Relais des catécholamines en réanimation

Lavoisier - 2011
Jean‐Damien Ricard1,2, Y. Martin1,2, C. Botcherby1,2, Sylvie Villard2,1, H.‐O. Kalinowski1,2, Annie Blivet1,2, Didier Dreyfuss1,2
1UFR de médecine Paris-Diderot-Paris-VII, Pres Sorbonne Paris-Cité, F-75010, France
2Service de réanimation médicochirurgicale, Assistance publique-Hôpitaux de Paris, hôpital Louis-Mourrier, Colombes, France

Tóm tắt

Từ khóa


Tài liệu tham khảo

Arino M, Barrington JP, Morrison AL, Gillies D (2004) Management of the changeover of inotrope infusions in children. Intensive Crit Care Nurs 20(5):275–280

de Barbieri I, Frigo AC, Zampieron A (2009) Quick change versus double pump while changing the infusion of inotropes: an experimental study. Nurs Crit Care 14(4):200–206

Morrice A, Jackson E, Farnell S (2004) Practical considerations in the administration of intravenous vasoactive drugs in the critical care setting. Part II-how safe is our practice? Intensive Crit Care Nurs 20(4):183–189

Argaud L, Cour M, Martin O, et al (2007) Changeovers of vasoactive drug infusion pumps: impact of a quality improvement program. Crit Care 11(6):R133

Powell ML, Carnevale FA (2004) A comparison between single and double-pump syringe changes of intravenous inotropic medications in children. Dynamics 15(4):10–14

Grissinger M (2010) Smart pumps’ are not smart on their own. P T 35(9):489–529

Rothschild JM, Keohane CA, Cook EF, et al (2005) A controlled trial of smart infusion pumps to improve medication safety in critically ill patients. Crit Care Med 33(3):533–540

Nuckols TK, Bower AG, Paddock SM, et al (2008) Programmable infusion pumps in ICUs: an analysis of corresponding adverse drug events. J Gen Intern Med 23(Suppl 1):41–45

Heise D, Rathgeber J, Kettler D (1998) Causes of failure and dangers in the use of motor driven infusion pumps. Accidental closure of the infusion system. Anaesthesist 47(1):54–58

Krauskopf KH, Rauscher J, Brandt L (1996) Disturbance of continuous, pump administration of cardiovascular drugs by hydrostatic pressure. Anaesthesist 45(5):449–452

Kern H, Kuring A, Redlich U, et al (2001) Downward movement of syringe pumps reduces syringe output. Br J Anaesth 86(6):828–831

Schulz G, Fischer J, Neff T, et al (2000) The effect of air within the infusion syringe on drug delivery of syringe pump infusion systems. Anaesthesist 49(12):1018–1023

Decaudin B, Dewulf S, Lannoy D, et al (2009) Impact of multi-access infusion devices on in vitro drug delivery during multi-infusion therapy. Anesth Analg 109(4):1147–1155

Lovich MA, Doles J, Peterfreund RA (2005) The impact of carrier flow rate and infusion set dead-volume on the dynamics of intravenous drug delivery. Anesth Analg 100(4):1048–1055

Lovich MA, Kinnealley ME, Sims NM, Peterfreund RA (2006) The delivery of drugs to patients by continuous intravenous infusion: modeling predicts potential dose fluctuations depending on flow rates and infusion system dead volume. Anesth Analg 102(4):1147–1153

Bartels K, Moss DR, Peterfreund RA (2009) An analysis of drug delivery dynamics via a pediatric central venous infusion system: quantification of delays in achieving intended doses. Anesth Analg 109(4):1156–1161

Neff SB, Neff TA, Gerber S, Weiss MM (2007) Flow rate, syringe size and architecture are critical to start-up performance of syringe pumps. Eur J Anaesthesiol 24(7):602–608. Epub 2007 Jan 30

Neal D, Lin JA (2009) The effect of syringe size on reliability and safety of low-flow infusions. Pediatr Crit Care Med 10(5):592–596

Moss DR, Bartels K, Peterfreund GL, et al (2009) An in vitro analysis of central venous drug delivery by continuous infusion: the effect of manifold design and port selection. Anesth Analg 109(5):1524–1529

Lovich MA, Peterfreund GL, Sims NM, Peterfreund RA (2007) Central venous catheter infusions: a laboratory model shows large differences in drug delivery dynamics related to catheter dead volume. Crit Care Med 35(12):2792–2798