Jonas R A, Bellinger D C, Rappaport L A, Wernovsky G, Hickey P R, Farrell D M, Newburger J W
Department of Cardiac Surgery, Children's Hospital, Boston, MA 02115.
J Thorac Cardiovasc Surg. 1993 Aug;106(2):362-8.
To examine whether pH management during core cooling is a risk factor for adverse developmental outcome, we studied 16 children with transposition of the great arteries and intact ventricular septum who underwent a Senning procedure in infancy (median age 32 days, range 2 to 154 days) between 1983 and 1988. Information was collected retrospectively on many aspects of perfusion, including lowest carbon dioxide tension during core cooling, duration of core cooling, and duration of circulatory arrest. The pH strategy changed from pH-stat to alpha-stat in 1985, resulting in a wide range of pH values and carbon dioxide tension (34 to 76 mm Hg) during the study period. All children had rapid core cooling to a rectal temperature of 19.8 degrees +/- 2.7 degrees C (mean +/- standard deviation) and a tympanic temperature of 16.6 degrees +/- 3.0 degrees C. Development was assessed at median age 48.0 (11 to 79) months with the Bayley Scales (n = 4, children younger than 30 months) or the McCarthy Scales (n = 12, children older than 30 months). The mean core-cooling duration was 14.5 +/- 6.2 minutes, circulatory arrest time was 43.4 +/- 6.6 minutes, and total bypass plus circulatory arrest time was 89.7 +/- 12.7 minutes. Lower carbon dioxide tension (alpha-stat) before onset of circulatory arrest was associated with worse developmental outcome (r = 0.71, p = 0.002). This relationship remained highly significant when we controlled for sociodemographic and intraoperative variables. including core-cooling time, circulatory arrest time, and total elapsed time. Duration of circulatory arrest was not associated with developmental outcome. We conclude that when relatively rapid core cooling is used to achieve hypothermia before circulatory arrest in young infants, a more alkaline pH strategy such as alpha-stat may result in less effective cerebral protection.
为了研究在核心降温过程中pH值管理是否是不良发育结局的危险因素,我们对1983年至1988年间16例在婴儿期(中位年龄32天,范围2至154天)接受森宁手术的大动脉转位且室间隔完整的儿童进行了研究。回顾性收集了关于灌注许多方面的信息,包括核心降温期间的最低二氧化碳分压、核心降温持续时间和循环停止持续时间。1985年pH策略从pH稳态转变为α稳态,导致研究期间pH值和二氧化碳分压范围较广(34至76mmHg)。所有儿童均迅速进行核心降温至直肠温度19.8℃±2.7℃(均值±标准差)和鼓膜温度16.6℃±3.0℃。在中位年龄48.0(11至79)个月时,使用贝利量表(n = 4,年龄小于30个月的儿童)或麦卡锡量表(n = 12,年龄大于30个月的儿童)评估发育情况。平均核心降温持续时间为14.5±6.2分钟,循环停止时间为43.4±6.6分钟,总体外循环加循环停止时间为89.7±12.7分钟。循环停止开始前较低的二氧化碳分压(α稳态)与较差的发育结局相关(r = 0.71,p = 0.002)。当我们控制社会人口统计学和术中变量(包括核心降温时间、循环停止时间和总耗时)时,这种关系仍然非常显著。循环停止持续时间与发育结局无关。我们得出结论,当在幼儿循环停止前使用相对快速的核心降温来实现低温时,更碱性的pH策略(如α稳态)可能导致脑保护效果较差。
