphragmatic muscle fibers , which can develop within the first day of mechanical ventilationmay leadto a rapid type of disuse atrophy involving the diaphragmatic muscle fibers , which can develop within the first day of mechanical ventilation
to an increase in RV afterload [ 52contributesto an increase in RV afterload [ 52
to a rapid type of disuse atrophy involving the diaphragmatic muscle fibers , which can develop within the first day of mechanical ventilation.[4may leadto a rapid type of disuse atrophy involving the diaphragmatic muscle fibers , which can develop within the first day of mechanical ventilation.[4
to a rapid type of disuse atrophy involving the diaphragmatic muscle fibers , which can develop within the first day of mechanical ventilation.[4may leadto a rapid type of disuse atrophy involving the diaphragmatic muscle fibers , which can develop within the first day of mechanical ventilation.[4
in ventilator - induced lung injury ( VILIcan resultin ventilator - induced lung injury ( VILI
to ventilator - induced lung injury ( VILIcan ... leadto ventilator - induced lung injury ( VILI
ventilator - induced lung injury , including barotrauma , volutrauma , and atelectraumacan causeventilator - induced lung injury , including barotrauma , volutrauma , and atelectrauma
ventilator - induced lung injurycausingventilator - induced lung injury
in ventilator induced lung injurymay resultin ventilator induced lung injury
ventilator - induced lung injurymay causeventilator - induced lung injury
ventilator - induced lung injurycausedventilator - induced lung injury
in ventilator - associated lung injury , bronchopulmonary dysplasia ( BPD ) , chronic lung disease and increased risk of infectioncan resultin ventilator - associated lung injury , bronchopulmonary dysplasia ( BPD ) , chronic lung disease and increased risk of infection
atrophic loss of muscle strength because of inactivation and ventilator - induced diaphragmatic dysfunction ( VIDDcausesatrophic loss of muscle strength because of inactivation and ventilator - induced diaphragmatic dysfunction ( VIDD
ventilator - induced lung injury increasescausingventilator - induced lung injury increases
in ventilator - associated lung injury ( VALIresultsin ventilator - associated lung injury ( VALI
ventilator - associated lung injury ( VALIcan causeventilator - associated lung injury ( VALI
in ventilator - associated lung injury , chronic lung disease and increased risk of infectioncan resultin ventilator - associated lung injury , chronic lung disease and increased risk of infection
ventilator - induced lung injury in animals and humanscausesventilator - induced lung injury in animals and humans