Effects of mild hypothermia on hemodynamics in cardiac arrest survivors and isolated failing human myocardium

Jacobshagen, Claudius; Pelster, Theresa; Pax, Anja; Horn, W; Schmidt‐Schweda, Stephan; Unsöld, Bernhard; Seidler, Tim; Wagner, Stefan; Hasenfuß, Gerd; Maier, Lars S.

doi:10.1007/s00392-010-0113-2

Cited by 77 publications

(52 citation statements)

References 50 publications

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“…Although systolic performance is clearly improved at all temperature steps investigated, pronounced hypothermia may impair diastolic function [10]. However, in the temperature range recommended for mild therapeutic hypothermia in cardiac arrest patients (32-34°C) [11,12] , dias tolic function seems to be preserved [6]. Al though mild therapeutic hypothermia may have direct repercussions on the myocardium, a study by Bernard et al showed no clinically signifi cant eff ect on cardiac arrhythmias in the hypothermia group [13].…”

Section: Ild Therapeutic Hypothermiamentioning

confidence: 95%

“…Th e phenomenon of increased inotropism during mild therapeutic hypothermia is not associated with increased sarcoplasmic reticulum Ca 2+ -content or increased Ca 2+ -transients [5] . Moreover, recent studies using animal species and in humans have provided accumulating evidence suggesting that mild therapeutic hypothermia may also improve cardiac performance [5,6]. Th erefore, the higher survival rates may also be related to positive hemodynamic eff ects of cooling in patients already suff ering from cardiac disease.…”

Section: Ild Therapeutic Hypothermiamentioning

confidence: 99%

See 1 more Smart Citation

Cardiac Index During Therapeutic Hypothermia: Which Target Value Is Optimal?

Giraud¹,

Siegenthaler²,

Bendjelid³

2013

Annual Update in Intensive Care and Emergency Medicine 2013

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Mild therapeutic hypothermia is now recognized as standard therapy in patients resuscitated from out-ofhospital cardiac arrest (OHCA), and is recommended in comatose patients suff ering from cardiac arrest related to ventricular fi brillation (VF) [1]. In these patients, maintaining an adequate tissue oxygen delivery (DO 2 ) is crucial. However, during hypothermia, clinical signs of hypo perfusion such as cold, clammy skin and delayed capillary refi ll are not reliable and monitoring devices must, therefore, be used to measure or estimate the cardiac index (CI). However, there are no recommendations regarding the target value of CI in the hypo thermic patient. In this article, the authors attempt to provide clinicians with some rationale to guide their therapy for the management of CI in patients treated with mild therapeutic hypothermia. M ild therapeutic hypothermiaNeurologic outcome and survival rates are improved in patients treated with mild therapeutic hypothermia [2,3]. Th e reason for the improved survival is probably related to the preservation of cerebral function. During mild therapeutic hypothermia, clinical data demonstrate that heart rate is signifi cantly reduced, an eff ect that usually improves left ventricular (LV) fi lling [4] . Whereas CI usually decreases with hypothermia, mild therapeutic hypothermia exerts positive inotropic eff ects in isolated human and pig myocardium. Th e phenomenon of increased inotropism during mild therapeutic hypothermia is not associated with increased sarcoplasmic reticulum Ca 2+ -content or increased Ca 2+ -transients [5] . Moreover, recent studies using animal species and in humans have provided accumulating evidence suggesting that mild therapeutic hypothermia may also improve cardiac performance [5,6]. Th erefore, the higher survival rates may also be related to positive hemodynamic eff ects of cooling in patients already suff ering from cardiac disease. Furthermore, a study about the hemodynamic eff ects of mild therapeutic hypothermia in 20 consecutive patients admitted in cardio genic shock after successful resuscitation from OHCA showed that these patients seemed to benefi t from mild therapeutic hypothermia in terms of myocardial performance, catecholamine usage, and survival when compared to a historic control group of matched patients treated without hypothermia [7]. Moreover, animal studies have shown that, in myocardial infarction, hypothermia decreases oxygen consumption and in farct size [8]. Th e positive inotropic eff ect of mild therapeutic hypothermia measured by systolic func tion has also been demonstrated in in vivo studies [5,9 ] an d can be measured echocardiographically by the signifi cant increase in ejection fraction (EF) and the augmented contraction velocity measured by pulse contour analysis. However, as shown by Lewis et al., increasing the heartrate (HR) under hypothermic conditions has a neg ative impact on LV contractility [9]. Although systolic performance is clearly improved at all temperature steps investigated, pronounced hyp...

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Section: Ild Therapeutic Hypothermiamentioning

confidence: 95%

Section: Ild Therapeutic Hypothermiamentioning

confidence: 99%

Cardiac Index During Therapeutic Hypothermia: Which Target Value Is Optimal?

Giraud¹,

Siegenthaler²,

Bendjelid³

2013

Annual Update in Intensive Care and Emergency Medicine 2013

View full text Add to dashboard Cite

show abstract

“…In 2006, the National Registry of Cardiopulmonary Resuscitation (CPR) published statistics on 19,819 adults and 524 children with return of spontaneous circulation after cardiac arrest. The mortality rates were 67% among adults and 55% among children (Jacobshagen et al, 2010). Currently, less than half of cardiac arrest patients survive to discharge and less than a third of those discharged have a good neurologic outcome as defined by the Cerebral Performance Category (CPS) Scale (Adler et al, 2011).…”

Section: Epidemiology Of Cardiac Arrestmentioning

confidence: 99%

“…The coiling provides a mechanism to increase surface area, thereby increasing the heat exchange between blood passing over the catheter. Internal cooling and rewarming is much faster and superior to other techniques in tightly regulating target temperature; it is possible to cool patients by 1.46°C -1.59°C per hour (Jacobshagen et al, 2010). A potential advantage of using catheter-based cooling combined with anxiolytics is that it may avoid the need to use paralytics to decrease the shiver seen in surface cooling techniques.…”

Section: Core Cooling 421 Catheter-based Technologiesmentioning

confidence: 99%