Division of Pediatric Cardiology and Critical Care, Department of Pediatrics, University of Arkansas Medical Center, Little Rock, AR, USA.
Pediatr Crit Care Med. 2012 Nov;13(6):660-6. doi: 10.1097/PCC.0b013e318253c7f1.
To evaluate the safety and efficacy of prolonged dexmedetomidine administration (≥ 96 hrs) in critically ill children with heart disease.
Retrospective observational study.
Cardiovascular intensive care unit in a single, tertiary care, academic children's hospital.
None.
We conducted a retrospective review of the charts of all critically ill infants and children (up to 18 yrs of age) with congenital or acquired heart disease who received dexmedetomidine for ≥ 96 hrs in our pediatric cardiovascular intensive care unit between January 2009 and March 2010. Patients were divided into two groups for study purposes: the dexmedetomidine group (n = 52) included patients who received a dexmedetomidine infusion along with other conventional sedation agents, and the control group (n = 42) included patients who received conventional sedation agents without the use of dexmedetomidine. Clinical outcomes evaluated in our study included days of mechanical ventilation, cardiovascular intensive care unit length of stay, hospital length of stay, and mortality. To evaluate the safety of dexmedetomidine, we collected physiologic data, including heart rate, mean arterial pressure, respiratory rate, systemic oxygen saturation by pulse oximetry, and inotrope score. To assess the efficacy of dexmedetomidine, we examined the amount and duration of concomitant sedation and analgesic infusions over a period of 24 hrs in both dexmedetomidine and control groups. We also examined the number of rescue boluses for each category prior to the initiation of sedative infusion, during the sedative infusion, and after the termination of the sedative infusion. The potential side effects evaluated in our study included nausea, vomiting, abdominal distension, dysrhythmias, neurological abnormalities, seizures, and signs and symptoms of withdrawal.
Patients' baseline characteristics were similar in the two groups. Patient complexity as measured by Risk-Adjusted Classification for Congenital Heart Surgery-1 score, ventricular ejection fraction, and proportion of patients receiving mechanical ventilatory support at the time of initiation of sedative infusion was also similar. The duration and amount of continuous midazolam and morphine infusions were significantly lower in the dexmedetomidine group when compared to the control group. During dexmedetomidine infusion, there was no statistical difference in the heart rate and blood pressure between the two groups. Inotrope score was significantly lower in the dexmedetomidine group as compared to the control group in the last 6 hrs prior to termination of dexmedetomidine infusion (p < .001), and at 1 hr (p < .001) and 6 hrs (p < .001) after termination of dexmedetomidine infusion. There was no difference in duration of mechanical ventilation (p = .77), cardiovascular intensive care unit length of stay (p = .29), or hospital length of stay (p = .43) in the two groups. One patient experienced junctional rhythm at 130 beats/min requiring temporary pacing. No other significant side effects were noted. A higher proportion of patients in the dexmedetomidine group were administered clonidine when compared to the control group after termination of dexmedetomidine (31% vs. 7%, p = .005).
Prolonged dexmedetomidine administration in children with heart disease appears to be safe and is associated with decreased opioid and benzodiazepine requirement and decreased inotropic support.
评估在患有心脏病的危重病儿中长时间(≥ 96 小时)给予右美托咪定的安全性和疗效。
回顾性观察性研究。
在一家单中心三级儿科医院的心血管重症监护病房。
无。
我们对 2009 年 1 月至 2010 年 3 月期间在我们儿科心血管重症监护病房接受≥ 96 小时右美托咪定治疗的患有先天性或获得性心脏病的危重症婴儿和儿童(年龄达 18 岁)的病历进行了回顾性审查。患者分为两组进行研究:右美托咪定组(n = 52)包括接受右美托咪定输注和其他常规镇静剂的患者,对照组(n = 42)包括接受常规镇静剂而未使用右美托咪定的患者。我们研究中评估的临床结局包括机械通气时间、心血管重症监护病房住院时间、住院时间和死亡率。为了评估右美托咪定的安全性,我们收集了生理数据,包括心率、平均动脉压、呼吸频率、脉搏血氧饱和度的全身氧饱和度和正性肌力药评分。为了评估右美托咪定的疗效,我们在 24 小时内检查了右美托咪定组和对照组中镇静和镇痛输注的量和持续时间。我们还检查了在开始镇静输注之前、镇静输注期间和镇静输注结束后每个类别的抢救剂量。我们研究中评估的潜在副作用包括恶心、呕吐、腹胀、心律失常、神经学异常、癫痫发作和戒断症状。
两组患者的基线特征相似。风险调整先天性心脏手术 1 评分、心室射血分数和开始镇静输注时接受机械通气支持的患者比例衡量的患者复杂性也相似。与对照组相比,右美托咪定组持续和用量的咪达唑仑和吗啡输注均明显减少。在右美托咪定输注期间,两组之间的心率和血压无统计学差异。在右美托咪定输注结束前 6 小时(p <.001)和结束后 1 小时(p <.001)和 6 小时(p <.001),右美托咪定组的正性肌力药评分明显低于对照组。两组之间的机械通气时间(p =.77)、心血管重症监护病房住院时间(p =.29)或住院时间(p =.43)无差异。1 例患者出现 130 次/分交界性节律,需要临时起搏。未发现其他明显副作用。与对照组相比,右美托咪定组在右美托咪定停药后给予可乐定的患者比例更高(31%比 7%,p =.005)。
在患有心脏病的儿童中长时间给予右美托咪定似乎是安全的,并且与减少阿片类药物和苯二氮䓬类药物的需求以及减少正性肌力支持有关。
