Increasing arterial blood pressure with norepinephrine does not improve microcirculatory blood flow: a prospective study.
about
Gut and sublingual microvascular effect of esmolol during septic shock in a porcine modelPressor Response to Noradrenaline in the Setting of Septic Shock: Anything New under the Sun-Dexmedetomidine, Clonidine? A MinireviewPathophysiology of microcirculatory dysfunction and the pathogenesis of septic shockPerioperative Haemodynamic OptimisationReal-time point of care microcirculatory assessment of shock: design, rationale and application of the point of care microcirculation (POEM) toolThe vulnerable microcirculation in the critically ill pediatric patientMilrinone attenuates arteriolar vasoconstriction and capillary perfusion deficits on endotoxemic hamstersDissociation between sublingual and gut microcirculation in the response to a fluid challenge in postoperative patients with abdominal sepsisA high mean arterial pressure target is associated with improved microcirculation in septic shock patients with previous hypertension: a prospective open label studyEffects 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.Haemodynamic optimisation improves tissue microvascular flow and oxygenation after major surgery: a randomised controlled trial.The role of vasoactive agents in the resuscitation of microvascular perfusion and tissue oxygenation in critically ill patientsRenin-angiotensin system activation correlates with microvascular dysfunction in a prospective cohort study of clinical sepsis.Microcirculatory changes during open label magnesium sulphate infusion in patients with severe sepsis and septic shock.The role of renal hypoperfusion in development of renal microcirculatory dysfunction in endotoxemic rats.Divergent neuroendocrine responses to localized and systemic inflammation.Early administration of norepinephrine increases cardiac preload and cardiac output in septic patients with life-threatening hypotension.Withdrawing intra-aortic balloon pump support paradoxically improves microvascular flow.A new device for continuous assessment of gut perfusion: proof of concept on a porcine model of septic shockConsensus on circulatory shock and hemodynamic monitoring. Task force of the European Society of Intensive Care Medicine.Elevated central venous pressure is associated with impairment of microcirculatory blood flow in sepsis: a hypothesis generating post hoc analysis.Does the Mean Arterial Pressure Influence Mortality Rate in Patients with Acute Hypoxemic Respiratory Failure under Mechanical Ventilation?Quantification of microcirculatory blood flow: a sensitive and clinically relevant prognostic marker in murine models of sepsis.Sedation and renal impairment in critically ill patients: a post hoc analysis of a randomized trialSublingual microcirculatory changes during high-volume hemofiltration in hyperdynamic septic shock patients.Early norepinephrine resuscitation of life-threatening hypotensive septic shock: it can do the job, but at what cost?Arterial blood pressure targets in septic shock: is it time to move to an individualized approach?Evaluation of multiple modes of oximetry monitoring as an index of splanchnic blood flow in a newborn lamb model of hypoxic, ischemic, and hemorrhagic stress.Effects of vasopressinergic receptor agonists on sublingual microcirculation in norepinephrine-dependent septic shockEffects of changes in arterial pressure on organ perfusion during septic shockMicrovascular reactivity and clinical outcomes in cardiac surgery.Defining the adequate arterial pressure target during septic shock: not a 'micro' issue but the microcirculation can help.Association of Microcirculation, Macrocirculation, and Severity of Illness in Septic Shock: A Prospective Observational Study to Identify Microcirculatory Targets Potentially Suitable for Guidance of Hemodynamic Therapy.Venous-to-arterial carbon dioxide differences and the microcirculation in sepsis.Critical care considerations in the management of the trauma patient following initial resuscitation.Observational study of the effects of traumatic injury, haemorrhagic shock and resuscitation on the microcirculation: a protocol for the MICROSHOCK study.The association between lactate, mean arterial pressure, central venous oxygen saturation and peripheral temperature and mortality in severe sepsis: a retrospective cohort analysis.Rolipram improves renal perfusion and function during sepsis in the mouse.Near-infrared spectroscopy for assessing tissue oxygenation and microvascular reactivity in critically ill patients: a prospective observational study.
P2860
Q22000596-B9E94717-4695-4067-B512-72935BF46D0BQ26771226-AD2C8B1C-34E7-49C5-A542-F61258FD6639Q26851227-5F5FDB22-759D-49B3-822F-78C0179E4DEDQ26997378-6561EBBF-5D97-4E04-A865-FC67DBBE13DEQ27339079-C6C3D696-7020-43C0-B4B6-5F7487F0EBC5Q28079522-BA4451D5-F548-4356-91F4-708814ED3F6CQ28543197-CB462219-026A-439F-BD5D-87501CB88BBCQ30616536-430D4DE4-4E3A-41B3-856B-66301A74D093Q30643485-7BCF03A3-95A9-448E-A318-E67C18E48E5BQ30658790-2CA810B7-6F0E-4718-97A1-F643DA516242Q30658793-C977CD67-9631-4B14-A3F9-2056426B789FQ33653577-B0BC6ECB-4625-4275-AF2F-C56D0691F7FAQ33682301-7F816B85-D79F-4C0D-BBF4-8B4E9C1BACEDQ33873488-5B326D39-C702-4247-BA7B-BB3EBC4719A4Q33932236-343316EF-7FF4-4F24-846A-8D0D7BC018C9Q33939855-D7A01119-13FE-4472-AE90-7C05B847C8CCQ34028610-80B07E66-ED0E-4E4C-BC47-84AB79783B50Q34153303-7A03D328-ABEB-44E5-BF2F-DFB7F208A4FAQ34153386-D45EA134-6327-4421-A316-463EFD7485CAQ34467782-04BD1BE6-636C-4167-9962-8AA7EA7ED307Q34553475-42823025-1086-4E88-9250-CA5419794498Q34898334-9563CA7F-74E8-43DB-9845-989C57C314EBQ35307335-754F0580-D71D-4D6B-8C7F-1AFA11306630Q35493141-A756FFBF-6DFE-423D-93F1-BDB176C15364Q35558177-CF4C5BAD-B102-4E17-BECA-4E2CF2469076Q35559195-7F574F66-4D28-4666-962E-EF984FA08077Q35561422-D2EE77B0-C268-4983-ACA6-CDA7D180005BQ35755536-EC74B162-6F3C-4222-A7B8-72522920AE95Q35811178-E3AF887C-DFCA-49C2-972D-D9F1EDCDE789Q35908131-5F025D6E-EE87-4F52-B05D-C6AA2D833C5DQ35908154-8AE5BB4F-6F36-4DCC-A4CE-5EBDE49C022CQ36027968-6EB16FBB-786D-436B-B183-4B9C83B5735CQ36072985-FD284A65-3F0B-41CC-890C-D0C69911A952Q36148874-4244AD58-FC4F-4D79-AC06-FC87C4636852Q36540146-F78F6647-1AD8-40F9-94C6-97F5E8C24939Q36594487-11488661-C965-48B5-BB0F-88F637F60AE9Q36670484-CFF99211-B79D-4737-9DFE-6DFC83827E07Q36679243-DE43CF9B-A3FD-4E1F-8180-1401318C561EQ37252021-6D87F5A5-7BCE-493D-A682-23023C3AEAC3Q37302256-BD31CA09-C770-49CB-B920-9C6728A84754
P2860
Increasing arterial blood pressure with norepinephrine does not improve microcirculatory blood flow: a prospective study.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 17 June 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Increasing arterial blood pres ...... ood flow: a prospective study.
@en
Increasing arterial blood pres ...... ood flow: a prospective study.
@nl
type
label
Increasing arterial blood pres ...... ood flow: a prospective study.
@en
Increasing arterial blood pres ...... ood flow: a prospective study.
@nl
prefLabel
Increasing arterial blood pres ...... ood flow: a prospective study.
@en
Increasing arterial blood pres ...... ood flow: a prospective study.
@nl
P2093
P2860
P356
P1433
P1476
Increasing arterial blood pres ...... ood flow: a prospective study.
@en
P2093
Arnaldo Dubin
Christian A Casabella
Elisa Estenssoro
Fernando Pálizas
Gastón Murias
Mario O Pozo
Miriam C Moseinco
Vanina S Kanoore Edul
P2860
P2888
P356
10.1186/CC7922
P577
2009-06-17T00:00:00Z
P5875
P6179
1012733292