Elio Antonucci1, Sara Agosta2. 1. Intermediate Care Unit, Emergency Department, Guglielmo da Saliceto Hospital, Piacenza, Italy. elio.antonucci@yahoo.it. 2. Intermediate Care Unit, Emergency Department, Guglielmo da Saliceto Hospital, Piacenza, Italy.
We read with interest the recent paper by Ng et al. [1] dealing with the use of speckle tracking echocardiography (STE) in septic myocardial dysfunction. In this study, the authors found that STE can detect a left ventricular impairment more sensitively than conventional echocardiography in septic shockpatients. The study offers new perspectives to improve diagnosis of septic myocardial dysfunction, and the authors should be commended for their work. However, some important hemodynamic issues should be further discussed to better interpret the results.Firstly, the cardiac preload was represented by the right atrial pressure (RAP), estimated by the inferior vena cava (IVC) diameter and the presence of inspiratory collapse. Results proved that the RAP was higher in the study group of patients than in the control group (7.4 mmHg vs 5.9 mmHg, p = 0.017), even if the amount of fluids given in the first hours of shock were not known. Moreover, if we consider that only 16/33 patients (48 %) were mechanically ventilated, use of the IVC diameter could be debatable to predict the cardiac preload in spontaneous breathing patients, as reported previously [2].Secondly, no information about the dosage and type of vasopressor/inotropic support was provided. In patients supported by catecholamines, STE might not be accurate because of altered strain rates induced by high doses of dobutamine [3].In addition, mean cardiac output (CO) and the afterload measures were unexpectedly similar both in the study group and in the control group of patients (CO = 5.88 L/min vs 5.48 L/min, p = 0.40; SVR = 1090 dynes•sec/cm5 vs 1194 dynes•sec/cm5, p = 0.303) despite the presence of distributive shock in the first group. Moreover, relevant data about tissue perfusion and microcirculatory dysfunction, such as lactate levels and venous-to-arterial carbon dioxide differences, were not reported.Lastly, the authors evaluated both mechanically ventilated patients and nonventilated patients in the study group. We know that the effects of mechanical ventilation on cardiac function and hemodynamics are complex and are characterized by reduced venous return (due to an increase in RAP), increased pulmonary vascular resistance (PVR), and reduced CO [4]. However, the present study is lacking in some important information about the positive end-expiratory pressure (PEEP), tidal volume, and respiratory rate, data that, instead, were accurately reported in the previous echocardiography works in this field [5].In conclusion, further prospective studies are warranted to investigate the clinical utility of STE in septic myocardial dysfunction.We thank Dr Antonucci and Dr Agosta for their interest in our research article [1] and their comments.We reported RAP estimated by the IVC diameter and collapsibility as a measure of cardiac preload. Although a difference in RAP between the two groups existed (7.4 mmHg vs 5.9 mmHg, p = 0.017), the absolute difference of 1.5 mmHg is probably clinically negligible. Left ventricular end diastolic volume (LVEDV) is a better index of LV preload [6], and was similar in the two groups (74.1 ml vs 74.7 ml, p = 0.90), suggesting similar preload conditions. The effect of preload on strain parameters is not completely understood, but small-scale studies have shown cardiac strain to be relatively load independent [7].Regarding the use of vasopressor or inotropic support, all patients received noradrenaline as the initial drug of choice during resuscitation. No patients received dobutamine during the course of treatment.We attribute the similar CO and systemic vascular resistance (SVR) in the study and control groups to two factors. Firstly, instead of healthy individuals, the control group was a group of patients with sepsis. These patients would have similarly raised CO and reduced SVR, albeit to different degrees. Secondly, because of the time-consuming nature of performing strain analysis, all echocardiographic assessments were done after initial stabilization, which included vasopressor administration in the context of the distributive shock. Although logistically difficult, it will be an excellent research topic to assess the speckle tracing during the initial period of septic shock.Finally, the effect of mechanical ventilation on hemodynamics was not explored in depth in our study. Subgroup analysis was not performed due to the relatively small number of patients (16/33) on mechanical ventilation. However, a similar right ventricular index of myocardial performance between the two groups speaks against a significant effect of mechanical ventilation on right ventricular function.
Authors: Laurent Muller; Xavier Bobbia; Mehdi Toumi; Guillaume Louart; Nicolas Molinari; Benoit Ragonnet; Hervé Quintard; Marc Leone; Lana Zoric; Jean Yves Lefrant Journal: Crit Care Date: 2012-10-08 Impact factor: 9.097