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A novel echocardiographic imaging technique, intracatheter echocardiography, to guide veno-venous extracorporeal membrane oxygenation cannulae placement in a validated ovine model.The 30-year evolution of airway pressure release ventilation (APRV)Microcirculatory perfusion shows wide inter-individual variation and is important in determining shock reversal during resuscitation in a porcine experimental model of complex traumatic hemorrhagic shock.Quantification of perflutren microsphere contrast destruction during transit through an ex vivo extracorporeal membrane oxygenation circuit.Effects of volume resuscitation on the microcirculation in animal models of lipopolysaccharide sepsis: a systematic reviewMechanisms of long-term cognitive dysfunction of sepsis: from blood-borne leukocytes to glial cellsInfluence of Wikipedia and Other Web Resources on Acute and Critical Care Decisions. A Web-based SureyA new approach to selective brain cooling by a Ranque-Hilsch vortex tubeNoradrenalin effectively rescues mice from blast lung injury caused by laser-induced shock waves.Contrast-enhanced ultrasound evaluation of renal microcirculation in sheepEffect of PEEP on breath sound power spectra in experimental lung injury.Interactions between rat alveolar epithelial cells and bone marrow-derived mesenchymal stem cells: an in vitro co-culture model.Cytocam-IDF (incident dark field illumination) imaging for bedside monitoring of the microcirculation.Effects of norepinephrine on tissue perfusion in a sheep model of intra-abdominal hypertension.Effects of early hemodynamic resuscitation on left ventricular performance and microcirculatory function during endotoxic shock.Why do they die? Comparison of selected aspects of organ injury and dysfunction in mice surviving and dying in acute abdominal sepsisComparison of an automatic analysis and a manual analysis of conjunctival microcirculation in a sheep model of haemorrhagic shock.Resuscitation fluid composition affects hepatic inflammation in a murine model of early sepsisSystemic and microcirculatory effects of blood transfusion in experimental hemorrhagic shock.Myocardial oxidative stress correlates with left ventricular dysfunction on strain echocardiography in a rodent model of sepsis.Improving animal welfare using continuous nalbuphine infusion in a long-term rat model of sepsis.The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury modelAssessment of endothelial cell function and physiological microcirculatory reserve by video microscopy using a topical acetylcholine and nitroglycerin challenge.Effect of continuous dialysis on blood ph in acidemic hypercapnic animals with severe acute kidney injury: a randomized experimental study comparing high vs. low bicarbonate affluent.The novel nitric oxide donor PDNO attenuates ovine ischemia-reperfusion induced renal failure.Impact of hyperglycemia on cystathionine-γ-lyase expression during resuscitated murine septic shockEvaluation of an ADVanced Organ Support (ADVOS) system in a two-hit porcine model of liver failure plus endotoxemiaSepsis prediction in critically ill patients by platelet activation markers on ICU admission: a prospective pilot study.Shape descriptors of the "never resting" microglia in three different acute brain injury models in mice.Alveolar instability (atelectrauma) is not identified by arterial oxygenation predisposing the development of an occult ventilator-induced lung injuryBrain function in iNOS knock out or iNOS inhibited (l-NIL) mice under endotoxic shock.Raxibacumab augments hemodynamic support and improves outcomes during shock with B. anthracis edema toxin alone or together with lethal toxin in canines.Critical illness-induced bone loss is related to deficient autophagy and histone hypomethylation.Mesenchymal stromal cells are more effective than the MSC secretome in diminishing injury and enhancing recovery following ventilator-induced lung injuryAnalysis of the influence of antithrombin on microvascular thrombosis: anti-inflammation is crucial for anticoagulationAn improved mounting device for attaching intracranial probes in large animal models.Bis maltolato oxovanadium (BMOV) and ischemia/reperfusion-induced acute kidney injury in rats.Early brain injury linearly correlates with reduction in cerebral perfusion pressure during the hyperacute phase of subarachnoid hemorrhageAngiotensin-(1-7) improves oxygenation, while reducing cellular infiltrate and fibrosis in experimental Acute Respiratory Distress Syndrome.Validation of computed tomography for measuring lung weight.
P1433
Q22000887-60F05B3F-F6AD-45AD-BC87-92818885344DQ26747188-F725C3D0-A6D6-4AD6-909F-73277011C3C8Q27316249-CF0EB948-E786-493E-BCD8-8893A25967F3Q27316284-01763A3D-60D8-4F41-A4AA-D7B65C1A9D72Q28067535-8E3C7D30-BBE7-4F5F-9E69-58021F6096D3Q28392580-B927E5E4-D2C9-4D0D-AF00-70A3E361CB3DQ28602478-82432B6F-E67B-4B56-9763-6492EE64D0FCQ28828408-16F41B12-5119-4C27-AF11-EE7AEA63492FQ30395692-B2688FE0-5B7A-440C-A68E-C8259DCB0EC8Q30406287-043650FF-AA2E-4176-9615-055298C7D591Q30406290-31CB5963-2BA5-49B4-BE3D-38B703F0BB0BQ30655698-671DE226-98B1-4A1C-A036-EF84ABFC9BDFQ30658784-9E590EA3-42D7-426F-B538-8431FE5EDF71Q30658790-6E88E6B1-DBEF-4D66-BE80-89D422464F84Q30658793-F1ED96FE-7D02-4D57-A40D-B7B0C6C088C1Q30658795-D39FF6BF-AC30-431A-BA93-2DC3554F20BFQ30829110-B6172310-2AB3-4979-9FCE-6216066C0DB6Q30835554-87FCE7C5-10E5-4912-BF78-4CD2A3189A54Q30846759-74BCB156-6467-4B08-8D84-503CCA54E5C2Q33559115-9C070955-FC9F-415A-A3A8-2ED68359F333Q33586078-7AD8641E-53FC-43DF-AF98-5009D26BD85FQ33665241-12664921-ED7C-4704-B28E-FBF3FD9ACC77Q33704610-8DC22B65-4899-4ACC-8BFF-3CF9D23D3574Q33740245-95288D9E-8B82-4A5B-A3E7-196E6621BFA0Q33784289-5957984F-129E-4338-809C-FC41AD0B301EQ33799649-2EE5D684-58F0-48C9-9C3E-21739CCCAC33Q33870855-DF5C8061-7FD6-4D7D-8129-17B45EDF96D7Q33894675-E6F4C958-0313-45F5-B79D-510B16B9AC1AQ35717479-0AA67488-F187-4B52-9B62-E691718FC5F6Q35717489-1FB80515-1453-4AF0-91D0-860AFDC5FC2EQ35743707-F0601FC7-F666-4688-A6D3-9469A599B8FBQ35759250-80BD99DB-29CC-448A-8832-B9224BA4AAB1Q35780085-CF816CA5-EDC5-416F-8CA2-52D6F63FEA60Q35809674-0A66E77F-3E2C-4A0B-9B92-B49CED5DC219Q35829030-B7AC3753-8368-4A94-9E09-7F12F9EA1810Q35883469-577BBD13-89B2-400F-A824-F50C8E921666Q35883473-758DFD81-FD99-4002-B044-59CFA4B9A1CBQ35883478-E6AAB950-A249-41CB-B742-BB2D24E63777Q35883490-36E78E44-1976-444E-B866-8A9880F7F8C7Q35883495-D8D652DF-81D8-4B18-93F4-329A8AAB881F
P1433
description
medical journal
@en
revista científica
@es
wetenschappelijk tijdschrift van Springer Science+Business Media
@nl
wissenschaftliche Fachzeitschrift
@de
name
Intensive care medicine experimental
@ast
Intensive care medicine experimental
@en
Intensive care medicine experimental
@es
Intensive care medicine experimental
@nl
type
label
Intensive care medicine experimental
@ast
Intensive care medicine experimental
@en
Intensive care medicine experimental
@es
Intensive care medicine experimental
@nl
altLabel
Intensive Care Med Exp
@en
Intensive Care Medicine Experimental
@en
prefLabel
Intensive care medicine experimental
@ast
Intensive care medicine experimental
@en
Intensive care medicine experimental
@es
Intensive care medicine experimental
@nl
P31
P3181
P1055
P1476
Intensive care medicine experimental
@en