Nome |
# |
Hypothermia versus normothermia after out-of-hospital cardiac arrest, file e2913fde-c559-f688-e053-3705fe0a67e0
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1.025
|
An effective pressure–flow characterization of respiratory asynchronies in mechanical ventilation, file e2913fdd-1195-f688-e053-3705fe0a67e0
|
287
|
Double cycling during mechanical ventilation: Frequency, mechanisms, and physiologic implications*, file e2913fdf-7685-f688-e053-3705fe0a67e0
|
221
|
Dead space in acute respiratory distress syndrome: More than a feeling!, file e2913fda-f194-f688-e053-3705fe0a67e0
|
207
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Patient-ventilator asynchronies during mechanical ventilation: current knowledge and research priorities, file e2913fdd-403d-f688-e053-3705fe0a67e0
|
177
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Effects of sedatives and opioids on trigger and cycling asynchronies throughout mechanical ventilation: an observational study in a large dataset from critically ill patients, file e2913fdc-9408-f688-e053-3705fe0a67e0
|
147
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Regional lung recruitability during pneumoperitoneum depends on chest wall elastance - A mechanical and computed tomography analysis in rats, file e2913fdc-8236-f688-e053-3705fe0a67e0
|
138
|
Is my patient ready for a safe transfer to a lower-intensity care setting? Nursing complexity as an independent predictor of adverse events risk after ICU discharge, file e2913fdd-c04e-f688-e053-3705fe0a67e0
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116
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Reactivation of Herpes Simplex Virus Type 1 (HSV-1) Detected on Bronchoalveolar Lavage Fluid (BALF) Samples in Critically Ill COVID-19 Patients Undergoing Invasive Mechanical Ventilation: Preliminary Results from Two Italian Centers, file e2913fdf-12dd-f688-e053-3705fe0a67e0
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106
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Automatic detection of ventilatory modes during invasive mechanical ventilation, file e2913fda-f7be-f688-e053-3705fe0a67e0
|
103
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Multimodal Long-Term Predictors of Outcome in Out of Hospital Cardiac Arrest Patients Treated with Targeted Temperature Management at 36 °C, file e2913fde-edb6-f688-e053-3705fe0a67e0
|
76
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Asynchronies during mechanical ventilation are associated with mortality, file e2913fdf-4a31-f688-e053-3705fe0a67e0
|
76
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Postoperative analgesia after pulmonary resection with a focus on video-assisted thoracoscopic surgery, file e2913fdf-43ed-f688-e053-3705fe0a67e0
|
55
|
Markers of cardiogenic shock predict persistent acute kidney injury after out of hospital cardiac arrest, file e2913fdf-7684-f688-e053-3705fe0a67e0
|
40
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Effect of external PEEP in patients under controlled mechanical ventilation with an auto-PEEP of 5 cmH2O or higher, file e2913fda-edbb-f688-e053-3705fe0a67e0
|
38
|
"Shoulder pain and limitation of motion in a young girl: think different", file e07c4c8d-add9-4eab-9863-f911c295924f
|
37
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Potential links between COVID-19-associated pulmonary aspergillosis and bronchiectasis as detected by high resolution computed tomography, file e2913fde-9549-f688-e053-3705fe0a67e0
|
23
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Neuronal desertification after a direct lightning strike: a case report, file 0f7affb8-410c-465a-ba0a-3eee05365792
|
19
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Topical Steroids in Rhinosinusitis and Intraoperative Bleeding: More Harm Than Good?, file e2913fdf-48c5-f688-e053-3705fe0a67e0
|
19
|
Considerations for an Optimal EAdi Threshold for Automated Detection of Ineffective Efforts, file e2913fdd-eb04-f688-e053-3705fe0a67e0
|
18
|
Markers of cardiogenic shock predict persistent acute kidney injury after out of hospital cardiac arrest, file e2913fdc-7a9d-f688-e053-3705fe0a67e0
|
10
|
Pressure-flow breath representation eases asynchrony identification in mechanically ventilated patients, file 3a943973-f18a-43c6-904e-28c9120e0acc
|
9
|
Double cycling during mechanical ventilation: Frequency, mechanisms, and physiologic implications*, file e2913fdc-823c-f688-e053-3705fe0a67e0
|
9
|
Asynchronies during mechanical ventilation are associated with mortality, file e2913fda-edb8-f688-e053-3705fe0a67e0
|
8
|
Closing, opening and reopening: the difficult coexistence, file e2913fdb-9761-f688-e053-3705fe0a67e0
|
8
|
An effective pressure–flow characterization of respiratory asynchronies in mechanical ventilation, file e2913fdd-33dd-f688-e053-3705fe0a67e0
|
8
|
Pressure-flow breath representation eases asynchrony identification in mechanically ventilated patients, file 23bc702b-232e-4a83-aa61-229d6f6db78c
|
6
|
The physiology of ventilation, file e2913fd9-d6cc-f688-e053-3705fe0a67e0
|
6
|
Assessment of factors related to auto-PEEP, file e2913fda-ec1a-f688-e053-3705fe0a67e0
|
6
|
Patient-ventilator asynchrony, file e2913fda-f31d-f688-e053-3705fe0a67e0
|
6
|
Asynchronies during mechanical ventilation are associated with mortality, file e2913fdb-3067-f688-e053-3705fe0a67e0
|
6
|
Operating Room, file e2913fde-ad35-f688-e053-3705fe0a67e0
|
6
|
Postoperative analgesia after pulmonary resection with a focus on video-assisted thoracoscopic surgery, file e2913fdc-15ff-f688-e053-3705fe0a67e0
|
5
|
Pulmonary embolism in critically ill patients receiving antithrombotic prophylaxis: a clinical-pathologic study, file e2913fd9-384d-f688-e053-3705fe0a67e0
|
4
|
When the Intensive Care Ventilator Technology Reaches the Operating Room: Advancing Ventilation in Anesthesia, file e2913fda-47b2-f688-e053-3705fe0a67e0
|
4
|
Omeostasi termica perioperatoria, file e2913fda-ff9c-f688-e053-3705fe0a67e0
|
4
|
Flow Resistance Estimation of Endotracheal Tube during High Frequency Percussive Ventilation: Preliminary Results, file e2913fd9-095a-f688-e053-3705fe0a67e0
|
3
|
In vitro estimation of pressure drop across tracheal tubes during high-frequency percussive ventilation, file e2913fd9-1aad-f688-e053-3705fe0a67e0
|
3
|
End-tidal versus manually-controlled low-flow anaesthesia, file e2913fd9-1ab2-f688-e053-3705fe0a67e0
|
3
|
High-flow nasal interface improves oxygenation in patients undergoing bronchoscopy., file e2913fd9-2004-f688-e053-3705fe0a67e0
|
3
|
Estimation of the difference between peak airway and tracheal pressures during HFPV, file e2913fda-2b6f-f688-e053-3705fe0a67e0
|
3
|
Estimation of the Endotracheal Tube Pressure Drop during HFPV: A Flow-Independent Model, file e2913fda-5291-f688-e053-3705fe0a67e0
|
3
|
Effects on lung stress of position and different doses of perfluorocarbon in a model of ARDS, file e2913fda-f165-f688-e053-3705fe0a67e0
|
3
|
Longitudinal changes in patient-ventilator asynchronies and respiratory system mechanics before and after tracheostomy, file e2913fde-c695-f688-e053-3705fe0a67e0
|
3
|
In Vivo Measurements of Respiratory Parameters during HFPV, file e2913fd8-f1db-f688-e053-3705fe0a67e0
|
2
|
null, file e2913fd9-0e89-f688-e053-3705fe0a67e0
|
2
|
High-frequency percussive ventilation, file e2913fd9-1817-f688-e053-3705fe0a67e0
|
2
|
Validation of the Better Care® system to detect ineffective efforts during expiration in mechanically ventilated patients: a pilot study, file e2913fd9-2005-f688-e053-3705fe0a67e0
|
2
|
Protective ventilation for lung transplantation, file e2913fd9-2006-f688-e053-3705fe0a67e0
|
2
|
Epidural for mini-invasive thoracic surgery: Do we need a sledgehammer to crack a nut?, file e2913fdc-8232-f688-e053-3705fe0a67e0
|
2
|
Dead space in acute respiratory distress syndrome, file e2913fdc-abdb-f688-e053-3705fe0a67e0
|
2
|
Topical Steroids in Rhinosinusitis and Intraoperative Bleeding: More Harm Than Good?, file e2913fdd-507f-f688-e053-3705fe0a67e0
|
2
|
Is my patient ready for a safe transfer to a lower-intensity care setting? Nursing complexity as an independent predictor of adverse events risk after ICU discharge, file e2913fdd-886d-f688-e053-3705fe0a67e0
|
2
|
Organization of an Orthoplastic Service: The Role of Emergency Care at the Site of the Injury, file e2913fdf-be93-f688-e053-3705fe0a67e0
|
2
|
Anticipating events of in-hospital cardiac arrest, file e2913fd9-0bfd-f688-e053-3705fe0a67e0
|
1
|
In vitro measurement of respiratory mechanics during HFPV using a mechanical lung model, file e2913fd9-0cf7-f688-e053-3705fe0a67e0
|
1
|
High-frequency percussive ventilation improves perioperatively clinical evolution in pulmonary resection, file e2913fd9-180e-f688-e053-3705fe0a67e0
|
1
|
High frequency percussive ventilation (HFPV). Principles and technique., file e2913fd9-181f-f688-e053-3705fe0a67e0
|
1
|
Basic physics for Anaesthesia and Intensive Care, file e2913fd9-1b94-f688-e053-3705fe0a67e0
|
1
|
Thoracic imaging in the intensive care unit, file e2913fd9-1e66-f688-e053-3705fe0a67e0
|
1
|
High-Frequency Percussive Ventilation, file e2913fd9-1ec2-f688-e053-3705fe0a67e0
|
1
|
Early Short-Term Application of High-Frequency Percussive Ventilation Improves Gas Exchange in Hypoxemic Patients, file e2913fd9-2009-f688-e053-3705fe0a67e0
|
1
|
Gas distribution in a two-compartment model ventilated in high-frequency percussive and pressure-controlled modes, file e2913fd9-200e-f688-e053-3705fe0a67e0
|
1
|
Tailoring of HFPV Treatment by Respiratory Parameters Measurement, file e2913fd9-63fb-f688-e053-3705fe0a67e0
|
1
|
Pulmonary mechanical dysfunction in the critically ill, file e2913fdb-0264-f688-e053-3705fe0a67e0
|
1
|
FLOW-i ventilator performance in the presence of a circle system leak, file e2913fdc-0207-f688-e053-3705fe0a67e0
|
1
|
Artificial ventilation during pneumoperitoneum, file e2913fdc-9651-f688-e053-3705fe0a67e0
|
1
|
Anesthesia and fast-track in video-assisted thoracic surgery (VATS): from evidence to practice, file e2913fdc-9655-f688-e053-3705fe0a67e0
|
1
|
On some factors determining the pressure drop across tracheal tubes during high-frequency percussive ventilation: a flow-independent model, file e2913fde-1016-f688-e053-3705fe0a67e0
|
1
|
Totale |
3.092 |