Descargar Imprimir esta página

Edwards HemoSphere Manual Del Usuario página 175

Ocultar thumbs Ver también para HemoSphere:

Publicidad

Monitor avanzado HemoSphere
4
Monge Garcia MI, Manuel Gracia Romero MG, Cano AG, Aya HD, Rhodes A, Grounds RM,
Cecconi M. Dynamic arterial elastance as a predictor of arterial pressure response to fluid
administration: a validation study. Critical Care 2014; 18: 626-637.
Cecconi M, Monge Garcia MI, Romero MG, Mellinghof J, Caliandro F, Grounds RM, Rhodes A.
5
2015. The Use of Pulse Pressure Variation and Stroke Volume Variation in Spontaneously
Breathing Patients to Assess Dynamic Arterial Elastance and to Predict Arterial Pressure
Response to Fluid Administration. Anesth Analg 2015; 120: 76-84.
Cannesson M, Le Manach Y, Hofer CK, Goarin JP, Lehot JJ, Vallet B, Tavernier B. Assessing the
6
diagnostic accuracy of pulse pressure variations for the prediction of fluid responsiveness. A "gray
zone" approach. Anesthesiology 2011; 115: 231-241.
Cannesson M, Musard H, Desebbe O, Boucau C, Simon R, Henaine R, Lehot JJ. The Ability of
7
Stroke Volume Variations Obtained with Vigileo/FloTrac System to Monitor Fluid
Responsiveness in Mechanically Ventilated. Anesth Analg 2009; 108: 513-517.
8
Pinsky MR. Protocolized Cardiovascular Management Based on Ventricular-arterial Coupling. In:
Functional Hemodynamic Monitoring. Update in Intensive Care and Emergency Medicine (44).
Springer-Verlag, Berlin, 2004, pp. 381-395.
Sunagawa K, Maughan WL, Burkhoff D, Sagawa K. Left ventricular interaction with arterial load
9
studied in isolated canine ventricle. Am J Physiol, Heart Circ Physiol 1983; 245: H773-H780.
Chantler PD, Lakatta EG, Najjar S. Arterial-ventricular coupling: mechanistic insights into
10
cardiovascular performance at rest and during exercise. J Appl Physiol 2008; 105: 1342-1351.
175
12 Funciones avanzadas

Publicidad

loading